RU2074775C1 - Apparatus for averaging of ores quality in process of lump by lump radiometric separation - Google Patents

Abstract

FIELD: mining, processes of ores quality averaging in conditions of acting radiometric dressing of ores. SUBSTANCE: apparatus for averaging of quality of mixed standard and sub-standard ores has system of two engaged with each other separators. First separator is processing sub-standard ores, second separator is processing standard ores. There are two in series connected bunkers for mixing of waste tailings and for dressed products, six blocks of measurements accuracy increasing linked to nuclear-physical detectors. To adjust weight shares of mass of mixed dresses products and waste tailings they use in series connected two bunkers, two ores conveyors, two detectors, two block of measurements accuracy increasing, two microcomputers of separators. To control value of limiting concentration they use two blocks of separation process in series connected with two detectors, two blocks of measurements accuracy increasing and two microcomputers of substandard and standard ores separators. There is additional canal for recirculation of waste tailings portions to input of sub-standard ores separator. EFFECT: improved design. 1 dwg

Description

 The invention relates to technology for averaging the quality of ores in the current radiometric concentration in the mining industry.

 A device is known that implements the known method of averaging the quality of ores in the process of starting radiometric separation, containing bunkers, three groups of nuclear-physical detectors of an ore-controlling station with individual microcomputers installed at the input of the initial rock mass to the separator and the exits from the separator of enriched products and dump tailings and a block controlling the magnitude of the separation separation margin, the output of which and the outputs of individual microcomputers of each group of nuclear-physical ore control detectors the filling station is connected to the separator microcomputer (SU patent N 1802130, MKI E 21 C 41/00, B 03 B 13/06, B 07 C 5/346, 1993).

 A disadvantage of the known device for averaging the quality of ores in the process of piecewise separation is the low accuracy of determining the content of useful components in the tailings and enriched product, since the effective volume of research by nuclear-physical detectors does not exceed several percent of the total volume of ore mass. This drawback in the process of averaging the quality of ores increases the loss of metal in the tailings.

 The aim of the invention is to increase the degree of averaging of the quality of mixed conditioned and off-balance ores and reduce metal losses by increasing the accuracy of determining the content of useful components by nuclear-physical detectors of ore-controlling stations at the inlet of the separator and the outlet of tailings and enriched product of conditioned and off-balance ores.

 The goal is achieved by the fact that in the known device containing the bunkers, three groups of nuclear-physical detectors are installed at the inlet of the initial rock mass of conditioned ore into the separator and the exits from the separator of enriched products and dump tailings and connected to the individual microcomputer of the ore monitoring station to read the content of useful components of the initial conditioned ore, the mass of enriched products and tailings, the control unit of the boundary content of separation of conditioned ore, the output to The outputs and individual microcomputer outputs of each group of nuclear physical detectors of the ore control station are connected to the separator microcomputer; a second separator for off-balance ore, additional bunkers for the initial rock mass of off-balance ore, enriched products and dump tailings of off-balance ore, and a bunker for mixing enriched conditioned and off-balance products are additionally introduced ore, a hopper for mixing tailings of conditioned and off-balance ore, a microcomputer of an off-balance ore separator, will complement nuclear physics detectors installed at the input rock input of the off-balance ore mass into the off-balance ore separator, exits from the enriched products separator and dump tailings, as well as at the outputs of enriched products and dump tailings of mixed ores, and associated with individual microcomputers of the ore monitoring station for reading the content of useful components of the initial off-balance ore, the mass of enriched products and dump tailings of the off-balance ore, the mass of enriched products and dump tailings, see ash ore, a control unit for the marginal content of off-balance ore separation, the output of which and the outputs of individual microcomputers for reading the contents of useful components of the original off-balance ore mass, enriched products and dump tailings of off-balance ore, and the mass of dump tailings of mixed ore are connected to the microcomputer of the off-balance ore separator and the output of the microcomputer for reading the mass of enriched mixed ore products is connected to the microcomputer of the conditioned ore separator, each group of nuclear detector of separators of conditioned and off-balance ore is equipped with a unit for increasing the accuracy of measurements, the first and second outputs of which are connected respectively to the output of the nuclear physical detector and individual microcomputer, and the output is connected to the input of the corresponding block for controlling the boundary content of separation of conditioned and off-balance ore, while the hopper for mixing enriched products is connected by additional conveyors to the bunker of enriched products of conditioned and off-balance ore, and ker Mixing tailings associated additional conveyor with hopper conditioned ore tailings and overbalanced ore, and is also connected to a hopper for the original rock mass overbalanced ore grade ores for recycling and re-separation overbalanced ore when the boundary contents conditioned and overbalanced ore.

 The drawing shows a block diagram of a device for averaging the quality of mixed conditioned and off-balance ores.

 The device for averaging the quality of mixed conditioned and off-balance ores consists of two interconnected separators: the first separator 1 separates off-balance ores, the second separator 2 is conditioned ores, inputs 3 and 4 of the source rock mass, respectively, off-balance and conditioned ore, outputs 5 and 6 of tailings and enriched Product 7, 8 of each separator installed bunkers for the ore mass of the original ore 9 off-balance ores, tailings 10 and enriched products 11 off-balance ores. For conditional ores, bunkers were installed for the ore ore ore mass 12, dump tailings 13 and enriched products 14. Ore control station detectors (RK) 15 off-balance ore separator detectors and PKC 16 detectors of standard ore separators register the content of useful components in the source ore bunkers of off-balance and conditional ores. Using devices for increasing the accuracy of measurements for off-balance ores 17 and standard ores 18, information is transmitted through the blocks of the ore quality indicator and reading blocks 19, 20 (microcomputers) of the initial off-balance ore to the control units for the boundary content 21, 22 and the microcomputer of the separators 23, 24 off-balance and conditioned ores. With the help of an off-balance ore separator and a standard ore separator, the ore mass of off-balance and standard ore is separated into enriched products and tailings. Enriched products 25, 26 of off-balance and ore are sent to the bunker, where the content of useful components is recorded using off-balance ore ore detectors 27 and off-balance ore ore detectors 28. Using a device for improving measurement accuracy 29 through an ore quality indicator and an off-balance ore reading unit 30 and devices for increasing the accuracy of measurements 31 ore quality indicators and a reading unit 32 of standard ore information is sent to the block for controlling the value of the boundary content and the separator microcomputer scored Anse and conditioning ores. The dump tailings 33 of the off-balance ores are sent to the hopper 10, and the dump tailings 34 of the conditioned ores are sent to the hopper 13, the content of useful components of the off-balance ores is recorded using the RKS 35 detectors, and the conditioned ores using the detectors 36 and through the ore quality indicator block of the device for increasing the measurement accuracy 37 reading unit 38 off-balance ores and through the ore quality indicator block of the device for increasing measurement accuracy 39, reading unit 40 standard ores the information is sent to the gran ary microcomputer content of off-balance ores and air conditioning.

 The mixing tailings of off-balance and conditioned ores is carried out in the hopper 41, the enriched product is mixed in the hopper 42, the content of the mixed dump product is determined using PKC 43 detectors, the content of the mixed enriched product of off-balance and conditioned ores is determined using PKC 44 detectors. measurement accuracy 45 through an ore quality indicator and a reading unit 46 of mixed off-balance ore and an indicator of measurement accuracy of dump tailings of mixed ores 45 Using the ore quality indicator and the reading unit 46 of mixed ore tailings, the information is sent to the control unit for the boundary content of the mixed waste tailings 21 and the separator microcomputer 23. Using the device for increasing the accuracy of measurements of rich products of mixed ore 48, the information is sent to the control unit for controlling the value of the boundary content of mixed rich products 22 and a separator microcomputer 24. For regulating the weight fractions of mixed dump tailings of conditioned and off-balance ores information sent for processing mixed dump tailings in the microcomputer 49. To regulate the weight fractions of mixed products of conditioned and off-balance dressing ore and off-balance ore products, information is sent for processing to the mixed computer of mixed ore tailings 50. Two levels of regulation are used to regulate mixed dump tailings and enriched products weight fractions of mixed tailings and enriched products of conditioned and off-balance ores and regulation of the boundary content separator conditional and off-balance ores. The implementation of two levels of regulation is carried out automatically using microcomputers that process the information of groups of nuclear-physical detectors of the CSW.

 If the content of useful components in the mixed tailings according to the RKS detectors will exceed the mixed content of the useful components of lumpy material entering the hopper of the tailings 41, then this portion of the ore is recycled through the channel 51 to the averaging hopper for re-separation with a changed boundary content of the off-balance ore separator (see .Drawing 1).

 The magnitude of the variability of the boundary contents of lumpy separation of off-balance and conditioned ores is determined by the expressions (1, 3). For the enriched product, the regulation information is sent through blocks 7, 8, 11, 14, 22, 24, 25, 26, 27, 28, 29, 30, 31, 33, 42, 44, 47, 48, 51. For tailings through blocks 5, 6, 10, 13, 22, 24, 33, 34, 35, 36, 37, 39, 40, 41, 43, 45, 46, 49, 51.

 The described process for regulating off-balance and standard ores during lump separation is implemented using automatic devices shown in the block diagram of the electronic components of the device for averaging the quality of mixed conditioned and off-balance ores.

Claims (1)

 A device for averaging the quality of ores in the process of starting radiometric separation, containing bunkers and three groups of nuclear physical detectors installed at the inlet of the initial rock mass of conditioned ore into the separator and exits from the separator of enriched products and dump tailings and connected to the individual microcomputer of the ore monitoring station to read the content useful components of the initial conditioned ore, the mass of enriched products and tailings, the control unit of the value of the boundary content I separation of conditioned ore, the output of which and the outputs of individual microcomputers of each group of nuclear physical detectors of the ore monitoring station are connected to the separator microcomputer, characterized in that a second separator for off-balance ore, additional bins for the initial rock mass of off-balance ore, enriched products and dump tailings of off-balance are introduced ore, a bunker for mixing enriched conditional and off-balance ore products, a bunker for mixing waste tailings of conditional and off-balance ore, mi off-balance ore separator ROE computers, additional nuclear physical detectors installed at the input of the off-balance ore source rock mass into the off-balance ore separator, at the exits from the enriched products separator and dump tailings, as well as at the outputs of enriched products and dump tailings of mixed ores, and associated with individual microcomputer of an ore-controlling station for reading the content of useful components of the initial off-balance ore, mass of enriched products and dump tailings of off-balance ore, mass enriched products and dump tailings of mixed ores, a unit for controlling the boundary content of off-balance ore separation, the output of which and outputs of individual microcomputers for reading the content of useful components of the original rock mass of off-balance ore, the mass of enriched products and dump tailings of off-balance ore, the mass of dump tailings of mixed ore are connected to the microcomputer of the off-balance ore separator, and the output of the microcomputer for reading the mass of enriched mixed ore products is connected to the microcomputer separator and of conditional ore, each group of nuclear-physical detectors of separators of conditional and off-balance ore is equipped with a unit for increasing the accuracy of measurements, the first and second outputs of which are connected respectively to the output of the nuclear-physical detector and individual microcomputer, and the output is connected to the input of the corresponding unit for controlling the value of the separation margin ore and off-balance ore, while the hopper for mixing the enriched products is connected by conveyors to the bins of the enriched products of air conditioning ore and off-balance ore, and the hopper for mixing tailings is connected by conveyors to the hoppers of tailings of conditioned ore and off-balance ore, and also connected to the hopper for the initial rock mass of off-balance ore for recirculation of off-balance ores and re-separation of off-balance ore when changing the boundary contents and conditional ore.