SU1535631A1 - Apparatus for automatic control of separation of ore into fractions in flow - Google Patents

Abstract

The invention relates to the mining and processing industry and can be used for preconcentration and separation of ores by the content of useful components in them. The purpose of the invention is to improve the accuracy and productivity of ore separation in a stream on a conveyor by taking into account the instability of the ore mass and the content of useful components in the stream. The device is equipped with a fraction identification unit 7, an ore flow rate regulator 8 and a regulator of 9 ore fractions, a unit 10 for correcting the released fractions, separation mechanisms 11 for separating fractions into storage tanks, sensors 12 for the mass of ore fractions in storage tanks and absolute sensors 4 the content of the useful component of the ore. The signals from the speed sensors, the flow rate 3 of the ore flow, the absolute content 4 of the useful component of the ore, and the time 6 in block 5 calculate the concentration of the iron components and synchronize the measurements and adjustments. According to the signals for regulating the separation of the ore into fractions, using the identification block 7, the regulator 8 of the flow rate, and the regulator 9 of the fractions, the ore is optimally divided into fractions. The sensors 12 measure the mass of the accumulated fractions, which is corrected in block 10. The invention allows determination and separation.

Description

And lemie goitre is related to ropno-o6oi athymic and washed RMIHOCTH and can be used for pre-concentration and separation of ores according to their content in the ore components, determination and separation of nxiion oro in ore flows, and other quality and ore quality, ore, ore quality and ore quality, ore quality and ore quality, ore quality, ore quality, ore quality generalization

The aim and cobregination is to increase the efficiency and productivity of ore separation in the stream on the conveyor (and by counting 1, 1) the weight of the ore and the content of useful components in the stream

1 la the drawing shows the block diagram of the device IIOIKM VA

NciponuBo contains the i yi, ieni I transmission of the ore stream СОВ- УК с. then with pi: At the shrumpy ore feeder and; with me tenpami no ipacce lenga and smeri with warm ladies 2 speeds of flow rum bi biofluid ore and absolute went (. ryan component in 4, block. definition 1C of the shadow of concentration of useful components v ass (i time, block 7 and CPP ifnkapii (fractions of ore, pei nuop I pai flow flow ru 1Y, regulator 9 fractions of pitch, b yk 1 (1 correction selected fractions cc c, i.e. t.t. ie p.new furs or i 11 you- U Hiii H (|| 1 ore fractions into storage tanks and .... chips 12 masses of selected fractions of pitch 13 accumulative 1 x capacitive

N i i poiu 1130 works aei next

I b) d) determining the concentration of useful components, the conversion of uiB.ii on my inputs into it cm on fishing and Ie dIs 2-4 and laiMiiK.i time (, repro tration (remember HIU) uti on 1. from uii, the calculation of the value of the concept of the radio in Japan and the OS iueei (VIAU1 uiiixpoiiii zapin) measurement and 1I | (i) ano; oi o-iuujipoBbic was transformed1 111. the memory system was remembered by the measurement of oopaoai and pranel the smallest structure and mmor o (. ineei is i right tapes ( And chroni zatsns And measurement, the calculation of KoHnenipaiiHh useful com coin and syncronism and pulses of separation by separation of p 1Y pa fr 1tsii with a unit of time of measurement

In block. l realizable (| nktsnon nnye and. logical transformations of the input i in the mass flow rate (1 skein and, and (ponzha. absonioioio 1 1 ser1 H1Ya 1 components, transformed them into codes (|. addition codes and N-, time code V measuring ho ia pty and absolute content and forming a sequence of full 4 codes ii.ip.iMe gr & .t, j.. 3

the choice of pairs ko &, & and -, d., one

iKiio and it about the same flow cross-section on the time of their measurement, the definition of concentrate |

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about 5

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 in relation to the absolute content of the I components and the flow rate G (mass) setting block 7 for identifying fractions of a certain concentration parameter K, in a selected flow section with a flow rate (mass) (i, registering concentration codes K, and mass G, time t of measurements according to the sequence of sections flow

With the help of the identification block 7, the register 8 of the consumption register of the H fraction and b. Lower K) corrections of the fraction produce an optimal separation of p 1y into fractions by weight of the fraction given) the average value of the concentration of the useful component in the fraction and the cost of the initial p 1Y depending on the pautpi-division of m fractions and fact - cicking no.it radios with the heat of kok ioneneg in fractions

Identification block 7 implements the national transformation of the concentration of the concentration of K, useful components in the sample (itinHOM and the flow of a stream with a phoxo (mass) G coming from the block,). i the purpose of forming a signal from an imympm on the ratio of accumulated mass separation G into the process of dividing the mass G, (fractions of py 1Y in i-ak png. capacitance 12 from co-generation in the form of a three-dimensional formation. (j) p iKiuin

The most important vanes The maximization condition is “bixo ia masses of the Gt-i fraction with a given concentration of the neck. a walkie talkie that takes a drink

Ci-Kf - 1 I G, K, (F6. Kvrv. F,). The names previously entered are additionally indicated by

conveyor

 the output of block 7 of the formulas h-and sshalasadanie replator of the flow ia

ores of 8 p pei in the ore of ore extraction

Changes in the Charter (Zh pei .unopa paixo.ia ore and jiei y l i op, 1 (})) Actuating the output of h with rec the block 1U of the correction of the fraction, enter with which you are connected to the village of 12 points of the frac mass. and the output of the correction block is so t, inn i) by the second input of the pentification block

Optimization of separation and pei of inpoB.i nor ore fraction is produced according to the criteria and setups specified in block 10 to the dependent and about: production, and curv. Jtion and lexno.ioi. radiation sets and te revolutions, for example, maximization of the mass of the fract. and for a given one) with a pattern of the value of cattle, separation of the ore into fractions according to the concentration fork,

The final operation of the mechanical separation of the ore flux into fractions according to (shna lam or pc tula then | 1a frakshi iroisho un pa by dividing mechanisms

fractions, for example, of a sliding valve of a billowing type ii / i, of a passing flow, p rotatable by funnel-shaped mechanisms, 1 iH i, an orientation of a single conveyor belt, and a fraction of a fraction,

In Kaietiiu i mt ri ic the 1st mjmchik cho la p i prshkn cm ten ymegrich1 kiy konveyiernii vy s in qualities, 1patchik with ko potin 2 itKipi a certain 1a omegraka ka

MttTHi ы г г но afko by noe iei / hkani n gama in p and 4Mt ia notu cate n

Now ioiidHt now imi.i L GOR Hflt m lemrosh lathi with koim vycho dom and in gashnr k.orym (hnaniskn b IOK syn ron1Na 1P1 sparkle

B uk 5 oi pt uu nor the end of the connection of the components of the pt i in man man to the ba it mikr about ip iM ii about i i i i to pet about te and i nit start i i. 1 I i t 20 n n inu HHOI I log in vu prrabo iv t iHMi. i m on yun ana koi about kom 1MMya1I ku yu gaim (rum ocucous processing Bi MI i uiHHMv i ko yun end n i, ia p1 and ck m y pi pi and u i pa

, IB i III ro III (.Illi ll pi tr ShaNI

L Oh I p Hint II ilHII FRAKI p U

pt i per g m micro -) In V inn

(1J | (LI t Chogosho Miron

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i IM i an on m v iv14 i r po ipi i n Koni | ioiit | i p i pi a HI n RI.K tin up ribii i i l) iii | i in (io on nor and ri i and a

I xi i IK HI; a i and z io i (, oh) and letKiu IK are pt and | n your and and i m h (en

L Yul 111 i (Hi | HKlllU |) P) K | ill |) t, AND (

van u u i i4 n r (r 12 and t iai lap noy to 1 h i i i SY n no i i ganok

In KI4UIBP ui4HK) B% itt .i I MI i i)

(j) priMlHH 1 pMMv ll lh) i it RIINK ON I 1POVO 14 I hOBbK ItlMOMl n h Kill Y1CHIKS S. i 1

nifik1i HI, IV and the calculation of the uii lui yu and ko IOB OK i BI 1NICH mic) it |) (i pa m

MltpU Vbl KOH 1 po Mt p) B (K I 2 (1 Pt MI KO N T

IOMUKOHI) 111 P i (f 12 (j 21)

And KOVIIInHUI G01 And Miil IU1 GKMVO1YP ti) B 4 I HUt IN bIMt NAME AND t VYA 1 And I O

UIM n in j i i m

Ht BUT 1YOV IHIH II NII I1OBI Ill.it T

i ochshk i. and i p HI IB) and 11 biiot i pa m h iii

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 into fractions by concentration and oi. the ibnoe regulation of Mattbi and the concentration of fractions in the racetunium ia tMtr of the netTd6n.ibHOtTH flux of the u.i stream of information on the content of its components as well as its ot peak u ui i iv botipich of the p 1Y fluxes

RESEARCH INSTITUTE OF PERSONNEL BORNS I1K1YUCH.N1 IM K pt p 1

work enrich with 1 factories ,, p-in and cheap poro i

FORCHTSH II WOfiCJt Hit

, tipoHtrno i 1I aBTOMaTH4ttKoi o pt is n TOhaibu .. pöntata split u, i in IIOTCKI 1 ia-sunn "Stream, containing a neck pi i myi ngateli p. on the conveyor UIHHIH i coro and p 1y stream on Koniuiu py u la chase p 1Y t) t and nena v o olom onpt it shadows of cosmntraction young com i i neto or lU tuioi t by the fact that ti n HI intercept u p u i i and i u p p comn pt ii t4tT chega it with gabi ibixu in m to ii), p ii) and u) 1er /, annch pop cn com t cents per FLOW it supplies, b and n and hyphiliae fraction pei UiTopo i r.h about ii flow p and pei yura frak chg | n 11 b yuk Koppet-tion of out 1 s mt (lipdi ni

p 1 i It UTt 1Y1Y ill Mt XtiHIMM.iV i 4Y li t1

(} P IKIl 1 i pv 1Y V N. K) PI P I ln I II

Arcs, VfittD Bin d it IHM fr ib i

ti, l P I1 iKOl ItTt 4M t iKOt,, IOH

but HI v) i hm a HP no le 11101 about comp t t. , ibi iiov i b OK i oi | ii

KOHIkHII 1 Acquisition IIOltMMIX KOMIH t I1 i iI

IH and irvpm xho a m b ka i - i i HI ippiKim shrchii i ko ipum 11 m i. 4ept t pt g 1YaUR p it u n 11 h i, v i, i t i 4ip t m I, IM p and i a it u m p 1Y hi i o HI,

, 1 h upon VYCHO I 4t pt i BY I I, 1 II Ul p i it p i U 11P t I .HI IVIt Mt .lll i 1 HB11

t t im fraction pv in nabi t n i t.

tMKOiill Idl lllkll Mdltbl BhlU ItHHl. f | ,one

No1 p in the accumulation of it other t notin but to iKHkiii.i to b bc corrections you and ii faction output i hoiopoio IK IK n to l b iu and u i1 1 (fikaiii Frakshp pp m m vycho1 ipchika a6to 1 SUNNO1 about touiAmiiw i itinoio KOMi ontura pi l tot IHIKH i th BtTt i c or IM UIM b a bout oupt u n HI kchn tsengraphii IIOTIMHOIO compote in i

Claims (1)

Claim A device for automatically controlling the process of separation of ore in the stream into the “Stream” fraction, containing an adjustable ore feeder on the conveyor, ore flow rate sensors on the conveyor, ore flow rate sensors connected to the unit for determining the concentration of useful components, characterized in that, in order to increase accuracy and the performance of separation of ore in the stream on the conveyor due to the instability of the ore mass and the content of useful components in the stream, it is equipped with a fraction identification unit, flow control otok regulator ore and ore fractions correction unit allocated fractions ECTION p and s m bH bodies and mechanisms s e ίι Affairs and I ore fractions in the storage tanks. 2Q sensors for the mass of extracted ore fractions in storage tanks and the absolute content of the useful ore component, while the output of the useful component concentration determination unit is connected to the first input of the 2g fractions identification unit, the first output of which is connected through the ore flow rate regulator with an adjustable ore feeder to the conveyor, and the second ore - with a division of 40 capacities, rations of ore in storage tanks are connected to the correction unit for the selected fractions, the output of which is connected to the input of the ore fraction identification unit, moreover, the output of the absolute content sensor of the ore ore component is connected to the corresponding input of the useful component concentration determination unit. output through the fraction regulator by the separation mechanisms of ore fractions into the accumulative mass sensors of the selected phoacs. Compose. V. Persia