CN108082912A - A kind of ore drawing part flow arrangement - Google Patents

Abstract

The invention discloses a kind of ore drawing part flow arrangements, it includes waste chute, upper platen, lower platen, movable plate movable frame, driving motor, movable plate movable frame is fixed on lower platen one side, upper platen one end is sleeved on movable plate movable frame, the plate face of upper platen is arranged in lower platen, upper platen is slided along perpendicular to the direction of ore deposit stream flowing in lower platen, driving motor is mounted on movable plate movable frame, driving motor is connected with upper platen and drives its slip, and waste chute is arranged below lower platen；The present apparatus, which has to release, shifts to an earlier date mixed small particle in ore（Small lumpiness）Barren rock is effectively separated, and can take into account the small particle in the ore layer of lower part（Small lumpiness）Ore particle is not separated, and the characteristics of do not bring larger operation added difficulty.

Description

A kind of ore drawing part flow arrangement

Technical field

The present invention relates to a kind of ore drawing part flow arrangements, belong to mining machinery technical field.

Background technology

In caved stopes mining, the Ore granular of avalanche is during ore removal, the either avalanche country rock of overlying Granular media or lower part broken ore granular media, there are Natural classification phenomenon, this has been undisputable fact.

According to small particle（Small lumpiness）Arrive first principle, most of small particle in the broken ore granular media layer of lower part（Small lumpiness） Ore particle can be released with larger ratio prior to going out mine mouth, and the ore granular media for the larger lumpiness being still stranded in stope can be upper It covers broken ore and dissipates in vivo most of small particle（Small lumpiness）Rock grain provides better passage lanes, so that it is advanced Mine mouth is reached out in most of larger lumpiness ore to be released, and causes to release the dilution in advance of ore.

Since above-mentioned dilution phenomenon in advance is mainly caused by particle size differences, a kind of ore drawing Field triage device is provided, it is real When small particle that will dynamically release in advance（Small lumpiness）Barren rock is separated from releasing ore-rock, a kind of possible solution of can yet be regarded as The certainly method of problem.

The content of the invention

To achieve the above object, the present invention provides a kind of ore drawing part flow arrangement for being arranged at out mine mouth, including barren rock Chute, upper platen, lower platen, movable plate movable frame, driving motor, movable plate movable frame are fixed on lower platen one side, upper platen One end is sleeved on movable plate movable frame, and the plate face of upper platen is arranged in lower platen, and upper platen is along perpendicular to the flowing of ore deposit stream Direction is slided in lower platen, and driving motor is mounted on movable plate movable frame, and driving motor is connected with upper platen and drives it It slides, waste chute is arranged below lower platen；The present apparatus, which has to release, shifts to an earlier date mixed small particle in ore（Fritter Degree）Barren rock is effectively separated, and can take into account the small particle in the ore layer of lower part（Small lumpiness）Ore particle is not separated, and without The characteristics of carrying out larger operation added difficulty.

The lower platen includes sieve plate, 2 blocks of side plates for being fixed on sieve plate both sides, and every piece of side plate lower end is provided with a hole, appears on the stage Plate is arranged in a hole and is slided along hole.

The movable plate movable frame include slide I, slide II, spoke, screw rod, cross bar, cross bar by slide I, slide II, Spoke is fixed on lower platen one side, and screw rod both ends are separately positioned on cross bar and side plate, and one end connects with driving motor output terminal It connects.

Described upper platen one end is sleeved on slide I, on slide II by side pole, and side pole is equipped with internal thread hole, and screw rod is set It puts in internal thread hole and is matched therewith, the plate face of upper platen is made of entity plate face with the plate face with rectangular opening, driving The movement of motor rotates screw rod, so as to which upper platen be driven to be moved on lower platen.

The waste chute is arranged on by support column below lower platen.

A part of this ore drawing part flow arrangement as vibrating drawing machine is mounted on rock mass polycrystalline substance with vibrating drawing machine In；At ore drawing initial stage, the entity plate face of upper platen is overlapped with the sieve plate of lower platen, in normal vibration ore drawing state, stope Small particle in the ore granular media layer of lower part（Small lumpiness）Ore particle can be released in big lumpiness ore in advance in a large proportion, small when monitoring Grain size（Small lumpiness）Ore particle, which significantly reduces, even to disappear（Under perfect medium state）, small particle（Small lumpiness）Rock grain appears in releasing During mouth, start driving motor, the entity plate face of upper platen is moved on the outside of lower platen, the plate face with rectangular opening, which is located at, leaves office Above the sieve plate of plate, contact directly the sieve plate of ore deposit stream and lower platen, at this point, under the action of exciting force, vibrating drawing machine class It is similar to vibrating screening machine, small particle（Small lumpiness）Rock grain transfers to waste chute by sieve pore and waits to be further processed, big lumpiness Ore is then still released by normal condition from lower platen.

When screening function is started, this is depended on to releasing small particle in ore-rock（Small lumpiness）Ore-rock grain it is effective in real time Monitoring（It can certainly make interval and shut down detection, but ore removal intensity can be influenced）Situation；It can be used according to the difference of ore type Corresponding monitoring means.If iron ore, then the monitoring method based on electromagnetic induction principle can be used, this is typically more reliable Method；What it is due to most of use Caving Method with Large Space is iron ore mine, there is positive effect.

The beneficial effects of the invention are as follows：The present apparatus drives screw rod to drive shifting of the upper platen on lower platen by driving motor It is dynamic, the entity plate face of upper platen can be made to overlap or separate with lower platen, the vibrating drawing formed by them machine table top is allowed to be in Normal vibration ore drawing state or in vibrosieve state；According to the situation of detection, start screening function in due course, so as to put Shift to an earlier date mixed small particle in yield ores（Small lumpiness）Barren rock is effectively separated；The barren rock separated is arranged by waste chute Go out；By ore drawing part flow arrangement, ore removal mouth will be reached in advance and cause " seepage flow " small particle of the releasing advanced dilution of ore（Fritter Degree）Rock is separated, and is undoubtedly for the rate of dilution for reducing entire extracted ore beneficial.

Description of the drawings

Fig. 1 is schematic structural view of the invention；

Fig. 2 is leave from office plate structure schematic diagram；

Fig. 3 is movable plate movable frame structure diagram；

Fig. 4 is plate structure schematic diagram of appearing on the stage；

Fig. 5 is the structure diagram that the present invention is in normal vibration ore drawing state；

Fig. 6 is the structure diagram when present invention starts screening function；

Fig. 7 is waste chute structure diagram；

In figure：1- rock mass polycrystalline substances；2- waste chutes；3- upper platens；4- lower platens；5- movable plate movable frames；6- movable plates drive Dynamic motor；7- support columns；8- slides I；9- slides II；10- spokes；11- screw rods；12- cross bars；13- smooth holes I；14- smooth holes Ⅱ；15- rectangular openings；16- side poles；17- internal thread holes；18- side plates；19- hole；20- sieve plates；21- slot side plates；22- trough floors； 23- slot end plates.

Specific embodiment

The present invention is described in further detail below by embodiment, but protection scope of the present invention be not limited to it is described Content.

Embodiment 1：As shown in figs. 1-7, ore drawing part flow arrangement includes waste chute 2, upper platen 3, lower platen 4, movable plate work Dynamic frame 5, driving motor 6, lower platen 4 include sieve plate 20,2 blocks of side plates 18 for being fixed on sieve plate both sides, every piece of 18 lower end of side plate A hole 19 is provided with, upper platen 3 is arranged in a hole 19 and is slided along hole；Movable plate movable frame 5 include slide I 8, slide II 9, Spoke 10, screw rod 11, cross bar 12, cross bar 12 are fixed on 4 one side of lower platen, screw rod 11 by slide I 8, slide II 9, spoke 10 Both ends are separately positioned on cross bar 12 and side plate 18, and driving motor 6 is mounted on movable plate movable frame 5；3 one end of upper platen passes through Smooth hole I 13, smooth hole II 14 in side pole 16 are sleeved on slide I 8, on slide II 9, and side pole 16 is equipped with internal thread hole 17, Screw rod 11 is arranged in internal thread hole 17 and is matched therewith, and 11 one end of screw rod is connected with 6 output terminal of driving motor, driving motor Driving upper platen is slided along hole 19, glide direction perpendicular to the direction that ore deposit stream flow, the plate face of upper platen 3 by entity plate face with Plate face with rectangular opening 15 is formed；The plate face of upper platen 3 is arranged on lower platen 4, and waste chute 2 is set by support column 7 Below lower platen 4, waste chute 2 is made of slot side plate 21, trough floor 22, slot end plate 23；

Waste chute is fixed on rock mass polycrystalline substance 1 by support column 7 and positioned at 4 lower section of lower platen；The sieve plate 20 of lower platen 4 sieves The barren rock divided down is discharged by it；

A part of this ore drawing part flow arrangement as vibrating drawing machine is mounted on vibrating drawing machine in rock mass polycrystalline substance 1； Ore drawing initial stage, the entity plate face of upper platen 3 are overlapped with the sieve plate 20 of lower platen 4, in normal vibration ore drawing state, stope under Small particle in portion's ore granular media layer（Small lumpiness）Ore particle can be released in big lumpiness ore in advance in a large proportion, when monitoring granule Footpath（Small lumpiness）Ore particle, which significantly reduces, even to disappear（Under perfect medium state）, small particle（Small lumpiness）Rock grain appears in discharge port When, start driving motor 6, the entity plate face of upper platen 3 is removed into ore deposit stream table top, the plate face with rectangular opening 15 is located at sieve plate 20 Top contacts directly ore deposit stream and the sieve plate 20 of lower platen 4, at this point, under the action of exciting force, vibrating drawing machine, which is similar to, to shake Dynamic screening machine, small particle（Small lumpiness）Rock grain is transferred in the waste chute below lower platen by sieve pore and waits to be further processed, The ore of big lumpiness is then still released by normal condition from lower platen.

Claims (5)

1. a kind of ore drawing part flow arrangement, it is characterised in that：Including waste chute（2）, upper platen（3）, lower platen（4）, movable plate live Dynamic frame（5）, driving motor（6）, movable plate movable frame（5）It is fixed on lower platen（4）One side, upper platen（3）One end is sleeved on Movable plate movable frame（5）On, upper platen（3）Plate face be arranged on lower platen（4）It is interior, upper platen（3）It is flowed along perpendicular to ore deposit stream Direction in lower platen（4）Interior slip, driving motor（6）Mounted on movable plate movable frame（5）On, driving motor connects with upper platen It connects and drives its slip, waste chute（2）It is arranged on lower platen（4）Lower section.

2. ore drawing part flow arrangement according to claim 1, it is characterised in that：Lower platen（4）Including sieve plate（20）, it is fixed 2 blocks of side plates in sieve plate both sides（18）, every block of side plate（18）Lower end is provided with a hole（19）, upper platen（3）It is arranged on a hole（19） It slides in interior and edge hole.

3. ore drawing part flow arrangement according to claim 1, it is characterised in that：Movable plate movable frame（5）Including slide I（8）、 Slide II（9）, spoke（10）, screw rod（11）, cross bar（12）, cross bar（12）Pass through slide I（8）, slide II（9）, spoke（10） It is fixed on lower platen（4）One side, screw rod（11）Both ends are separately positioned on cross bar（12）And side plate（18）On, and one end and driving electricity Machine（6）Output terminal connects.

4. ore drawing part flow arrangement according to claim 3, it is characterised in that：Upper platen（3）One end passes through side pole（16）Set Mounted in slide I（8）, slide II（9）On, side pole（16）It is equipped with internal thread hole（17）, screw rod（11）It is arranged on internal thread hole （17）In and be matched therewith, upper platen（3）Plate face be made of entity plate face with the plate face with rectangular opening.

5. ore drawing part flow arrangement according to claim 1, it is characterised in that：Waste chute（2）Pass through support column（7）It sets In lower platen（4）Lower section.