CN206121909U - Tabling system and separating device thereof - Google Patents

Abstract

The utility model provides a separating device, including chute, a plurality of minutes ore deposit boards and a plurality of minutes ore deposit pipes. The chute enters thick liquid portion and branch ore deposit portion including what connect gradually. It is used for leading -in ore pulp to enter thick liquid portion, a plurality of minutes ore deposit inter -plates distribute with separating in in the portion of branch ore deposit, with right ore pulp in the chute is shunted, each divide ore deposit board through a connecting axle with divide the bottom of ore deposit portion to rotate the connection to the exogenic action of a predetermined big or small within range wind down with the parallel axis direction of connecting axle rotates, and then adjusts divide the flow direction of the ore pulp in the portion of ore deposit, a plurality of minutes ore deposit intertubes install with separating in branch ore deposit portion keeps away from enter one side of thick liquid portion to derive the ore pulp after the reposition of redundant personnel. The utility model provides an adopt this separating device's tabling system. Above -mentioned tabling system and separating device thereof divides the ore deposit even.

Description

A kind of tabling system and its point ore deposit device

【Technical field】

The utility model is related to technical field of beneficiation, and in particular to a kind of tabling system and its point ore deposit device.

【Background technology】

The equipment that workshop tabling flow process is adopted mainly includes bulk flotation mine tailing point ore deposit device, roughing table, chats Scan shaking table and mine tailing scans shaking table.Bulk flotation mine tailing of the prior art point ore deposit device is mostly using a point ore bucket.Producing Cheng Zhong, point ore bucket is big due to flow rate of pulp, easily causes a point ore deposit inequality, and separating effect is poor, affects reselection operation index.

【Utility model content】

For above-mentioned problem, it is necessary to provide a kind of point of ore deposit uniformly point ore deposit device and using this point of ore deposit device Tabling system.

To reach above-mentioned purpose, the technical scheme that the utility model is adopted is：

One kind point ore deposit device, including chute, multiple mine-separating boards and multiple points of pipes, the chute includes that what is be sequentially connected enters Slurry portion and point ore deposit portion, it is described enter slurry portion be used to import ore pulp；The plurality of mine-separating board compartment of terrain is distributed in point ore deposit portion, with Ore pulp in the chute is shunted, each mine-separating board is connected by a connecting shaft with the lower rotation in described point of ore deposit portion, To rotate around the axis direction parallel with the connecting shaft under the external force effect in the range of a predefined size, and then adjust described The ore pulp flow direction divided in ore deposit portion；Multiple points of pipe compartment of terrains be installed in point ore deposit portion away from it is described enter slurry portion side, to lead The ore pulp gone out after shunting.

Further, the cross section of each mine-separating board is in isosceles triangle.

Further, described point of ore deposit portion is in isosceles triangle, and the width in described point of ore deposit portion from away from it is described enter slurry portion Direction becomes larger.

A kind of tabling system, including the first buffering bucket, point ore deposit device, the second buffering bucket, Buffer Pool, chats scan and shake Bed, mine tailing scan shaking table and multigroup roughing table.Described point of ore deposit device includes chute, multiple mine-separating boards and multiple points of pipes.Institute Stating chute includes that what is be sequentially connected enters slurry portion and point ore deposit portion, first buffering bucket with it is described enter slurry portion be connected, to slip to described Ore pulp is imported in groove；The plurality of mine-separating board compartment of terrain is distributed in point ore deposit portion, to carry out to the ore pulp in the chute Shunting；Each mine-separating board is connected by a connecting shaft with the lower rotation in described point of ore deposit portion, with the range of a predefined size Rotate around the axis direction parallel with the connecting shaft under external force effect, and then adjust the ore pulp flow direction in described point of ore deposit portion；It is many Individual point of pipe compartment of terrain be installed in point ore deposit portion away from it is described enter slurry portion side, and respectively with multigroup roughing table company It is logical, the ore pulp after shunting is derived to multigroup roughing table；The mine tailing outlet of each group of roughing table and the buffering The charging aperture connection in pond, the discharging opening of the Buffer Pool is scanned shaking table and is connected with the mine tailing, the chats of each group of roughing table Outlet is connected with the charging aperture of second buffering bucket, and discharging opening and the chats of second buffering bucket scan entering for shaking table Material mouth connect, the chats scan shaking table mine tailing outlet scan shaking table with the mine tailing charging aperture connect.

Further, the cross section of each mine-separating board is in isosceles triangle.

Further, described point of ore deposit portion is in isosceles triangle, and the width in described point of ore deposit portion from away from it is described enter slurry portion Direction becomes larger.

Further, the tabling system includes the second buffering bucket described at least two.

Further, it is equipped with every scalping in first buffering bucket, second buffering bucket and the Buffer Pool.

Due to adopting above-mentioned technical proposal, the utility model to have the advantages that：

1st, of the present utility model point of ore deposit device and the tabling system using this point of ore deposit device, using chute plus mine-separating board Version, enter row buffering to the flow velocity of ore pulp using chute, and the ore pulp in chute is shunted using mine-separating board.By It is connected with point lower rotation in ore deposit portion in mine-separating board, when the ore deposit amount for adjusting each shunt volume is needed, phase can be tapped by gavel The mine-separating board answered so that mine-separating board rotates predetermined angle around the axis direction parallel with the connecting shaft, to adjust the chute Interior ore pulp flow direction, and then control the size of the mine-supplying quantity of each direction of the traffic so that point ore deposit amount of each direction of the traffic is balanced. The regulation process is simple and convenient, can reduce labor intensity, and to improve follow-up roughing table operational indicator convenience is provided.

2nd, tabling system of the present utility model, using plural second buffering bucket the ore deposit of shaking table is scanned to chats Slurry is concentrated, and improves feed ore concentration, stable mine-supplying quantity, beneficial to sorting；Additionally, using every scalping chats is scanned shaking table to Ore deposit is carried out in advance every coarse fraction, it is to avoid coarse fraction ore and debris scan the impact of shaking table flow process to chats, is improved chats and is scanned The rate of recovery of shaking table.

3rd, the utility model simple structure, manufacture installs easy, practical, is conveniently replaceable.

【Description of the drawings】

Fig. 1 is the structural representation of the tabling system of the better embodiment of the utility model one.

Fig. 2 is the schematic top plan view of point ore deposit device of tabling system shown in Fig. 1.

In accompanying drawing, 100- tabling systems, the buffering buckets of 2- first, 3- point of ore deposit device, 32- chutes, 322- enter slurry portion, 324- point ore deposit portions, 34- mine-separating boards, 36- point of pipe, 38- connecting shafts, the pipelines of 42- first, the valves of 44- first, 5- roughing tables, The buffering buckets of 6- second, 61- second pipes, the valves of 63- second, 7- Buffer Pools, the pipelines of 71- the 3rd, the valves of 73- the 3rd, 74- are every thick Sieve, 8- chats scan shaking table, 9- mine tailings and scan shaking table.

【Specific embodiment】

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

It should be noted that when component is referred to as " being fixed on " another component, it can directly on another component Or can also there is component placed in the middle.When a component is considered as " connection " another component, it can be directly connected to To another component or may be simultaneously present component placed in the middle.When a component is considered as " being arranged at " another component, it Can be set directly on another component or may be simultaneously present component placed in the middle.Term as used herein is " vertical ", " level ", "left", "right" and similar statement for illustrative purposes only.

Unless otherwise defined, all of technology used herein and scientific terminology are led with technology of the present utility model is belonged to The implication that the technical staff in domain is generally understood that is identical.It is simply in term used in the description of the present utility model herein The purpose of description specific embodiment, it is not intended that in limiting the utility model.Term as used herein " and/or " include The arbitrary and all of combination of one or more related Listed Items.

Refer to Fig. 1, the utility model embodiment provides a kind of tabling system 100, including the first buffering bucket 2, Point ore deposit device 3, roughing table 5, the second buffering bucket 6, chats scans shaking table 8 and mine tailing scans shaking table 9.

In the present embodiment, the first buffering bucket 2 is in substantially a conical hopper shape, and it is used to concentrate ore pulp, improves to ore deposit Concentration.

Please referring also to Fig. 2, described point of ore deposit device 3 includes chute 32, multiple mine-separating boards 34 and multiple points of pipes 36.It is described Chute 32 includes that what is be sequentially connected enters slurry portion 322 and point ore deposit portion 324.It is described enter slurry portion 322 by one first pipeline 42 with it is described First buffering bucket 2 is connected, to import ore pulp into the chute 32.In the present embodiment, first pipeline 42 is provided with For adjusting the first valve 44 of mineral slurry flux size in the first pipeline 42.Described point of ore deposit portion 324 is substantially in isosceles triangle, and Its width from away from it is described enter slurry portion 322 direction become larger, this kind of structure design can further slow down in point ore deposit portion 324 The flow velocity of ore pulp, it is to avoid ore pulp splashes, beneficial to a point ore deposit.The compartment of terrain of the plurality of mine-separating board 34 is distributed in point ore deposit portion 324, To shunt to the ore pulp in the chute 32.In the present embodiment, the cross section of each mine-separating board 34 is substantially in isosceles Triangle.Each mine-separating board 34 is connected by a connecting shaft 38 with the lower rotation in described point of ore deposit portion 324, with a predefined size In the range of external force effect under rotate around the axis direction parallel with the connecting shaft 38, specially：The connecting shaft 38 is fixed In the bottom in described point of ore deposit portion 324 and vertical with the bottom in described point of ore deposit portion 324, mine-separating board 34 is sheathed in the connecting shaft 38 And can rotate around the connecting shaft 38 in the presence of an external force, and then adjust the ore pulp flow direction in the chute 32.It is described Multiple points of compartment of terrains of pipe 36 be installed in point ore deposit portion 324 away from it is described enter slurry portion 322 side, to by the ore deposit after shunting Slurry is derived.

Tabling system 100 includes multigroup roughing table 5.The charging aperture of multigroup roughing table 5 respectively with it is the plurality of Divide pipe 36 to connect, roughly select for the ore pulp after to shunting from point ore deposit device 3.The chats outlet of each group of roughing table 5 Connect with the charging aperture of second buffering bucket 6.The discharging opening of second buffering bucket 6 by a second pipe 61 with it is described in Ore deposit scans the charging aperture connection of shaking table 8, and the second pipe 61 is provided with for adjusting mineral slurry flux size in second pipe 61 The second valve 63；The mine tailing outlet of each group of roughing table 5 is connected with the charging aperture of the Buffer Pool 7, the Buffer Pool 7 Discharging opening is scanned shaking table 9 and is connected by one the 3rd pipeline 71 with mine tailing, and the 3rd pipeline 71 is provided with for adjusting the 3rd pipe 3rd valve 73 of mineral slurry flux size in road 71.The chats scans the mine tailing outlet of shaking table 8 and scans shaking table 9 with the mine tailing Charging aperture connection.

The ore pulp that prior art generally scans shaking table 8 using 6 pairs of supply chats of second buffering bucket is concentrated, and is improved Feed ore concentration.Because the volume of second buffering bucket 6 is little, concentrated effect is not played, if forcing to allow the second buffering bucket 6 to have Spillway discharge, then can cause in spillway discharge containing more fine fraction metal, cause metal loss.In the present embodiment, will be described The quantity of the second buffering bucket 6 is set to two.The second newly-increased buffering bucket 6 can increase volume, improve concentrated effect, stable to ore deposit Amount, improves the rate of recovery that chats scans shaking table 8.

In the present embodiment, the tabling system 100 is scanned shaking table 8 and roughing table 5 is produced using one group of chats Raw chats is scanned.Using one group of chats scan when shaking table 8 can avoid scanning shaking table 8 using multigroup chats it is caused to Ore deposit stability is poor, the big problem of operation difficulty, improves the operating efficiency that chats scans shaking table 8.

In the present embodiment, in the first buffering bucket 2, the second buffering bucket 6 and Buffer Pool 7 one is additionally provided with every scalping 74. Carried out in advance every coarse fraction to ore deposit using 74 Duis every scalping, it is to avoid the impact of coarse fraction ore and debris to tabling flow process.

When tabling system 100 is used, ore pulp enters a point ore deposit device 3 after the concentration of the first buffering bucket 2.Divide ore deposit dress 3 are put using chute 32 plus the version of mine-separating board 34, using chute 32 row buffering is entered to the flow velocity of ore pulp, and utilize mine-separating board Ore pulp in 34 pairs of chutes 32 is shunted.Because mine-separating board 34 is connected with point lower rotation in ore deposit portion 324, when needs adjust each During the ore deposit amount of shunt volume, corresponding mine-separating board 34 can be tapped by gavel (not shown) so that mine-separating board 34 connects around accordingly Spindle 28 rotates predetermined angle, to adjust the flow direction of the ore pulp in the chute 32, and then controls the mine-supplying quantity of each direction of the traffic Size so that point ore deposit amount of each direction of the traffic is balanced.Ore pulp after shunting is respectively enterd many by a point pipe 36 accordingly Roughly selected in group roughing table 5.The rougher tailings of the output of roughing table 5 is scanned shaking table 9 and is scanned into mine tailing；Roughly select and shake The chats of roughly selecting of 5 outputs of bed then enters into the second buffering bucket 6, is scanned via shaking table 8 is scanned into chats after concentration.Chats The mine tailing for scanning the output of shaking table 8 enters back into mine tailing and scans shaking table 9 and scanned.

Of the present utility model point of ore deposit device 3 and the tabling system 100 using this point of ore deposit device 3, using chute 32 pairs The flow velocity of ore pulp enters row buffering, and the ore pulp flow direction in the chute 32 is adjusted using mine-separating board 34, and then controls each flow The size of the mine-supplying quantity in direction so that point ore deposit amount of each direction of the traffic is balanced, is to improve the follow-up operational indicator of roughing table 5 to carry For convenience.After such scheme, the metal recovery rate of the roughing table 5 of present embodiment shakes compared with roughly selecting for prior art Bed 5 improves 0.715%, and chats scans the metal recovery rate of shaking table 8 and improves 0.95% compared with prior art.

It is appreciated that the quantity of the second buffering bucket 6 is not limited to two of the present embodiment, in other embodiments, can be with According to actual needs the second buffering bucket 6 is set to into two or more.

It is appreciated that the shape of mine-separating board 34 is not limited to present embodiment.In other embodiments, the horizontal stroke of mine-separating board 34 Section can also be antiparallelogram or other polygons.

Described above is to be directed to the detailed description of the preferable possible embodiments of the utility model, but embodiment is not limited to Patent claim of the present utility model, the equal change completed under the technical spirit suggested by all the utility model or modification Change, all should belong to the utility model and cover the scope of the claims.

Claims (8)

1. It is 1. a kind of to divide ore deposit device, it is characterised in that：Including chute, multiple mine-separating boards and multiple points of pipes, the chute include according to Slurry portion and point ore deposit portion are entered in secondary connection, it is described enter slurry portion be used to importing ore pulp；The plurality of mine-separating board compartment of terrain is distributed in described Divide in ore deposit portion, to shunt to the ore pulp in the chute, each mine-separating board is by a connecting shaft and the bottom in described point of ore deposit portion Portion rotates connection, to rotate around the axis direction parallel with the connecting shaft under the external force effect in the range of a predefined size, And then the ore pulp adjusted in described point of ore deposit portion is flowed to；Multiple points of pipe compartment of terrains be installed in point ore deposit portion away from it is described enter slurry portion Side, with derive shunting after ore pulp.
2. 2. ore deposit device is divided as claimed in claim 1, it is characterised in that：The cross section of each mine-separating board is in isosceles triangle.
3. 3. ore deposit device is divided as claimed in claim 1, it is characterised in that：Described point of ore deposit portion is in isosceles triangle, and described point of ore deposit The width in portion from away from it is described enter slurry portion direction become larger.
4. 4. a kind of tabling system, including the first buffering bucket, point ore deposit device, the second buffering bucket, Buffer Pool, chats are scanned and shaken Bed, mine tailing scan shaking table and multigroup roughing table, it is characterised in that：Described point of ore deposit device includes chute, multiple mine-separating boards and many Individual point of pipe, the chute includes that what is be sequentially connected enters slurry portion and point ore deposit portion, first buffering bucket with it is described enter slurry portion be connected, To import ore pulp into the chute；The plurality of mine-separating board compartment of terrain is distributed in point ore deposit portion, with the chute Ore pulp shunted, each mine-separating board is connected by a connecting shaft with the lower rotation in described point of ore deposit portion, with predetermined big one Rotate around the axis direction parallel with the connecting shaft under the external force effect of a small range, and then adjust the ore deposit in described point of ore deposit portion Slurry flow direction；Multiple points of pipe compartment of terrains be installed in point ore deposit portion away from it is described enter slurry portion side, it is and multigroup with described respectively Roughing table is connected, and the ore pulp after shunting is derived to multigroup roughing table；The mine tailing outlet of each group of roughing table Connect with the charging aperture of the Buffer Pool, the discharging opening of the Buffer Pool is scanned shaking table and connected with the mine tailing, each group is roughly selected The chats outlet of shaking table is connected with the charging aperture of second buffering bucket, and discharging opening and the chats of second buffering bucket are swept The charging aperture for selecting shaking table is connected, the chats scan shaking table mine tailing outlet scan shaking table with the mine tailing charging aperture connect.
5. 5. tabling system as claimed in claim 4, it is characterised in that：The cross section of each mine-separating board is in isoceles triangle Shape.
6. 6. tabling system as claimed in claim 4, it is characterised in that：Described point of ore deposit portion is in isosceles triangle, and described The width in point ore deposit portion from away from it is described enter slurry portion direction become larger.
7. 7. tabling system as claimed in claim 4, it is characterised in that：The tabling system includes at least two institutes State the second buffering bucket.
8. 8. tabling system as claimed in claim 4, it is characterised in that：First buffering bucket, second buffering bucket And be equipped with every scalping in the Buffer Pool.