CN206720364U - A kind of mine-separating box structure - Google Patents

Abstract

The utility model discloses a kind of mine-separating box structure, the mine-separating box set including a form in rectangular configuration and upper end open, the mine-separating box upper end open is used to feed, the mine-separating box bottom is provided with discharging opening, it is characterized in that, weir divider is also vertically provided with inside the mine-separating box, the height of the weir divider is less than the height of the mine-separating box, the mine-separating box inner chamber is divided into charging chamber and discharge chamber by the weir divider, the bottom surface of the charging chamber is equipped with liner plate, and the discharging opening is arranged on the discharge chamber bottom.The utility model can preferably reduce flow rate of pulp, reduce abrasion of the ore pulp to mine-separating box inwall, preferably the advantages of the service life of extension mine-separating box.

Description

A kind of mine-separating box structure

Technical field

It the utility model is related to a point ore deposit equipment technical field；More particularly to a kind of mine-separating box structure.

Background technology

Point ore deposit device is a kind of a kind of part flow arrangement that the ore pulp for entering mine-separating box is assigned to each outlet, is mainly used in Mine field, it is a necessaries of beneficiation flowsheet link, is mainly used in distributing the ore pulp in epimere process to hypomere and sets It is standby.

A kind of ore pulp disclosed in the A of China patent CN 106348042 divides ore deposit conveying equipment, it is characterised in that including： The top of the mine-separating box is provided with charging aperture, and the first discharging opening and the second discharging opening are provided with the bottom of the mine-separating box； Turnover panel in the mine-separating box is arranged on by rotating shaft, can be rotated between the first operating position and the second operating position；With In the drive device for driving the turnover panel；When the turnover panel goes to first operating position, the turnover panel can stop from The ore pulp that the charging aperture enters is flowed out by second discharging opening, and is forced through the first discharging opening outflow；When When the turnover panel goes to second operating position, the turnover panel stops that the ore pulp entered from the charging aperture passes through described first Discharging opening flows out, and is forced through the second discharging opening outflow.

Above-mentioned ore pulp divides ore deposit conveying equipment, can realize the shunting to ore pulp, but still have following defect：1st, Fen Kuang Upper box part is provided with charging aperture, and the mortar speed entered from top is fast, and the body side and discharging opening of mine-separating box can be formed Impact, and a large amount of solid particulate matters are carried in ore pulp, the body side and discharging opening of mine-separating box can be worn, shortened The service life of mine-separating box.2nd, it is very fast into the flow rate of pulp of mine-separating box, it can make it that the flow rate of pulp that discharging opening flows out is uneven, shadow Ring the progress of subsequent handling.

In order to solve the above problems, applicant considers that design one kind divides ore deposit device, including a form in rectangular configuration and The mine-separating box that upper end open is set, the mine-separating box upper end open simultaneously are used to feed, are provided with and communicated with least on the mine-separating box Two discharging openings for confessing material, the mine-separating box are internally provided with the ore removal buffer container of rectangular body structure type, it is described go out The number of ore deposit buffer container is consistent with the number of the discharging opening, and the volume of the ore removal buffer container is less than the mine-separating box Volume, a vertical lateral surface of the ore removal buffer container are bonded with a vertical medial surface of the mine-separating box, it is described go out A charging hole for confessing the charging of ore deposit buffer container is provided with ore deposit buffer container, described discharging opening one end passes through the mine-separating box And ore removal buffer container vertical side and extend to inside ore removal buffer container, the other end is located at outside the mine-separating box.

So, said apparatus is internally provided with ore removal buffer unit in mine-separating box, can slow down the rate of outflow of ore pulp, subtract The advantages of slow ore pulp splashes, and service life is long, and manufacture and easy to use.

But wherein, ore pulp from mine-separating box upper end open flow into inside mine-separating box when, the bottom surface of mine-separating box can be produced compared with Big impact, it can splash outside mine-separating box, and flow rate of pulp is fast, can pour in suddenly in ore removal buffer unit, increases ore deposit The rate of outflow of slurry, impact and abrasion are produced to ore removal buffer unit and mine-separating box inwall, reduce the service life of mine-separating box.

Therefore a kind of simple structure how is designed, preferably slow down the flowing velocity of ore pulp, reduce ore pulp to mine-separating box bottom The impact and abrasion of wall and madial wall, extend the service life of mine-separating box, turn into designer and need further to consider solution Certainly the problem of.

Utility model content

For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is：How a kind of energy is provided It is enough preferably to reduce flow rate of pulp, reduce impact and abrasion of the ore pulp to mine-separating box inwall, the mine-separating box knot of service life length Structure.

In order to solve the above-mentioned technical problem, the utility model employs following technical scheme：

A kind of mine-separating box structure, including the mine-separating box that a form in rectangular configuration and upper end open are set, it is described to divide ore deposit Case upper end open is used to feed, and the mine-separating box bottom is provided with discharging opening, it is characterised in that also vertical inside the mine-separating box Weir divider is provided with, the height of the weir divider is less than the height of the mine-separating box, and the weir divider divides ore deposit by described Box cavity is divided into charging chamber and discharge chamber, and the bottom surface of the charging chamber is equipped with liner plate, and the discharging opening is set In the discharge chamber bottom.

In the technical program, mine-separating box structure includes the mine-separating box of a rectangular body structure type, compared to general circle For the mine-separating box of tubular construction form, there is the advantages of easily manufactured quick.Mine-separating box upper opening is used to feed, mine-separating box On be additionally provided with least two discharging openings, it is possible to achieve the effect that is shunted of ore pulp to entering mine-separating box.In mine-separating box Weir divider is provided with, mine-separating box inner chamber is divided into charging chamber and discharge chamber, ore pulp enters charging chamber, then fed After ore pulp piles with chamber, discharge chamber is flowed into through weir divider.The flow velocity of ore pulp can be caused more by being provided with weir divider It is stable, impact of the ore pulp to discharge chamber inwall is preferably reduced, preferably extends the service life of whole device.In feed cavity Room bottom surface is equipped with liner plate, for protecting the bottom wall of charging chamber so that feed the bottom wall of chamber from ore pulp impact with And abrasion, it can cause whole device that there is preferable wearability, extend the service life of whole device.

As optimization, the volume of the charging chamber is more than the volume of the discharge chamber.

So, the volume for feeding chamber is more than the volume of discharge chamber so that charging chamber stockpiles ore pulp more, adds later Ore pulp be directly impinging on the ore pulp in feed cavity room, reduce splashing everywhere for ore pulp.Discharge chamber can also be ensured simultaneously Flow speed stability.

As optimization, two pieces of parallel and spaced risers are additionally provided with the feed cavity room, the two of the riser End is respectively fixedly connected with the vertical side on the vertical side of the weir divider and the mine-separating box with the weir divider On the vertical madial wall being oppositely arranged, the riser upper end is less than the weir divider upper end, and two risers overflow with described Flow the vertical side of dividing plate and the vertical madial wall of the mine-separating box surrounds the feed zone for supplying charging jointly.

So, two pieces of risers are provided with and are surrounded jointly with the vertical medial surface of the vertical side of weir divider and mine-separating box Feed zone, the ore pulp that enter mine-separating box are introduced into feed zone, and the volume of feed zone is less than the volume of charging chamber, and on riser End is less than the upper end of weir divider, so ore pulp is completely rear first from riser overflow to the region of feed zone both sides in feed zone so that Ore pulp all first is filled in charging chamber, after the ore pulp in feed cavity room exceedes weir divider, then through weir divider overflow extremely In discharge chamber, the flowing velocity of ore pulp so can be preferably reduced, reduces splashing for ore pulp.Ore pulp pair can be reduced simultaneously The region of feed zone both sides and the impact and abrasion of ore removal chamber, preferably extend the service life of whole device.

As optimization, the feed zone is arranged at the centre position of the charging chamber.

So, feed zone is arranged on the centre position of charging chamber, and the ore pulp being added in feed zone occurs splashing phenomenon When can splash inside the regions of feed zone both sides, reduce the waste of ore pulp, be also convenient for cleaning of the later stage to device periphery.

As optimization, the riser bottom of the feed zone is provided through first through hole, the ore pulp warp in the feed zone First through hole is flowed out in the charging chamber；The charging chamber and the vertical side lower of discharge chamber are provided through Second through hole, drainage conduit is provided with and communicated with second through hole, the one end of the drainage conduit away from the second through hole is provided with Valve, during working condition, valve is closed.

So, first through hole is provided with the riser bottom of feed zone, under the vertical side for feeding chamber and discharge chamber Portion is provided through the second through hole, and when stopping discharging or needing maintenance, the ore pulp in feed zone flows respectively through first through hole To charging chamber, the ore pulp fed in chamber and discharge chamber can discharge through the second through hole, convenient maintenance.During working condition, no Need to discharge the ore pulp inside mine-separating box, so being provided with valve in drainage conduit, valve is constantly in closed mode, when need When ore pulp is discharged, valve is opened.

As optimization, the mine-separating box, weir divider and riser are made using wear-resisting steel plate.

So, wear-resisting steel plate has the advantages of hardness is high, and wearability is good, and mine-separating box, weir divider and riser use Wear-resisting steel plate is made, and can preferably bear the impact and abrasion of ore pulp.

As optimization, underflow pipe is provided with the discharging opening, underflow pipe is glass-ceramic tubre.

So, glass-ceramic tubre has preferable corrosion-resistant, anti-wear performance, and discharging opening is arranged into glass-ceramic tubre, can be more preferable Extend the service life of discharging opening.

As optimization, the discharge outlet is fixedly connected with sleeve pipe, and the underflow pipe is removably mounted on described sleeve pipe Cavity in.

So, underflow pipe is detachably mounted on ore removal case by sleeve, can only more after underflow pipe abrasion Refoot flow tube, the problem of avoiding caused by being welded direct to due to underflow pipe on ore removal case dismounting inconvenient, facilitate maintenance and inspection with And change.

In summary, the utility model can preferably reduce flow rate of pulp, reduce ore pulp to mine-separating box bottom wall and interior The advantages of service life of the abrasion of side wall, preferably extension mine-separating box.

Brief description of the drawings

Fig. 1 is a kind of structural representation for point ore deposit device for employing the utility model structure.

Embodiment

The utility model is made into one with reference to a kind of point ore deposit device for employing the utility model structure and its accompanying drawing The detailed description of step.

During specific implementation：As shown in figure 1, one kind divides ore deposit device, including a form in rectangular configuration and upper end open are set The mine-separating box 1 put, the upper end open of mine-separating box 1 are used to feed, and the bottom of mine-separating box 1 is provided with discharging opening, and discharging opening is extremely Rare two and underflow pipe 11 is outwards each connected with, the mine-separating box 1 is internally provided with rectangular body structure type Ore removal buffer container 2, the number of the ore removal buffer container 2 is consistent with the number of the underflow pipe 11, and the ore removal buffering is held The volume of device 2 is less than the volume of the mine-separating box 1, is provided with one on the ore removal buffer container 2 and confesses ore deposit buffer container and The charging hole 21 of material, the discharging opening of mine-separating box 1 are arranged on ore removal buffer container 2, and underflow pipe 11 is inner to pass through the side wall of mine-separating box 1 Connected with discharging opening.

So, ore deposit device is divided to include the mine-separating box of a rectangular body structure type, compared to general columnar structured shape For the mine-separating box of formula, there is the advantages of easily manufactured quick.Mine-separating box upper opening is used to feed, and is additionally provided with mine-separating box At least two discharging openings, discharging opening are outwards connected with underflow pipe, it is possible to achieve the ore pulp for entering mine-separating box is shunted Effect.Mine-separating box is internally provided with ore removal buffer container, and ore removal buffer container volume is less than mine-separating box volume, underflow pipe one end Through the vertical side of mine-separating box and ore removal buffer container and extend to inside ore removal buffer container, into the ore pulp of mine-separating box Ore removal buffer container can be introduced into, then is flowed out through underflow pipe, it is possible to reduce ore pulp is to underflow tube end and underflow pipe and Fen Kuang The impact and abrasion of the junction of case, extend the service life of underflow pipe and mine-separating box.Ore pulp into mine-separating box first flows Enter ore removal buffer container to flow out again, can make it that the flow rate of pulp of outflow is slower, it is more stable.

In present embodiment, a vertical lateral surface of ore removal buffer container 2 pastes with one of mine-separating box 1 vertical medial surface Close, a charging hole for confessing the charging of ore deposit buffer container 2 is provided with ore removal buffer container 2, described one end of underflow pipe 11 passes through The vertical side of the mine-separating box 1 and ore removal buffer container 2 is simultaneously extended to inside ore removal buffer container 2, and the other end, which is located at, to be divided Outside ore deposit case 1.The installation and fixation of ore removal buffer container can so be facilitated, the shock resistance for improving ore removal buffer container itself is steady It is qualitative.

In this specific embodiment, weir divider 3, the height of the weir divider 3 are vertically provided with inside the mine-separating box 1 Degree is less than the height of the mine-separating box 1, and the inner chamber of mine-separating box 1 is divided into charging chamber and discharging chamber by the weir divider 3 Room, the bottom surface of the charging chamber are equipped with liner plate 4, and the ore removal buffer container 2 is arranged in the discharge chamber.

So, weir divider is provided with, mine-separating box inner chamber is divided into charging chamber and discharge chamber, ore removal buffer container It is arranged in discharge chamber, ore pulp enters charging chamber, after then ore pulp piles with feed cavity room, flows into and discharges through weir divider Chamber.Being provided with overflow plate can make it that the flow velocity of ore pulp is more stable, preferably reduce ore pulp to ore removal buffer container, underflow The impact of pipe and discharge chamber inwall, preferably extend the service life of whole device.It is equipped with charging chamber bottom surface Liner plate, for protecting the bottom wall of charging chamber so that feed impact and abrasion of the bottom wall from ore pulp of chamber, have preferable Wearability, the service life of whole device can be extended.Certainly when it is implemented, the weir divider may be configured as overflow grid Plate, spout hole is provided through on overflow screen；Liner plate can be all laid on the mine-separating box bottom wall, also belongs to above-mentioned point of ore deposit The enforceable scope of device.

In this specific embodiment, the volume of the charging chamber is more than the volume of the discharge chamber.

So, the volume for feeding chamber is more than the volume of discharge chamber so that charging chamber stockpiles ore pulp more, adds later Ore pulp be directly impinging on the ore pulp in feed cavity room, reduce splashing everywhere for ore pulp.Discharge chamber can also be ensured simultaneously Flow speed stability.Certainly when it is implemented, the volume of the charging chamber is consistent with the volume of discharge chamber, also belong to above-mentioned Divide the enforceable scope of ore deposit device.

In this specific embodiment, two pieces of parallel and spaced risers 5 are additionally provided with the feed cavity room, it is described The both ends of riser 5 are respectively fixedly connected with the vertical side of the weir divider 3 and the mine-separating box 1 and the weir divider On the vertical madial wall that 3 vertical side is oppositely arranged, the upper end of riser 5 is less than the upper end of weir divider 3, described in two Riser 5 surrounds the charging for charging with the vertical side of the weir divider 3 and the vertical madial wall of the mine-separating box 1 jointly Area.

So, two pieces of risers are provided with and are surrounded jointly with the vertical medial surface of the vertical side of weir divider and mine-separating box Feed zone, the ore pulp that enter mine-separating box are introduced into feed zone, and the volume of feed zone is less than the volume of charging chamber, and on riser End is less than the upper end of weir divider, so ore pulp is completely rear first from riser overflow to the region of feed zone both sides in feed zone so that Ore pulp all first is filled in charging chamber, after the ore pulp in feed cavity room exceedes weir divider, then through weir divider overflow extremely In discharge chamber, the flowing velocity of ore pulp so can be preferably reduced, reduces splashing for ore pulp.Ore pulp pair can be reduced simultaneously The region of feed zone both sides and the impact and abrasion of ore removal chamber, preferably extend the service life of whole device.Certainly tool When body is implemented, in the feed cavity room can a vertically arranged riser, charging chamber is divided into two parts, also belonged to State point enforceable scope of ore deposit device.

In this specific embodiment, the feed zone is arranged at the centre position of the charging chamber.

So, feed zone is arranged on the centre position of charging chamber, and the ore pulp being added in feed zone occurs splashing phenomenon When can splash inside the regions of feed zone both sides, reduce the waste of ore pulp, be also convenient for cleaning of the later stage to device periphery.When So when it is implemented, the optional position that the feed zone may be provided in feed cavity room, belonging to above-mentioned point of ore deposit device can implement Scope.

In this specific embodiment, the vertical side of the bottom of riser 5 of the feed zone and the ore removal buffer container 2 Bottom is provided with first through hole 6, and the ore pulp in the feed zone and the ore removal buffer container 2 is respectively through first through hole 6 Flow out in the charging chamber and discharge chamber；The charging chamber and the vertical side lower of discharge chamber are through setting There is the second through hole 7, drainage conduit is provided with and communicated with second through hole 7, the one end of the drainage conduit away from the second through hole 7 is set It is equipped with valve, during working condition, valve is closed.

So, it is logical to be provided with first for the vertical side lower in the riser bottom of feed zone and ore removal buffer container Hole, the vertical side lower for feeding chamber and discharge chamber are provided through the second through hole, stop discharging or need to overhaul When, the ore pulp in feed zone and ore removal buffer container flows to charging chamber and discharge chamber, feed cavity through first through hole respectively Ore pulp in room and discharge chamber can discharge through first through hole, convenient maintenance.During working condition, it is not necessary to inside mine-separating box Ore pulp is discharged, so being provided with valve in drainage conduit, valve is constantly in closed mode, will when needing to discharge ore pulp Valve is opened.Certainly when it is implemented, can extend to drainage conduit one end in feed zone through charging chamber vertical side walls, The second through hole is set in the both sides of charging chamber, also belongs to the above-mentioned point of enforceable scope of ore deposit device.

In this specific embodiment, the mine-separating box 1, ore removal buffer container 2, weir divider 3 and riser 5 are using resistance to Mill steel plate is made.

So, wear-resisting steel plate has the advantages of hardness is high, and wearability is good, mine-separating box, ore removal buffer container, weir divider with And riser is made using wear-resisting steel plate, the impact and abrasion of ore pulp can be preferably born.Certainly when it is implemented, described Mine-separating box, ore removal buffer container, weir divider and riser can be made using general steel plate, be held in mine-separating box, ore removal buffering The surface that device, weir divider and riser contact with ore pulp sets wearing layer, also belongs to the above-mentioned point of enforceable model of ore deposit device Enclose.

In this specific embodiment, the underflow pipe 11 is glass-ceramic tubre.

So, glass-ceramic tubre has preferable corrosion-resistant, anti-wear performance, and underflow pipe is arranged into glass-ceramic tubre, can be more preferable Extend the service life of underflow pipe.Certainly when it is implemented, the optional high chromium alloy material of the underflow pipe is made, also belong to The above-mentioned point of enforceable scope of ore deposit device.

In other embodiments, the discharge outlet is fixedly connected with sleeve pipe, and the underflow pipe 11 is removably installed In the cavity of described sleeve pipe.

So, underflow pipe is detachably mounted on ore removal case by sleeve, can only more after underflow pipe abrasion Refoot flow tube, the problem of avoiding caused by being welded direct to due to underflow pipe on ore removal case dismounting inconvenient, facilitate maintenance and inspection with And change.

In this specific embodiment, ore deposit device is divided also to include the centrum valve in inverted pyramidal structures form（Centrum valve does not exist Drawn in accompanying drawing）, the centrum valve upper end be vertically fixedly connected with one be used for grip montant, be hinged in the middle part of montant and be arranged on On the installation journal stirrup of the inwall of mine-separating box 1, promote montant upper end that the Cone valve lower end can be driven to be inserted into the discharge opening 21 In to block discharge opening 21.

So, the centrum valve for discharge opening to be blocked is provided with, centrum valve upper end is vertically provided with one and is used to grip Montant, discharge opening can be blocked by centrum valve lower end being inserted into discharge opening during use, and dividing ore deposit device, just stopping is handled, and is used It is convenient and swift.Certainly when it is implemented, the centrum valve may be configured as ore pulp plug, ore pulp plug is filled in into discharge opening i.e. during use Can, also belong to the above-mentioned point of enforceable scope of ore deposit device.

Claims (8)

1. a kind of mine-separating box structure, including the mine-separating box that a form in rectangular configuration and upper end open are set（1）, it is described to divide ore deposit Case（1）Upper end open is used to feed, the mine-separating box（1）Bottom is provided with discharging opening, it is characterised in that the mine-separating box（1） Inside is also vertically provided with weir divider（3）, the weir divider（3）Height be less than the mine-separating box（1）Height, it is described Weir divider（3）By the mine-separating box（1）Inner chamber is divided into charging chamber and discharge chamber, the bottom surface paving of the charging chamber Provided with liner plate（4）, the discharging opening is arranged on the discharge chamber bottom.

2. mine-separating box structure as claimed in claim 1, it is characterised in that the volume of the charging chamber is more than the discharging chamber The volume of room.

3. mine-separating box structure as claimed in claim 2, it is characterised in that be additionally provided with the feed cavity room two pieces it is parallel and Spaced riser（5）, the riser（5）Both ends be respectively fixedly connected with the weir divider（3）Vertical side and The mine-separating box（1）On the vertical madial wall that the upper vertical side with the weir divider is oppositely arranged, the riser（5）Upper end Less than the weir divider（3）Upper end, two risers（5）With the weir divider（3）Vertical side and described divide ore deposit Case（1）Vertical madial wall surround jointly for charging feed zone.

4. mine-separating box structure as claimed in claim 3, it is characterised in that the feed zone is arranged in the charging chamber Between position.

5. mine-separating box structure as claimed in claim 4, it is characterised in that the riser of the feed zone（5）Bottom is through setting There is first through hole（6）, the ore pulp in the feed zone is through first through hole（6）Flow out in the charging chamber；The feed cavity The vertical side lower of room and discharge chamber is provided through the second through hole（7）, second through hole（7）On connection set There is drainage conduit, the drainage conduit is away from the second through hole（7）One end be provided with valve, during working condition, valve, which is in, closes shape State.

6. mine-separating box structure as claimed in claim 5, it is characterised in that the mine-separating box（1）, weir divider（3）It is and perpendicular Plate（5）It is made using wear-resisting steel plate.

7. mine-separating box structure as claimed in claim 1, it is characterised in that be provided with underflow pipe on the discharging opening（11）, bottom Flow tube（11）For glass-ceramic tubre.

8. mine-separating box structure as claimed in claim 7, it is characterised in that the discharge outlet fixed connecting sleeve, the bottom Flow tube（11）It is removably mounted in the cavity of described sleeve pipe.