CN109137819A - A kind of Tailings Dam movable type cyclone classification is built a dam system and implementation method - Google Patents

Abstract

It builds a dam system and implementation method the invention discloses a kind of Tailings Dam movable type cyclone classification, including tailing agitation and dilution module, high-order water supply module, tailing power transmission module, control cabinet for power distribution, charging mine rubber hose, overflow mine rubber hose and mobile rotational flow station module；If raw ore concentration is greater than 45%, original debris is delivered to tailing agitation and dilution module；If original debris concentration is less than or equal to 45%, original debris is not required to dilute；If topography is uniform around Tailings Dam, high head gravity flow condition is not present, then tailing is delivered to via charging mine rubber hose by mobile rotational flow station module using tailing power transmission module, electric power needed for tailing power transmission module and control are provided by control cabinet for power distribution；If topography is higher around Tailings Dam, by Tailings transportation a to high position, static pressure self-flowing pastefill mode is then taken to be delivered to mobile rotational flow station module via charging mine rubber hose.It can be realized and coordinate the functions such as with slurry, balance conveying, accident is anti-overflow, machine-walking, mobile ramming and shoveling roll, effectively widen the technology in the scope of application in tailing dam damming works field.

Description

A kind of Tailings Dam movable type cyclone classification is built a dam system and implementation method

Technical field

It builds a dam system the present invention relates to a kind of tailing dam construction technology more particularly to a kind of Tailings Dam movable type cyclone classification With implementation method.

Background technique

Tailing dam be Tailings Dam be used to block tailing and water go along with sb. to guard him structures, be generally made of initial dam and late dam. The damming method of late dam of tailing pond, which can be divided into tailing waterpower alluviation, builds a dam and builds a dam two kinds with barren rock, and domestic majority Tailings Dams are general All built a dam using tailing waterpower alluviation；If Tailings Dam is closer apart from stope, waste mining rock also can be used and build a dam.At present in engineering The Tailing dam construction method of use mainly has: it is several that alluviation method, pond fill out method, gool method, classification upper reaches method and classification downstream method etc., Middle classification upper reaches method is a kind of damming method suitable for fine tailings, and dam rate and enhancing heap dam arris on coarse grain tailing can be improved The stability of body, it is relatively conventional in tailing dam damming works, as Yichun deer ring molybdenum tailing library, Inner Mongol Ebony Hill Tailings Dam with And middle areas in Shandong Province imperial carriage spring Tailings Dam etc..

It is classified the general technology process of upper reaches method are as follows: raw ore conveying-cyclone classification-underflow discharge-tailings deposit-is repaired It is made into dam.When being built a dam using classification upper reaches method, hydrocyclone is placed in Tailings Dam, the whole tilt angle to be greater than 15 ° Rack-mount, sand settling mouth reserves certain altitude apart from beach face；It is attached that underflow tailing piling height to be discharged reaches sand settling mouth When close, cyclone is lifted up by the way of manpower or mechanical lifting with bracket, continues thereafter with discharge underflow tailing；It repeats Above procedure after the underflow tailing " cone " of deposition reach a certain height, then passes through manpower or machinery for cyclone and its branch Frame direction translational thrust into library, continues thereafter with ore discharge, with the continuous accumulation of underflow tailing, forms dam body after final finishing.

From the process above as can be seen that classification upper reaches method build a dam be primarily adapted for use in raw ore concentration it is lower (according to engineering experience, Weight concentration≤45%) situation.If raw ore concentration is higher, the grading effect of hydrocyclone can be deteriorated, this time stage upstream Method will be no longer applicable in.In addition, hydrocyclone needs frequently to move during building a dam.If the mode of manpower transport is taken to move Dynamic, then cyclone size/weight should not be too large, lower so as to cause efficiency of building a dam；If taking mechanical lifting mode to move, eddy flow Although device size and weight can be promoted suitably, lifting machinery length of boom is limited, and the distance of moving of cyclone is restricted, Therefore, classification upper reaches method apply more original ore size is thin, concentration is low, damming works amount is small and whole dam width be no more than 20m tail In mine dam damming works.

The related key technical being related to；

Hydrocyclone:

Hydrocyclone is the equipment being classified in rotary current using centrifugal intertia force, since structure is simple, processing Ability is big, technological effect is good, therefore is widely used in classification, concentration, is dehydrated down to sorting operation.

The hydroclone classification of tailing:

With certain feed ore concentration and inlet pressure by Tailings transportation into hydrocyclone, pass through the centrifugation of cyclone point Grade, the overflow tailing that concentration is low, particle is thin are discharged through overflow port, and the underflow tailing that concentration is high, particle is thick is flowed out from sand settling mouth.

The prior art one:

Manpower transport's mode is taken to move hydrocyclone.

The shortcomings that prior art one:

Cyclone size (weight) should not be too large, and efficiency of building a dam is lower.If the number of carrying considers according to 2 people, maximum is carried Weight is assumed to 150kg, then selected cyclone diameter is no more than 200mm；It is calculated according to construction experience, the rotation of 200mm diameter The rate maximum of building a dam of stream device is no more than 10m³/h；To complete 10000m in 100d³Damming works amount at least needs 10 Cyclone can be competent at；Cyclone quantity excessively not only results in inlet pressure shakiness, influences cyclone classification effect, can also be to existing The construction organization of field brings certain difficulty, influences construction efficiency of building a dam.

The prior art two:

Mechanical lifting mode is taken to move cyclone.

The shortcomings that prior art two:

Although cyclone size and weight can be promoted suitably, maximum is built a dam restricted width.From economy and technical standpoint Consider, is suitable for that cyclone is moved using the promotion of moveable lifting machinery；Since the library beach Nei Ruan bearing capacity is lower, lifting machinery is only It can be lifted by crane in original tailing dam dam crest, and length of boom is limited, then cyclone moves distance and will be restricted；Therefore, it adopts This method is taken to build a dam, the maximum width of dam body is usually no more than 20m, limits the scope of application of classification upper reaches method；In addition, if adopting It is built a dam with more cyclones, then needs more lifting machinery cooperations that can construct, cause the increase of construction cost.

Summary of the invention

It builds a dam system and implementation method the object of the present invention is to provide a kind of Tailings Dam movable type cyclone classification.

The purpose of the present invention is what is be achieved through the following technical solutions:

Tailings Dam movable type cyclone classification of the invention is built a dam system, including tailing agitation and dilution module, high-order water supply mould Block, tailing power transmission module, control cabinet for power distribution, charging mine rubber hose, overflow mine rubber hose and mobile eddy flow It stands module；

The movable type rotational flow station module includes crawler scraper, cyclone unit, overflow port and feed inlet, the rotation Stream device unit is fixed on the crawler scraper top by bracket, and the overflow port and feed inlet are installed in described Crawler scraper tail portion；

The outlet end of the overflow port and the overflow mine rubber hose, the arrival end of the feed inlet and the charging The outlet end of mine rubber hose connects；

The input end of the charging mine rubber hose is connect with the outlet end of the tailing power transmission module, the tail The outlet end of the input end of mine power transmission module and the high-order water supply module connects with the tailing agitation and dilution module respectively It connects.

Above-mentioned Tailings Dam movable type cyclone classification of the invention system of building a dam implements the method built a dam of classification, comprising:

If raw ore concentration is greater than 45%, original debris is delivered to tailing agitation and dilution module, tailing agitation and dilution module Required water is provided by high-order water supply module, and required electric power and control are provided by control cabinet for power distribution；

If original debris concentration is less than or equal to 45%, original debris is not required to dilute；

If topography is uniform around Tailings Dam, high head gravity flow condition is not present, then uses tailing power transmission module by tailing It is delivered to mobile rotational flow station module via charging mine rubber hose, electric power needed for tailing power transmission module and control are by matching Electrical control cabinet provides；

If topography is higher around Tailings Dam, by Tailings transportation a to high position, then take static pressure self-flowing pastefill mode via Charging mine rubber hose is delivered to mobile rotational flow station module.

As seen from the above technical solution provided by the invention, Tailings Dam movable type eddy flow provided in an embodiment of the present invention Classification is built a dam system and implementation method, can be realized coordinate anti-overflow with slurry, balance conveying, accident, machine-walking, mobile ramming with And shoveling such as rolls at the functions, effectively widens the technology in the scope of application in tailing dam damming works field.

Detailed description of the invention

Fig. 1 is that Tailings Dam movable type cyclone classification provided in an embodiment of the present invention is built a dam system and implementation method structural representation Figure.

The Tailings Dam movable type cyclone classification that Fig. 2 present example provides is built a dam system implementation method

The tailing agitation and dilution module that Fig. 3 present example provides

The high-order water supply module that Fig. 4 present example provides

The tailing power transmission module that Fig. 5 present example provides

The mobile rotational flow station module that Fig. 6 present example provides

The crawler scraper that Fig. 7 present example provides

The cyclone unit that Fig. 8 present example provides

Fig. 9 present system is built a dam the application example in system in Tailings Dam

In figure:

1-tailing agitation and dilution module；2-high-order water supply modules；3-tailing power transmission modules；4-match electric control Cabinet；5-charging mine rubber hoses；6-overflow mine rubber hoses；7-mobile rotational flow station modules；

11-Tailings transportations supervisor；12-mine rubbers are to folder gate valve；13-connect mine branch pipe；14-agitation and dilution slots； 15-dilution Tailings transportation pipes；16-stirring machine supports；17-blenders；18-manual vent valves；19-agitation and dilution slot things Therefore it manages；

21-water deliverys supervisor；22-delivery pipe branch water valves；23-delivery pipe branches；24-sinks；25-bottom water supplying pipe water Valve；26-bottom water supplying pipes；27-manual vent valves；28-sink accident pipes；Build plateau in 29-bases；

31-motors；32-Pulp pumps；33-immobilizing foundations；34-feed pipe for mortar；

71-crawler scrapers；72-cyclone units；73-overflow ports；74-feed inlets；

711-driver's cabins；712-crawler belts；713-hydraulic presses；714-dozers；

721-charging aggregate pipes；722-charging gate valves；723-spill pipes；724-overflow aggregate pipes；725-overflows Pipe；726-feed pipes；727-hydrocyclones；

81-Tailings Dam movable type cyclone classifications are built a dam system；82-tailing dams；83-platforms；84-slope courses； 85-beach face ramming direction of travel.

Specific embodiment

The embodiment of the present invention will be described in further detail below.What is be not described in detail in the embodiment of the present invention is interior Appearance belongs to the prior art well known to professional and technical personnel in the field.

Tailings Dam movable type cyclone classification of the invention is built a dam system, and preferable specific embodiment is:

Including tailing agitation and dilution module, high-order water supply module, tailing power transmission module, control cabinet for power distribution, charging mine With rubber hose, overflow mine rubber hose and mobile rotational flow station module；

The movable type rotational flow station module includes crawler scraper, cyclone unit, overflow port and feed inlet, the rotation Stream device unit is fixed on the crawler scraper top by bracket, and the overflow port and feed inlet are installed in described Crawler scraper tail portion；

The outlet end of the overflow port and the overflow mine rubber hose, the arrival end of the feed inlet and the charging The outlet end of mine rubber hose connects；

The input end of the charging mine rubber hose is connect with the outlet end of the tailing power transmission module, the tail The outlet end of the input end of mine power transmission module and the high-order water supply module connects with the tailing agitation and dilution module respectively It connects.

Above-mentioned Tailings Dam movable type cyclone classification of the invention system of building a dam implements the method built a dam of classification, preferably Specific embodiment is:

Include:

If raw ore concentration is greater than 45%, original debris is delivered to tailing agitation and dilution module, tailing agitation and dilution module Required water is provided by high-order water supply module, and required electric power and control are provided by control cabinet for power distribution；

If original debris concentration is less than or equal to 45%, original debris is not required to dilute；

If topography is uniform around Tailings Dam, high head gravity flow condition is not present, then uses tailing power transmission module by tailing It is delivered to mobile rotational flow station module via charging mine rubber hose, electric power needed for tailing power transmission module and control are by matching Electrical control cabinet provides；

If topography is higher around Tailings Dam, by Tailings transportation a to high position, then take static pressure self-flowing pastefill mode via Charging mine rubber hose is delivered to mobile rotational flow station module.

Tailings Dam movable type cyclone classification of the invention is built a dam system and implementation method, be can be realized and is coordinated with slurry, balance Conveying, the functions such as accident is anti-overflow, machine-walking, mobile ramming and shoveling roll, are classified upper reaches method for current Tailings Dam and build a dam A kind of mechanization, the efficient low cost solution with energy-saving are provided, additional fractionation upper reaches method is targetedly solved and builds a dam The high-concentration tailings that are encountered are not applicable, hydrocyclone is moved and is difficult to and the problems such as damming works amount is small, to effectively widen The scope of application of the technology in tailing dam damming works field.

Specific embodiment:

As shown in Figure 1, system includes:

Tailing agitation and dilution module 1, high-order water supply module 2, tailing power transmission module 3, control cabinet for power distribution 4, charging mine With main modulars such as rubber hose 5, overflow mine rubber hose 6 and mobile rotational flow station modules 7；Wherein tailing agitation and dilution Module 1 is mainly used for the agitation and dilution of original debris；High-order water supply module 2 is used to supply water to tailing agitation and dilution module 1；Tailing is dynamic Power conveyor module 3 is for the pulp conveying after diluting to rotational flow station module 7；Control cabinet for power distribution 4 is mainly used for system electric appliance Power supply and control；Charging mine rubber hose 5 is for connecting Tailings transportation module 3 and mobile rotational flow station module 7；Overflow is mining Rubber hose 6 is used for overflow Tailings transportation to Tailings Dam；Mobile rotational flow station module 7 is built for feeding tailing cyclone classification Dam.

As shown in Fig. 2, be directed to different Tailings Dams actual conditions, the Tailings Dam movable type cyclone classification build a dam system reality Applying method are as follows:

(1) it detects original debris weight concentration and original debris is then delivered to tailing agitation and dilution module 1, tail if more than 45% Water needed for mine agitation and dilution module 1 is provided by high-order water supply module 2, and required electric power and control are provided by control cabinet for power distribution 4；If former Tailings concentration is less than or equal to 45%, then original debris is not required to dilute, and is directly entered next judgement process；

(2) Tailings Dam site contour is reconnoitred, if topography is uniform around Tailings Dam, high head gravity flow condition is not present, then uses Tailing is delivered to mobile rotational flow station module 7, tailing power via charging mine rubber hose 5 by tailing power transmission module 3 Electric power needed for conveyor module 3 and control are provided by control cabinet for power distribution 4；It, can be by Tailings transportation if topography is higher around Tailings Dam To a high position, static pressure self-flowing pastefill mode is then taken to be delivered to mobile rotational flow station module 7 via charging mine rubber hose 5；

(3) tailing cyclone classification is fed, is based on design feed ore concentration and inlet pressure for Tailings transportation to mobile eddy flow In module of standing 7, for building a dam, the lower overflow tailing of concentration flows into the higher underflow tailing of concentration via overflow mine rubber hose 6 Tailings Dam.

As shown in figure 3, tailing agitation and dilution module 1 by Tailings transportation supervisor 11, mine rubber to folder gate valve 12, connect mine branch 13 agitation and dilution slot 14 of pipe, dilution Tailings transportation pipe 15, stirring machine support 16, blender 17, manual vent valve 18 and stirring The major parts such as dilution trap accident pipe 19 composition；Wherein, Tailings transportation supervisor 11 is connected with 13 input end of mine branch pipe is connect, protocercal tail Mine is linked into system via mine branch pipe 13 is connect；Mine rubber is located at folder gate valve 12 and connects 13 horizontal segment of mine branch pipe, for limiting Original debris enters the flow of system, and work gate valve and each one, emergency repair gate valve can be respectively set according to actual needs；Connect mine 13 outlet end of branch pipe extends vertically into about 1m length in agitation and dilution slot 14, for original debris to be delivered in agitation and dilution slot 14； Agitation and dilution slot 14 at bottom upwards about 0.3m height side aperture and with dilution 15 input end of Tailings transportation pipe connect, use Tailings transportation after it will dilute is to other modules；It is fixed at the top of agitation and dilution slot 14 to set up blender bracket 16；Blender branch 16 centre of frame is fixedly connected with blender 17, the agitation and dilution for tailing；Agitation and dilution slot 14 is connected close to bottom side Manual vent valve 18, for being vented agitation and dilution slot 14；Agitation and dilution slot 14 is opened side at top downwards about 0.3m height Hole simultaneously connects agitation and dilution slot accident pipe 19, for keeping level stability, prevents tailing from overflowing accident.

As shown in figure 4, high-order water supply module 2 by water delivery supervisor 21, delivery pipe branch water valve 22, delivery pipe branch 23, sink 24, Bottom water supplying pipe water valve 25, manual vent valve 27, sink accident pipe 28, is built and builds the major parts such as plateau 29 bottom water supplying pipe 26 Composition；Wherein water delivery supervisor 21 is connected with 22 input end of delivery pipe branch, and water is linked into system by delivery pipe branch 22；Water delivery Branch pipe water valve 22 is mounted on 23 horizontal segment of delivery pipe branch, for limiting water entry into the flow of system；It hangs down 23 outlet end of delivery pipe branch The about 1m length of sink 24 directly is protruded into, for water to be delivered in sink 24；The side at bottom upwards about 0.3m height of sink 24 Side aperture is simultaneously connect with 26 input end of bottom water supplying pipe, for water to be delivered to tailing agitation and dilution module 1；Bottom water supplying pipe 26 Horizontal segment sets bottom water supplying pipe water valve 25, the water supply flow for controlling high-order water supply module 2 to tailing agitation and dilution module 1； Water supplying pipe 26 outlet end in bottom extends vertically into about 1m in agitation and dilution slot 14；Sink 24 connects manual vent valve close to bottom side 27, for being vented sink 24；Sink 24 side aperture and connection water channel accident pipe 28 at top downwards about 0.3m height, are used In keeping stable level, prevent water from overflowing accident；24 integral installation of sink is built on plateau 29 at base, is passed through convenient for trough inner water quiet Gravity flow mode is pressed to convey to tailing agitation and dilution module 1, energy conservation and environmental protection.

As shown in figure 5, tailing power transmission module 3 is by motor 31, Pulp pump 32, immobilizing foundation 33 and feed pipe for mortar 34 etc. Major part composition；Wherein 31 electric power of motor and frequency control are provided by power distribution cabinet 4；31 rotation axis of motor drives 32 turns of Pulp pump Dynamic, the two is fixedly mounted on immobilizing foundation 33, and immobilizing foundation 33 should also have certain height in addition to firm, prevents tail Excessive ore pulp or water touch motor 31 in mine dilution stirring module 1 and high-order water supply module 2, meet safety in production and require；Slurry Pump 32 input ends and tailing dilution stirring module 1 in dilution 15 outlet end of Tailings transportation pipe be connected, 32 outlet end of Pulp pump with 34 input end of feed pipe for mortar is connected.

As shown in fig. 6, mobile rotational flow station module 7 by crawler scraper 71 and cyclone unit 72, overflow port 73 with And the major parts such as feed inlet 74 composition, wherein cyclone unit 72 is fixed on crawler scraper 71 by bracket and pushes up Portion；Overflow port 73 and feed inlet 74 are installed in 71 tail portion of crawler scraper；73 outlet end of overflow port and overflow mine rubber Hose 6 connects；74 arrival end of feed inlet is connect with charging 5 outlet end of mine rubber hose.

As shown in fig. 7, crawler scraper 71 is by driver's cabin 711, crawler belt 712, hydraulic press 713 and 714 dozers etc. Part forms, and wherein driver's cabin 711 is used for Driving control；Crawler belt 712 is main walking mechanism, convenient on weak fault Walking；Promotion of the hydraulic press 713 for dozer 714 is landed；Dozer 714 is used for shoveling tailings.

As shown in figure 8, cyclone unit 72 is by charging aggregate pipe 721, charging gate valve 722, spill pipe 723, overflow collection The major parts such as expects pipe 724, overflow pipe 725, feed pipe 726 and hydrocyclone 727 composition；Wherein, overflow pipe 725 into Mouth end is connect with overflow aggregate pipe 724, and 725 horizontal segment of overflow pipe is passed through from 71 chassis of crawler scraper, and overflow pipe 725 goes out Mouth end is connect with 73 arrival end of overflow port, and the overflow tailing for will generate after cyclone classification is discharged into Tailings Dam；Feed pipe 726 into Mouth end is connect with into 74 outlet end of feed inlet, and 726 horizontal segment of feed pipe is passed through from 71 chassis of crawler scraper, feed pipe 726 outlet ends are connect with charging aggregate pipe 721, are used for Tailings transportation to hydrocyclone 727.

As shown in figure 9, combining live practical application, the embodiment of system is carried out and is further described:

(1) in tailing dam 82, side uses barren rock, earth material or other Building wood material heaps to build platform 83, while edge in library 82 slope of tailing dam beach face into library constructs slope course 84；

(2) installation of system 81 of building a dam of Tailings Dam movable type cyclone classification is laid in the top of platform 83 according to above-mentioned diagram, Wherein, mobile rotational flow station module 7 is travelled along slope course 84 near beach face；

(3) 17 control switch of blender in power distribution cabinet 4 is opened；

(4) mine rubber is opened to folder gate valve 12, and original debris edge from Tailings transportation supervisor 11 connects the inflow of mine branch pipe 13 and stirs It mixes in dilution trap 14；

(5) delivery pipe branch water valve 22 is opened, water flows into sink 24 from water delivery supervisor 21 along delivery pipe branch 23；

(6) bottom water supplying pipe water valve 25 is opened, water flows into agitation and dilution slot 14 via bottom water supplying pipe 26 from sink 24 In, original debris is stirred machine 17 with water in agitation and dilution slot 14 and is uniformly mixed；

(7) 31 control switch of motor in power distribution cabinet 4 is opened, and adjusts 31 operating frequency of motor, is adjusted in agitation and dilution slot 14 It is delivered to Pulp pump 32 along dilution Tailings transportation pipe 15 with uniform ore pulp, and then by the output of feed pipe for mortar 34 to charging mine rubber Hose 5；

(8) further, ore pulp from charging mine rubber hose 5 reach feed inlet 74 in mobile rotational flow station module 7, into Expects pipe 726, charging aggregate pipe 721 simultaneously eventually enter into and carry out cyclone classification in hydrocyclone 727, wherein overflow tailing is along overflowing Stream branch pipe 723, overflow aggregate pipe 724, overflow pipe 725, overflow port 73 and overflow mine rubber hose 6 are flowed and are finally flowed into Tailings Dam；Underflow tailing is then sprayed from 727 sand settling mouth of hydrocyclone, falls in mobile 7 front of rotational flow station module；

(9) after underflow tailing is accumulated to certain altitude, start mobile rotational flow station module 7 and move forward, while by Hydraulic press 713 drive dozer 714 land, be bulldozed underflow tailing accumulation body, then crawler belt 712 to the underflow tailing after being bulldozed into Row rolls, to realize the purpose that soft beach reinforces；

(10) mobile rotational flow station module 7 along beach face ramming direction of travel 85 constantly in beach face ramming, be bulldozed and grind Pressure then repeats step (9), (10) again, successively successively increases, ultimately form tailing dam.

For raw ore concentration > 45% and the Tailings Dam without high head gravity flow condition, above system implementation steps are applicable in completely；Needle To specific Tailings Dam, its objective condition need to be investigated first, after deleting related function module according to implementation method of the present invention, then Row is implemented to build a dam.

The invention has the benefit that

Pass through tailing agitation and dilution module, high-order water supply module, tailing power transmission module, control cabinet for power distribution, charging mine With the combination of rubber hose, overflow mine rubber hose and mobile rotational flow station module, formed it is a set of it is applied widely, The high and safe and reliable Tailings Dam movable type cyclone classification of flexible and efficient, mechanization degree is built a dam system, and perfect system is cooperated Implementation method is realized and is built a dam the improvement and upgrading of technique to Tailings Dam additional fractionation upper reaches method.Tailing in present system Agitation and dilution module and high-order water supply module, can be realized the cyclone classification of high-concentration tailings, breach additional fractionation upper reaches method The limitation built a dam to original debris concentration；Accident overflow pipe, energy are equipped in tailing agitation and dilution module and high-order water supply module It is enough effectively to avoid the excessive accident of slurries, safety and environmental protection；Meanwhile the cyclone machine of the mobile rotational flow station module in present system Group is transported by crawler scraper, and the flexibility that system is built a dam has been significantly greatly increased in the means of transportation of mechanization, overcomes tradition point Grade upper reaches method faced hydrocyclone of building a dam moves difficult and small damming works amount problem；In addition, passing through crawler type The layer-by-layer rolling of scraper can effectively reinforce Tailings Dam beach face, have to the safety for improving tailing dam Positive effect；Implementation method provided by present system again can adaptation to local conditions, for the concrete condition of different Tailings Dams Module suitably is deleted, the implementation cost of present system can not only be reduced, has more widened its scope of application.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Within the technical scope of the present disclosure, any changes or substitutions that can be easily thought of by anyone skilled in the art, It should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with the protection model of claims Subject to enclosing.

Claims (2)

1. The system 1. a kind of Tailings Dam movable type cyclone classification is built a dam, which is characterized in that including tailing agitation and dilution module, high-order confession Water module, tailing power transmission module, control cabinet for power distribution, charging mine rubber hose, overflow mine rubber hose and movable type Rotational flow station module；

   The movable type rotational flow station module includes crawler scraper, cyclone unit, overflow port and feed inlet, the cyclone Unit is fixed at the top of the crawler scraper by bracket, and the overflow port and feed inlet are installed in the crawler belt Formula scraper drive end unit；

   The outlet end of the overflow port and the overflow mine rubber hose, the arrival end of the feed inlet and the charging are mining The outlet end of rubber hose connects；

   The input end of the charging mine rubber hose is connect with the outlet end of the tailing power transmission module, and the tailing is dynamic The outlet end of the input end of power conveyor module and the high-order water supply module is connect with the tailing agitation and dilution module respectively.
2. 2. a kind of Tailings Dam movable type cyclone classification described in claim 1 is built a dam, system implements the method that classification is built a dam, special Sign is, comprising:

   If raw ore concentration is greater than 45%, original debris is delivered to tailing agitation and dilution module, needed for tailing agitation and dilution module Water is provided by high-order water supply module, and required electric power and control are provided by control cabinet for power distribution；

   If original debris concentration is less than or equal to 45%, original debris is not required to dilute；

   If topography is uniform around Tailings Dam, be not present high head gravity flow condition, then using tailing power transmission module by tailing via Charging mine rubber hose is delivered to mobile rotational flow station module, and electric power needed for tailing power transmission module and control are by with automatically controlled Cabinet processed provides；

   If topography is higher around Tailings Dam, by Tailings transportation a to high position, then take static pressure self-flowing pastefill mode via charging Mine rubber hose is delivered to mobile rotational flow station module.