CN109201310A - A kind of intelligence ore-dressing plant - Google Patents
A kind of intelligence ore-dressing plant Download PDFInfo
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- CN109201310A CN109201310A CN201811180405.2A CN201811180405A CN109201310A CN 109201310 A CN109201310 A CN 109201310A CN 201811180405 A CN201811180405 A CN 201811180405A CN 109201310 A CN109201310 A CN 109201310A
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- dressing plant
- ore
- cylinder
- plant according
- permanent magnet
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03B—SEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
- B03B5/00—Washing granular, powdered or lumpy materials; Wet separating
- B03B5/68—Washing granular, powdered or lumpy materials; Wet separating by water impulse
- B03B5/70—Washing granular, powdered or lumpy materials; Wet separating by water impulse on tables or strakes
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- Separation Of Solids By Using Liquids Or Pneumatic Power (AREA)
Abstract
The present invention provides a kind of intelligent ore-dressing plant, which includes pan feeding mixing tank, sorting space, pulsation hoisting mechanism, the first discharging mechanism and the second discharging mechanism.Wherein pulsation hoisting mechanism provides pulsation promotion power using electromagnetism perception principle and forms fluctuating flow, to be sorted after dispersing mineral according to density;The present invention has many advantages, such as that operation is fine controllably, mechanical loss is small, applied widely, bed interferes less, sharpness of separation is high and intelligent.
Description
Technical field
The present invention relates to a kind of ore-dressing plant, in particular to a kind of intelligent ore-dressing plant.
Background technique
Ore dressing be according to the physics of different minerals, chemical property in ore, ore reduction or it is levigate after, using gravity treatment
The methods of method, floatation, magnetic method, electrical concentration, valuable mineral and gangue mineral are separated, and make having for various symbiosis (association)
Be separated from each other as far as possible with mineral, remove or reduce objectionable impurities, with smelted or other industry needed for raw material process.?
Coal industry goes out cleaned coal, middle coal and gangue from raw coal from washing with the method for gravity treatment and flotation.Current most of gravity preparations
Mine equipment is required to promote the efficiency of separation, such as water or heavy-media suspension etc. by separating medium.
However current gravity beneficiation equipment is all made of conventional ADS driving mode and machine driving, there are machines in transmission process
Tool serious wear, intelligence degree are low and are not easy to accurately control, so as to cause mechanical life deep fades and sorting mineral
Precision reduces.Therefore it is small and realize the ore-dressing plant that accurately controls to be badly in need of a kind of mechanical wear.
Summary of the invention
The purpose of the present invention is to provide a kind of intelligent ore-dressing plant, which includes: pan feeding mixing tank, divides
Select space, pulsation hoisting mechanism, the first discharging mechanism and the second discharging mechanism.
The sorting space is cuboid container structure and its length direction both ends offers feeding inlet and discharge port respectively,
The feeding inlet is connected with the pan feeding mixing tank;Sorting space described further includes the roughing section close to the feeding inlet
With selected section of the close discharge port;First is provided in the roughing section and the bottom at the selected section of position that is in contact to open
Mouthful, be additionally provided with the second opening on the selected section of bottom the discharge port between, first opening connects described the
One discharging mechanism, second opening then connect second discharging mechanism.
It is equidistantly uniformly provided in the roughing section and selected section of the bottom and the sorting space width direction
Parallel multiple rows of through-hole, through-hole described in every row include be in staggered row between a multiple through-holes and the adjacent two rows through-hole
It arranges, is respectively connected with the pulsation hoisting mechanism immediately below each through-hole.
The pulsation hoisting mechanism includes pedestal, the cylinder above the pedestal, is connected with the cylinder upper end
Logical flowmeter, the first check-valve that bottom is connected with the flowmeter, the electromagnetic coil being wrapped on the cylinder, control
Module and power module;The inner barrel further includes the permanent magnetism for having the cellular grid positioned at upper end, freely up and down moving
Body and four one end are fixed on the cylinder body bottom and the other end passes through four location holes opened up on the permanent magnet simultaneously
The vertically-guided rope being fixed on the cellular grid;Water inlet and the water inlet are additionally provided on the cylinder lower end
Successively it is connected with second check-valve and vibration means for main pipe for supplying water.
Preferably, the pan feeding is blended in that inlet is provided with multiple spray heads and exit is provided with multiple screens,.
Preferably, the permanent magnet is cylindrical Ru-Fe-Mn permanent magnet.
Preferably, the flow is calculated as ultrasonic flowmeter.
Preferably, the angle of circumference obtained after the adjacent location hole of any two and the permanent magnet line of centres is straight
Angle.
Preferably, the winding height of the electromagnetic coil is the 1/2 to 3/4 of the cylinder height.
Preferably, the discharge port is then connected with ladder chute.
Preferably, the sorting space integrally uses metal foil support and inside is equipped with abrasive brick.
Preferably, cuboid container structure is in the sorting space and length-width ratio is between 3:1~5:1.
Preferably, angle is 2~5 degree between the length direction and horizontal plane in the sorting space.
In conclusion in conclusion a kind of intelligent ore-dressing plant creativeness of the present invention uses electromagnetic power, double wheel
The structure features such as discharging, shut-off valve, with operation is fine controllably, mechanical loss is small, applied widely, bed interferes less, sorts
The advantages that precision is high and intelligent.
It should be appreciated that aforementioned description substantially and subsequent detailed description are exemplary illustration and explanation, it should not
As the limitation to the claimed content of the present invention.
Detailed description of the invention
With reference to the attached drawing of accompanying, the more purposes of the present invention, function and advantage are by the as follows of embodiment through the invention
Description is illustrated, in which:
Fig. 1 schematically shows the schematic perspective view of intelligent ore-dressing plant of the invention;
Fig. 2 schematically shows the flow diagram of intelligent ore-dressing plant of the invention;
Fig. 3 schematically shows the structural schematic diagram of intelligent ore-dressing plant pulsation hoisting mechanism of the invention;
Fig. 4 schematically shows the structural schematic diagram of first discharging mechanism of intelligent ore-dressing plant of the invention;
Fig. 5 schematically shows the bed dynamic adjustment schematic diagram of intelligent ore-dressing plant of the invention.
Specific embodiment
By reference to exemplary embodiment, the purpose of the present invention and function and the side for realizing these purposes and function
Method will be illustrated.However, the present invention is not limited to exemplary embodiment as disclosed below;Can by different form come
It is realized.The essence of specification is only to aid in those skilled in the relevant arts' Integrated Understanding detail of the invention.
Hereinafter, the embodiment of the present invention will be described with reference to the drawings.In the accompanying drawings, identical appended drawing reference represents identical
Or similar component or same or like step.
Fig. 1 diagrammatically illustrates a kind of schematic perspective view of intelligent ore-dressing plant of the present invention, and the ore-dressing plant is main
It include: pan feeding mixing tank 1, sorting space 2, pulsation hoisting mechanism 3, the first discharging mechanism 4 and the second discharging mechanism 5.This hair
A kind of bright intelligent ore-dressing plant makes raw ore ore particle be layered by relative density and obtain by proper method using vertical alternation water flow
To three kinds of products, the respectively big heavy product of density, density small light product and density is between heavy product and light product
Intermediate product, it is final to realize sorting mineral purpose;A kind of intelligent ore-dressing plant of the present invention be widely used in nonmetallic mineral or
Sorting of metalliferous mineral, such as coal, ferrimanganic ore, tungsten ore, tin ore, gold mine and certain rare metal ores etc..
Pan feeding mixing tank 1, the place mixed for raw ore material with water.Specifically, the feed that raw ore passes through upstream
Device or belt feeder are fed in pan feeding mixing tank 1, while multiple spray heads 11 of inlet equably add largely into raw ore
Clear water or recirculated water, so that raw ore is completely sunk in the water and is sufficiently humidified so as to.Preferably, in the pan feeding mixing tank 1
Outlet is provided with multiple screens 12, to realize that the mixture of raw ore and water can flow uniformly into sorting space 2, into one
Step ensure that the separating effect in sorting space 2.
Space 2 is sorted, provides the sorting place of raw ore, the mixture of raw ore and water, which together constitutes, is located at sorting space
Bed in 2.As depicted in figs. 1 and 2, the shape in space 2 is sorted as cuboid container structure and length-width ratio is between 3:1~5:1
Between.Sorting 2 length direction of space both ends offer feeding inlet 21 and discharge port 22 respectively, wherein feeding inlet 21 with it is described enter
Mixing tank 1 is connected material, discharge port 22 is then directly connected with ladder chute 6.
Sorting space 2 includes two parts, wherein being roughing section 23 close to feeding inlet 21, close discharge port 22 is essence
Selections 24.Bottom between roughing section 23 and selected section 24 opens up useful in the direction of the width (or on the bottom at the position that is in contact)
In the first opening 25 of discharge heavy product, bottom between selected section 24 and discharge port 22 (or the contact portion that connects in the direction of the width
Position bottom on) be also provided in be discharged product second be open 26, light product is then expelled directly out from the discharge port 22
Into ladder chute 6,25 then the second discharging of connection of the first discharging mechanism 4, second of connection opening 26 of the first opening described further
Mechanism 5.
Furthermore sort equidistantly be uniformly provided on 2 roughing section 23 of space and selected section 24 of bottom it is parallel with width direction
Multiple rows of through-hole 27, every exhausting hole 27 all includes between multiple through-holes 27 and adjacent two exhausting hole 27 in being staggered;Into
The underface of each through-hole 27 of one step is respectively connected with pulsation hoisting mechanism 3, the underface of multiple rows of through-hole 27 is then connected with multiple rows of arteries and veins
Dynamic hoisting mechanism 3.
Preferably, 2 entirety of sorting space is made of metal foil and inside is equipped with abrasive brick, to improve wear-resisting
Property and service life;Sorting the inclination angle of space 2 in the longitudinal direction is 2~5 degree of (i.e. sorting 2 length direction of space and horizontal planes
Between angle be 2~5 degree), thus play accelerate material by speed raising the unit time in raw ore sorting amount.
Pulsation hoisting mechanism 3, is connected with through-hole 27 positioned at underface, its end of the through-hole 27 and does at sealing
Reason, pulsation hoisting mechanism 3 is for generating top water upwards and impacting the bed for being located at and being made of in sorting space 2 raw ore, to make
Loose condition (of surface) is raised and be in bed, further realizes effectively sorting according to density principle.
As shown in figure 3, pulsation hoisting mechanism 3 includes pedestal 301, the cylinder on pedestal 301 played a supporting role
302, first check-valve 304 that the flowmeter 303 that is connected with 302 upper end of cylinder, bottom are connected with flowmeter 303 and
The electromagnetic coil 305 being wrapped on cylinder 302.Water inlet 302a and the water inlet are provided on 302 lower end of cylinder
302a is successively connected with second check-valve 314 and vibration means for main pipe for supplying water 315.
It is further preferred that pulsation hoisting mechanism 3 further includes having above pedestal 301 and 302 bottom of cylinder is connected
Water purification disk 310.Water inlet 310a at this time is then arranged on the water purification disk 310, and water inlet 310a successively stops with second
Valve 314 is returned to be connected with vibration means for main pipe for supplying water 315.Water purification disk 310 primarily serves filtering clear water or impurity and fine grained in recirculated water
Object prevents impurity and fine particle from entering in cylinder 302, and is connected between water purification disk 310 and 302 bottom end of cylinder.Flow
Meter 303 preferably uses without hindrance flowmeter, such as ultrasonic flowmeter and electromagnetic flowmeter, to reduce the resistance in lifting process
Power and reduction energy consumption.
Furthermore pulsation hoisting mechanism 3 further include the power module 311 that electric energy is provided to electromagnetic coil 305 and flowmeter 303,
For obtain in real time flowmeter 303 data and in time make respective logic judgement and movement control unit 316 and be located at
Cylindrical permanent magnet 306,308 and of guide cords inside cylinder 302, further 302 lower end of cylinder is additionally provided with for dropping
Furthermore the cushion 309 of the downward impact strength of low permanent magnet 306 is equipped with the net for uniform water conservancy diversion in 302 upper end of cylinder
Shape grid 313, to ensure that ascending current can be uniformly through flowmeter 303 and the accuracy of flow monitoring data.
Specifically, the pulsation hoisting mechanism 3 successively includes pedestal 301, water purification disk 310, cylinder 302, stream from bottom to up
Meter 303 and first check-valve 304.Cylinder 302 is cylindrical and (such as ceramic material is preferentially made of nonmetallic materials
Deng), further include be wrapped in 302 outer surface of cylinder multiply electromagnetic coil 305 (since the bottom end of cylinder 302 upwards winding electricity
Magnetic coil 305), the winding height of the electromagnetic coil 305 is about the 1/2 to 3/4 of 302 height of cylinder.Inside cylinder 302 also
Include spring 307 below cellular grid 313 is set, the permanent magnet 306 that freely up and down moves and four one end are fixed
On 302 bottom of cylinder and the other end passes through the four location hole 306a opened up on the permanent magnet 306 and is fixed on mesh grid
Vertically-guided rope 308 on lattice 313.Furthermore it is obtained after the adjacent location hole 306a of any two and 306 line of centres of permanent magnet
The angle of circumference arrived is right angle, and permanent magnet 306 preferably uses Ru-Fe-Mn permanent magnet.
Present invention pulsation hoisting mechanism 3 further includes having the vibration means for main pipe for supplying water 315 being connected with multiple second check-valves 314, is used
In the moisturizing into cylinder 302 through second check-valve 314 and water purification disk 310.Before water is not full of in cylinder 302, vibration means for main pipe for supplying water
315 hydraulic pressure P0Greater than the hydraulic pressure P at water inlet 310a3, the minimum of first check-valve 304 open hydraulic pressure P1And second check-valve
314 minimum unlatching hydraulic pressure P2The sum of three, i.e. P0>(P1+P2+P3), second check-valve 314 is in the open state at this time, supplies water
Supervisor 315 then continues in cylinder 302 moisturizing until being full of;When being full of water in cylinder 302, the hydraulic pressure of vibration means for main pipe for supplying water 315
P0Less than or equal to the hydraulic pressure P at water inlet 310a3, the minimum of first check-valve 304 open hydraulic pressure P1With second check-valve 314
Minimum opens hydraulic pressure P2The sum of three, i.e. P0≤(P1+P2+P3), second check-valve 314 is in close state at this time, and moisturizing stops
Only.
Then power module 311 starts to power to electromagnetic coil 305, and electromagnetic coil 305 generates high-intensity magnetic field after being passed through electric current,
To drive permanent magnet 306 in cylinder 302 along guide cords using the magnetic induction force generated between high-intensity magnetic field and permanent magnet 306
308 do lifting motion upwards.Permanent magnet 306 drives water in cylinder 302 upward under the action of electromagnetism power-assisted in lifting process
Movement further pushes up water slug bed rises and disperses and realize mineral point to form top water and wash first check-valve 304 open
Choosing.
It preferably, further include the sister block machine having for avoiding guide cords 308 directly with location hole 306a sliding friction
Structure 317, further permanent magnet 306 offer eight groove 306b in the exit at its four both ends location hole 306a, this pair is sliding
Wheel mechanism 317 is then embedded in groove 316b and realizes the effect with the sliding friction of guide cords 308.Specifically, sister block
Mechanism 317 includes the pulley and fixing shell 318 of two horizontal clearance arrangements, and guide cords 308 pass through between two pulley grooves
Gap, permanent magnet 306 utilizes rolling friction between guide cords 308 and sister block mechanism 317 during up and down motion
Frictional resistance can be substantially reduced and improved, about the 306 reduced service life permanent magnet that can further extend permanent magnet 306 is transported
The dynamic time and reduction energy consumption supply.
In 306 uphill process of permanent magnet, 303 real-time monitoring of flowmeter simultaneously records water flow in entire lifting process
Data on flows is simultaneously transmitted to control unit 316.Specifically, flow value Q was gradually increased until reaching peak before this in uphill process
Value Qf, then gradually reduced again in the dirty magnitude Q of the rebound drag effect of spring 307 up to being zero, peak flow QfSize can
The inflow size of current of electromagnetic coil 305 is controlled by power module 311 to be adjusted.The bullet when flow value Q is zero or negative value
Spring 307 is compressed, and power module 311 then can be cut off powers to electromagnetic coil 305.Magnetic induction force disappears at this time, permanent magnet 306
Decline along guide cords 308 rapidly under self gravity and the effect of 307 restoring force of spring and collide on cushion 309, so far
Permanent magnet 306 completes a bed rises period, while accordingly also producing a complete arteries and veins in sorting 2 bed of space
In the dynamic water flow period, then power module 311 restores to power to electromagnetic coil 305 and enters the bed rises period next time.Into
One step generates lifting motion simultaneously with row's pulsation hoisting mechanism 3, multiple rows of pulsation hoisting mechanism 3 successively generates lifting motion in order
And continuous fluctuating flow is finally generated in bed, to realize the intelligent control and pulsation sorting of mineral.
One bed rises period of permanent magnet 306 takes around 2 to 3 seconds time (including raising and lowering process),
Promoting frequency is then about 20 to 30 beats/min;The promotion top water of the permanent magnet 306 enables bed to generate 40 to 120 millis
The Oscillation Amplitude of rice, it is ensured that meet the sorting requirement of raw ore bed.Electromagnetic coil is further flowed by the control of power module 311
305 size of current adjusts bed rises period and the Oscillation Amplitude of bed of permanent magnet 306, to have operation fine
Controllably, the advantages that applied widely.
First discharging mechanism 4, positioned at it is described first opening 25 underface and in time be discharged bed in it is undermost
Heavy product (the biggish product of density).As shown in figure 4, the first discharging mechanism 4 mainly includes setting in sorting 2 roughing section 23 of space
The first buoy 43, double wheel device for discharging 41 and discharging is collected and is directed on the transport device such as scrapper conveyor or belt feeder
The first chute 42, the first chute 42 also acts effect that is fixed and closing the double wheel device for discharging simultaneously, wherein double
Skate device for discharging 41 includes the active refuse rotor 411 for providing power output and the driven refuse rotor 412 of passive rotation.
Active refuse rotor 411 is identical with driven 412 structure snd size of refuse rotor and arranges in horizontal cross, wherein and actively
Refuse rotor 411 includes drive sprocket axle 411a and multiple active blade 411b, and same driven refuse rotor 412 includes follower shaft 412a
With multiple passive blade 412b.The parallel arrangement of drive sprocket axle 411a and follower shaft 412a and length and first opening 25
The length width of space 2 (or sorting) it is consistent, the both ends of drive sprocket axle 411a and follower shaft 412a and first chute 42
It is connected to a fixed and preferably using sealing bearing connection.Active blade 411b and passive blade 412b are respectively along drive sprocket axle
The length direction of 411a and follower shaft 412a are arranged and entirety is radially arranged, furthermore active blade 411b and passive blade
It is sealed processing between the both ends 412b and the first chute 42, to be reduced as far as the generation at leakage scene.
Drive sprocket axle 411a pass through during rotation active blade 411b thereon drive passive blade 412b and from
Driving wheel axis 412a is rotated synchronously, and during rotation, is constantly present a piece of active blade 411b and a piece of passive blade 412b two
Two cross-contacts simultaneously fit closely together, it is ensured that and heavy product can enter in the first chute 42 compartment of terrain in batches, thus
Reduce the interference and adverse effect to bed separating effect.The bottom (heavy product layer) of 2 bed of space is sorted by the
One opening 25 after enter among the top of active refuse rotor 411 and driven refuse rotor 412, while active blade 411b and from
It is entered in movable vane piece 412b rotation process in the first chute 42, it further can be by adjusting the velocity of rotation of drive sprocket axle 411a
The throughput of heavy product in the unit time is increased or reduces, it specifically can be according to heavy product in the bed that the first buoy 43 monitors
Layer thickness value determines revolving speed size.
Second discharging mechanism 5, positioned at it is described second opening 26 underface and in time be discharged bed in middle product.The
Two discharging mechanisms 5 include single wheel device for discharging 51, the second buoy 53 that 2 selected sections 24 of space of sorting is arranged in and by discharging
The second chute 52 on the transport devices such as guiding scraper machine or belt feeder, wherein 51 velocity of rotation of single wheel device for discharging is according to
One buoy 43 monitors the middle product layer thickness value in bed to adjust.
As shown in figure 5, diagrammatically illustrating a kind of intelligent ore-dressing plant bed dynamic within a promotion period of the present invention
The assorting room of adjustment, wherein S is the dynamic changing process that stroke curve, the C of top water are bed;Specific whole process can be divided into
Three phases: stage t1 and last packing stage t2 loosely initial elevating stage t0, is sorted, wherein initial elevating stage t0 bed
It is stepped up by closely under the action of pushing up water and gradually loose, loose sorting stage t1 bed is in loose condition (of surface) and expires
The sufficient condition sorted according to density size, last packing stage t2 bed are by loosely gradually compaction in layers.
It uses electromagnetic power in conclusion a kind of intelligent ore-dressing plant of the present invention is creative, double wheel discharging, end
The structure features such as valve, have operation is fine controllable, mechanical loss is small, applied widely, bed interference less, sharpness of separation it is high and
The advantages that intelligent.
The attached drawing is only schematical and draws not in scale.Although have been combined preferred embodiment to the present invention into
Description is gone, it is to be understood that protection scope of the present invention is not limited to embodiment as described herein.
In conjunction with the explanation and practice of the invention disclosed here, the other embodiment of the present invention is for those skilled in the art
It all will be readily apparent and understand.Illustrate and embodiment is regarded only as being exemplary, true scope of the invention and purport are equal
It is defined in the claims.
Claims (10)
1. a kind of intelligence ore-dressing plant, which includes: pan feeding mixing tank, sorting space, pulse hoisting mechanism, the
One discharging mechanism and the second discharging mechanism;Wherein,
The sorting space is cuboid container structure and its length direction both ends offers feeding inlet and discharge port respectively, described
Feeding inlet is connected with the pan feeding mixing tank;Sorting space described further includes the roughing section of the close feeding inlet and leans on
Selected section of the nearly discharge port;Be provided in the roughing section and the bottom at the selected section of position that is in contact the first opening,
The second opening is additionally provided on the selected section of bottom between the discharge port, the first opening connection described first goes out
Material mechanism, second opening then connect second discharging mechanism;
It is equidistantly uniformly provided in the roughing section and selected section of the bottom parallel with the sorting space width direction
Multiple rows of through-hole, through-hole described in every row include be in be staggered between a multiple through-holes and the adjacent two rows through-hole, often
The pulsation hoisting mechanism is respectively connected with immediately below a through-hole;
The pulsation hoisting mechanism includes pedestal, the cylinder above the pedestal, is connected with the cylinder upper end
First check-valve that flowmeter, bottom are connected with the flowmeter, the electromagnetic coil being wrapped on the cylinder, control module
And power module;The inner barrel further include have the cellular grid positioned at upper end, the permanent magnet freely up and down moved with
And four one end are fixed on the cylinder body bottom and the other end passes through four location holes opened up on the permanent magnet and fixation
Vertically-guided rope on the cellular grid;Water inlet and the water inlet are additionally provided on the cylinder lower end successively
It is connected with second check-valve and vibration means for main pipe for supplying water.
2. it is according to claim 1 intelligence ore-dressing plant, it is characterised in that: the pan feeding be blended in inlet be provided with it is more
A spray head and exit are provided with multiple screens.
3. intelligence ore-dressing plant according to claim 1, it is characterised in that: the permanent magnet is cylindrical Ru-Fe-Mn permanent magnetism
Body.
4. intelligence ore-dressing plant according to claim 1, it is characterised in that: the flow is calculated as ultrasonic flowmeter.
5. intelligence ore-dressing plant according to claim 1, it is characterised in that: the adjacent location hole of any two and institute
Stating the angle of circumference obtained after the permanent magnet line of centres is right angle.
6. intelligence ore-dressing plant according to claim 1, it is characterised in that: the winding height of the electromagnetic coil is described
The 1/2 to 3/4 of cylinder height.
7. intelligence ore-dressing plant according to claim 1, it is characterised in that: the discharge port is then connected with ladder chute
It connects.
8. intelligence ore-dressing plant according to claim 1, it is characterised in that: the sorting space integrally uses metal foil
It supports and inside is equipped with abrasive brick.
9. intelligence ore-dressing plant according to claim 8, it is characterised in that: the sorting space is cuboid container structure
And length-width ratio is between 3:1~5:1.
10. intelligence ore-dressing plant according to claim 9, it is characterised in that: the length direction and water in the sorting space
Angle is 2~5 degree between plane.
Priority Applications (1)
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CN201811180405.2A CN109201310A (en) | 2018-10-10 | 2018-10-10 | A kind of intelligence ore-dressing plant |
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CN201811180405.2A CN109201310A (en) | 2018-10-10 | 2018-10-10 | A kind of intelligence ore-dressing plant |
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US4863588A (en) * | 1986-05-28 | 1989-09-05 | Herron Lindsay G | Riffle bars |
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JPH1176858A (en) * | 1997-09-12 | 1999-03-23 | Kikoushiya:Kk | Method and apparatus for removing light substance mixed in aggregate |
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CN203944459U (en) * | 2014-06-26 | 2014-11-19 | 招远市招金金合科技有限公司 | A kind of novel adhesive tape filtration washing device |
CN205308777U (en) * | 2016-01-21 | 2016-06-15 | 太原师范学院 | Mechanism is hit on electromagnetic drive formula top |
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CN106037255A (en) * | 2016-08-12 | 2016-10-26 | 衢州市江氏电子科技有限公司 | Romantic bar table |
CN107254901A (en) * | 2017-08-08 | 2017-10-17 | 曾翰进 | A kind of Household sewage conduit dredge |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4863588A (en) * | 1986-05-28 | 1989-09-05 | Herron Lindsay G | Riffle bars |
CN1039975A (en) * | 1988-07-31 | 1990-02-28 | 李建利 | Hydraulic peristaltic feeding leg for panning |
JPH1176858A (en) * | 1997-09-12 | 1999-03-23 | Kikoushiya:Kk | Method and apparatus for removing light substance mixed in aggregate |
CN203678519U (en) * | 2014-01-07 | 2014-07-02 | 湖北天工物新材料科技股份有限公司 | Circulating ore rinsing machine |
CN203944459U (en) * | 2014-06-26 | 2014-11-19 | 招远市招金金合科技有限公司 | A kind of novel adhesive tape filtration washing device |
CN205308777U (en) * | 2016-01-21 | 2016-06-15 | 太原师范学院 | Mechanism is hit on electromagnetic drive formula top |
CN105665121A (en) * | 2016-03-21 | 2016-06-15 | 上海耐可机械有限公司 | Multi-level beneficiation device and application thereof |
CN106037255A (en) * | 2016-08-12 | 2016-10-26 | 衢州市江氏电子科技有限公司 | Romantic bar table |
CN107254901A (en) * | 2017-08-08 | 2017-10-17 | 曾翰进 | A kind of Household sewage conduit dredge |
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Application publication date: 20190115 |