CN203061295U - Mineral separation unit - Google Patents

Mineral separation unit Download PDF

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Publication number
CN203061295U
CN203061295U CN 201220426482 CN201220426482U CN203061295U CN 203061295 U CN203061295 U CN 203061295U CN 201220426482 CN201220426482 CN 201220426482 CN 201220426482 U CN201220426482 U CN 201220426482U CN 203061295 U CN203061295 U CN 203061295U
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CN
China
Prior art keywords
mineral aggregate
coarse grain
outlet
screen cloth
ore dressing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 201220426482
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Chinese (zh)
Inventor
施灿光
欧艳芳
林天祥
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GUANGXI KESHENGDA MACHINERY MANUFACTURING Co Ltd
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GUANGXI KESHENGDA MACHINERY MANUFACTURING Co Ltd
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Priority to CN 201220426482 priority Critical patent/CN203061295U/en
Application granted granted Critical
Publication of CN203061295U publication Critical patent/CN203061295U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

The utility model discloses a mineral separation unit which comprises a machine frame (A3), a material inlet (A1) and a tailing outlet (A2). The mineral separation unit is characterized by comprising a mineral separation vibrating screen (A), a centrifugal separator (B) and a coarse grain mineral aggregate recycling device (C). The mineral separation unit utilizes three main screening devices to conduct screening on mineral aggregate, can effectively improve the recovery rate of the mineral aggregate, and can be applied to screening the mineral aggregate of gold ores, tin ores, silver ores and the like, and collection efficiency of the mineral aggregate can reach more than 93%.

Description

The ore dressing unit
Technical field
The utility model relates to the mineral aggregate screening installation, specifically, relates to a kind of ore dressing unit.
Background technology
At present in the mineral aggregate reclaimer, particularly in the gold retracting device, be divided into thin mineral aggregate and reclaim and coarse granule mineral aggregate retracting device, the fine grained mineral aggregate reclaims and mainly refers to reclaim diameter less than the mineral aggregate of 6mm, and coarse granule then refers to reclaim the mineral aggregate that diameter is 6mm~2cm.In the present fine grained mineral aggregate preparation equipment, gravity tabling equipment is arranged, it mainly is to carry out ore dressing by shaking to winnow with a dustpan, but this equipment is generally bulky, and the ore dressing poor effect, and adopt more oscillatory type ore separators in addition, but its ore dressing effect neither be very desirable.And in the fine grained mineral aggregate preparation equipment, gravity tabling equipment being arranged, it mainly is to carry out ore dressing by shaking to winnow with a dustpan, but this equipment is generally bulky, and the ore dressing poor effect, and adopt more oscillatory type ore separators in addition, but its ore dressing effect neither be very desirable.In addition, in the existing equipment, to whole mineral aggregate, shortcoming such as namely the equipment effect that reclaims simultaneously of thin mineral aggregate and coarse granule mineral aggregate is also undesirable, and they exist volume big, and screening effeciency is not high, and the screening precision is not enough.
In the mineral aggregate screening installation, we have retrieved following open source literatures, for example:
1, Chinese patent, application number: CN99251837.7, title: Ore dressing shaken skip, summary: a kind of Ore dressing shaken skip, it is made up of lathe, dustpan body and rocking bar, cabinet leg is half arc support, by metal bar and buried V-arrangement steel part relative fixed, sets up housing on the support before and after the support arcuate bottom center, lathe top three faces surround machine frame, but one side is established the door of switch, and the dustpan body is positioned on the housing, and rocking bar links to each other with the machine frame side.This Ore dressing shaken skip adopts and shakes the form of winnowing with a dustpan and carry out choosing of mineral aggregate, yet but because mineral aggregate does not possess viscosity, have common inertia with oversize rock material simultaneously, so this equipment to select thin mineral aggregate rate lower.
2, Chinese patent, application number: CN200510136067.9, title: large-sized energy-saving ore processing equipment and technology, summary: a kind of ore deposit optional equipment, by electromagnetic dressing tower control device dc excitation power soft opened encourage, the rotating speed of soft stop, constant excitation megnet current excitation and drive motors controls automatically; Also can implement centralized Control and scheduling by last microcomputer.According to the requirement of selected mineral magnetic property, electromagnetic dressing tower control device can be set the magnetic field intensity of electromagnetic dressing magnetic tower tray arbitrarily within the specific limits, and it is saturated to can reach magnetic circuit; Electromagnetic dressing magnetic tower tray is made up of magnetic circuit some, and each magnetic air gap evenly distributes on magnetic tower tray circumference, but this technological design complexity, difficult the use in the large-scale mine.
3, Chinese patent, application number: CN200510136067.9, title: preparation equipment, summary: a kind of ore deposit optional equipment, by electromagnetic dressing tower control device dc excitation power soft opened encourage, the rotating speed of soft stop, constant excitation megnet current excitation and drive motors controls automatically; Also can implement centralized Control and scheduling by last microcomputer.According to the requirement of selected mineral magnetic property, electromagnetic dressing tower control device can be set the magnetic field intensity of electromagnetic dressing magnetic tower tray arbitrarily within the specific limits, and it is saturated to can reach magnetic circuit; Electromagnetic dressing magnetic tower tray is made up of magnetic circuit some, and each magnetic air gap evenly distributes on magnetic tower tray circumference.This equipment is subjected to the damage of mineral aggregate easily because equipment is comparatively complicated, and therefore difficult applying in the complicated mining area directly moved. 
Summary of the invention
The purpose of this utility model provides a kind of ore dressing unit, at the weak point of existing mineral aggregate screening installation, can screen in all directions mineral aggregate to reach, thus the purpose of raising mineral aggregate screening effeciency.
Scheme of the present utility model is by such realization: construct a kind of ore dressing unit, comprise frame, charging aperture and tailing outlet, comprise the ore dressing vibratory sieve, centrifugal ore separator and coarse grain mineral aggregate retracting device three parts, described ore dressing is provided with coarse grain mineral aggregate screen cloth and particulate mineral aggregate screen cloth with layering from top to bottom in the vibratory sieve, described coarse grain mineral aggregate screen bottom is communicated with the outlet of coarse grain mineral aggregate, particulate mineral aggregate screen bottom is communicated with the outlet of particulate mineral aggregate, described charging aperture and tailing outlet are arranged on the two ends that vibratory sieve is used in ore dressing, and all are arranged on the top of coarse grain mineral aggregate screen cloth; Particulate mineral aggregate entrance on the described centrifugal ore separator is connected with the outlet of particulate mineral aggregate, and the rough material entrance on the described coarse grain mineral aggregate retracting device is connected with the outlet of coarse grain mineral aggregate.
Operation principle of the present utility model is: this ore separators component is three parts, it is mining vibratory sieve, centrifugal ore separator and coarse grain mineral aggregate retracting device three parts, by coarse grain mineral aggregate screen cloth and particulate mineral aggregate screen cloth are set at mining vibratory sieve, mineral aggregate is carried out the category filter of mine tailing, coarse grain mineral aggregate and particulate mineral aggregate.When mineral aggregate was imported mining vibratory sieve from charging aperture, tailing can't pass through from coarse grain mineral aggregate screen cloth, was excluded from the tailing outlet subsequently; Coarse grain mineral aggregate and particulate mineral aggregate namely behind the coarse grain mineral aggregate screen cloth, can't import in the coarse grain mineral aggregate retracting device from the outlet of coarse grain mineral aggregate by the coarse grain mineral aggregate of coarse grain mineral aggregate screen cloth by the ground floor screen cloth, carry out the screening of coarse grain mineral aggregate; And the mineral aggregate that passes through in the particulate mineral aggregate screen cloth directly enters into the screening that centrifugal ore separator carries out the particulate mineral aggregate from the outlet of particulate mineral aggregate, finally by two-layer screening, makes the purpose that valuable rock in the mineral aggregate separates with waste material.
In the utility model, above-described centrifugal ore separator comprises housing, motor, particulate ore deposit entrance, the rotating shaft of hollow, interior cover and overcoat, described rotating shaft is fixedlyed connected with interior cover, and described particulate ore deposit entrance is communicated with interior cover, and described overcoat and housing form the tailing storehouse, interior cover upper outlet is connected with the tailing storehouse, and bottom, tailing storehouse also is provided with the slag charge outlet; Described overcoat and interior cover form the storehouse of selecting materials, select materials storehouse bottom is provided with the storehouse outlet of selecting materials, put the groove that is provided with spiral distribution in described, be provided with sedimentation hole between the described groove, described sedimentation hole is communicated with the storehouse of selecting materials, also be provided with the recoil water pipe in the described rotating shaft, the recoil water pipe is provided with the head that sprays water with high pressure at Nei Taochu.By interior putting spiral distribution groove and sedimentation hole being set, the power of utilizing the rotation of the gravity of mineral aggregate and interior cover to produce is carried out sub-material; Mineral aggregate enters at interior cover high speed rotary course from particulate ore deposit entrance, and mineral aggregate finally flows out from the storehouse outlet of selecting materials because the centrifugal force that overlaps in being subjected to is close to the groove motion, and the less particulate mineral aggregate of particle is thrown out of from sedimentation hole and enters into the storehouse of selecting materials subsequently; And thick bigger tailing of particle enters into the tailing storehouse from interior cover upper outlet, from the tailing outlet, flow out, the final purpose that arrives thin mineral aggregate ore dressing, as further improvement, also be provided with the recoil water pipe on the described housing, the described water pipe that also recoils communicates with interior cover, described recoil water pipe is provided with the head that sprays water with high pressure at Nei Taochu, can further mineral aggregate be cleaned, make current produce certain impulse force simultaneously, can be brought in the screen cloth of different layers by the impulse force of current and gravity to guarantee dissimilar mineral aggregates.
In the utility model, above-described coarse grain mineral aggregate retracting device comprises rough material entrance, roughly go into feed bin, conveying pipeline and collecting board, every corresponding collecting board of conveying pipeline, one end of described conveying pipeline is gone into feed bin and is connected with rough, the other end is connected with collecting board, described collecting board is provided with collecting net, described collecting board has one at least, the sub-material mouth place of collecting board is equipped with gate and weight induction device, described collecting net bottom is equipped with the gravity sensing plate, described weight induction device is connected with corresponding gravity sensing plate with corresponding gate respectively by control circuit, the mineral aggregate that will have coarse sizing to cross, go into access to plant in the feed bin from rough, enter on the collecting board again from conveying pipeline subsequently, coarse grained mineral aggregate is because weight is heavy than other assorted material, therefore all fall in the collecting net, all the other assorted material then are brought into outside the collecting board, as further improvement, by the gravity sensing plate is set under collecting net, make the gold weight that the weight induction device can be collected according to collecting net, control closing of corresponding gate, treat that the staff finishes the collection of the mineral aggregate on the collecting net, when laying back on the collecting board again, can be with the gate manual unlocking, continuation is collected mineral aggregate, and a plurality of collecting boaries then can need not interrupt the operation of other complete machines so that whole collection process continuity is stronger.
In the utility model, as further improvement, described frame top also is provided with high pressure water jet pipe, the water under high pressure that ejects by high pressure water jet pipe, can further mineral aggregate be cleaned, make current produce certain impulse force simultaneously, can be brought in the screen cloth of different layers by the impulse force of current and gravity to guarantee dissimilar mineral aggregates.
In the utility model, as further improvement, cover one-tenth reverse frustoconic wide at the top and narrow at the bottom in described, described sedimentation hole becomes 45~60 degree angles with groove, the pore size of described sedimentation hole is 1mm~5mm, the interior cover of reverse frustoconic, can be so that mineral aggregate be when rotating in the groove of interior cover, has stronger climbing power, finally reach the purpose of separating tailing and thin mineral aggregate, and sedimentation hole becomes 45~60 degree angles with groove, can better make thin mineral aggregate can utilize making a concerted effort of gravity and centrifugal force, falls into the storehouse of selecting materials along sedimentation hole.
In the utility model, as further restriction, the spacing mesh spacing of described collecting net is 6mm~2cm, and the grid of this distance can meet the needs of collecting the coarse grain mineral aggregate.The aperture of described coarse grain mineral aggregate screen cloth is 6mm~1cm, and the pore size of particulate mineral aggregate screen cloth is 2mm~6mm.As preferred version, described collecting board is 5.
Outstanding substantive distinguishing features and the marked improvement of the utility model is:
1. the utility model adopts three main screening plants that mineral aggregate is screened, and can effectively improve the rate of recovery of mineral aggregate, and this ore dressing unit can use and screen mineral aggregates such as gold mine, tin ore, silver ore, and the mineral aggregate collection rate is up to more than 93%.
2. in the utility model, ore dressing is adopted many mesh structures with vibratory sieve, can effectively mineral aggregate be classified, and with water under high pressure as cleansing medium, and the flow direction that drives mineral aggregate effectively raises the sifting sort of mineral aggregate.
3. in the utility model, centrifugal ore separator adopts the groove of spiral distribution, and the rotary centrifugal force of cover can effectively reach the purpose of screening thin mineral aggregate in cooperating; The centrifugal separation motor spindle is provided with the recoil water pipe, and water dashes the recoil water that the recoil water pipe is taken out of, can mix with mineral aggregate, and mix with mineral aggregate, in ore dressing process, mineral aggregate is taken out of in the body, improves beneficiating efficiency.
4. in the utility model, coarse grain mineral aggregate retracting device utilizes collecting net that mineral aggregate is collected, and is convenient and swift, can effectively mineral aggregate be collected immediately; Adopt gate and weight induction device with the collection work of control mineral aggregate, thereby make that whole collection process continuity is stronger, avoid the foreign material secondary to mix.
5. the utility model is simple in structure, and is easy to operate, and cost of manufacture is low, is convenient to promote.
Description of drawings
Fig. 1 is the structural representation of the utility model ore dressing unit;
Fig. 2 is the structural representation that vibratory sieve A is used in ore dressing in the utility model;
Fig. 3 is the structural representation that screen cloth among the vibratory sieve A is used in ore dressing in the utility model;
Fig. 4 is the structural representation of centrifugal ore separator B in the utility model;
Fig. 5 is the structural representation of coarse grain mineral aggregate retracting device C in the utility model;
Fig. 6 is the structural representation of collecting board in the utility model.
Parts title and sequence number among the figure:
Ore dressing vibratory sieve A:
Charging aperture A1, tailing outlet A2, frame A3, oscillator A4, high pressure water jet pipe A5, coarse grain mineral aggregate screen cloth A6, particulate mineral aggregate screen cloth A7, vibrations spring A8, high-pressure hydraulic pump A9, coarse grain mineral aggregate outlet A10, particulate mineral aggregate outlet A11.
Centrifugal ore separator B:
Housing B1, motor B2, particulate mineral aggregate entrance B3, rotating shaft B4, interior cover B5, overcoat B6, interior cover upper outlet B7, slag charge outlet B8, select materials storehouse outlet B9, groove B10, sedimentation hole B11, recoil water pipe B12, a B13 sprays water with high pressure;
Tailing storehouse B14, storehouse B15 selects materials;
Coarse grain mineral aggregate retracting device C:
Rough material entrance C1, roughly go into feed bin C2, conveying pipeline C3, weight induction device C4, gate C5, sub-material mouth C6, collecting net C7, collecting board C8, gravity sensing plate C9.
The specific embodiment
Below in conjunction with drawings and Examples the utility model ore dressing unit is described.
Embodiment 1:
As Fig. 1, this ore dressing unit, mining vibratory sieve A, centrifugal ore separator B and coarse grain mineral aggregate retracting device C three big parts.This is mining vibratory sieve A, comprise charging aperture A1, tailing outlet A2 and frame A3, charging aperture A1 and tailing outlet A2 are arranged on the two ends of frame A3, oscillator A4 is installed in the top of frame A3, vibrations spring A8 is installed in the side locations of frame A3, coarse grain mineral aggregate screen cloth A6 and particulate mineral aggregate screen cloth A7 are stratified and set in the frame A3 up and down successively, coarse grain mineral aggregate screen cloth A6 bottom is communicated with coarse grain mineral aggregate outlet A10, particulate mineral aggregate screen cloth A7 bottom is communicated with particulate mineral aggregate outlet A11, the top of frame A3 also is provided with high pressure water jet pipe A5, high pressure water jet pipe A5 is connected with high-pressure hydraulic pump A9, wherein, the aperture of coarse grain mineral aggregate screen cloth A6 is 6mm, the pore size of particulate mineral aggregate screen cloth A6 is 2mm, centrifugal ore separator B particulate mineral aggregate entrance B3 is connected with particulate mineral aggregate outlet A11, and the rough material entrance C1 on the coarse grain mineral aggregate retracting device C is connected with coarse grain mineral aggregate outlet A10.
Centrifugal ore separator B, comprise housing B1 and motor B2, interior cover B5 and overcoat B6 are installed in housing B1 inside, the rotating shaft B4 of hollow is fixedlyed connected with interior cover B5, and particulate mineral aggregate entrance B3 is communicated with interior cover B5, and overcoat B6 and housing B1 form tailing storehouse B14, interior cover upper outlet B7 is communicated with tailing storehouse B14, B14 bottom in tailing storehouse also is provided with slag charge outlet B8, and overcoat B6 and interior cover B5 form the storehouse B15 that selects materials, and the storehouse B15 bottom of selecting materials is provided with the storehouse outlet B9 that selects materials.Wherein, interior cover B5 one-tenth reverse frustoconic wide at the top and narrow at the bottom, interior cover B5 is provided with the groove B10 of spiral distribution, be provided with sedimentation hole B11 between the groove B10, sedimentation hole B11 is communicated with the storehouse B15 that selects materials, sedimentation hole B11 and groove B10 in angle of 45 degrees, the aperture of sedimentation hole B11 is 1mm.Also be provided with recoil water pipe B12 in the rotating shaft B4, overlap among the B5 in a B13 that sprays water with high pressure of recoil water pipe B12 head is arranged on.
Coarse grain mineral aggregate retracting device C, comprise rough material entrance C1 and the rough feed bin C2 of going into, and five conveying pipeline C3 and five collecting board C8, every corresponding collecting board C8 of a conveying pipeline C3, the end of conveying pipeline C3 is gone into feed bin C2 and is connected with rough, the other end is connected with collecting board C8, the sub-material mouth C6 place of collecting board C8 is equipped with gate C5 and weight induction device C4, also be provided with collecting net C7 on the collecting board C8, collecting net C7 bottom also is provided with gravity sensing plate C9, weight induction device C4 is connected with corresponding gravity sensing plate C9 with corresponding gate C5 respectively by control circuit, and the spacing mesh spacing of collecting net C7 is 6mm.
During operation, mineral aggregate is imported the ore dressing unit from charging aperture A1, in the mineral aggregate, diameter can't enter the mesh of coarse grain mineral aggregate screen cloth A6 greater than the tailing of 6mm, directly discharges from tailing outlet A2, and diameter passes the coarse grain mineral aggregate screen cloth A6 of ground floor less than the mineral aggregate of 6mm, diameter can't enter particulate mineral aggregate screen cloth A7 less than 6mm greater than the rough material of 2mm, and directly enters into coarse grain mineral aggregate retracting device C from coarse grain mineral aggregate outlet A10, carries out the screening of rough material.And diameter passes particulate mineral aggregate screen cloth A7 less than the thin mineral aggregate of 2mm, enters into centrifugal ore separator B by particulate mineral aggregate outlet A11 and carries out thin mineral aggregate screening.
Thin mineral aggregate is in centrifugal ore separator B, motor B2 drives rotating shaft B4 and rotates, interior cover B5 is done circumference by drive thereupon and rotates, overlap among the B5 in water sprays into from a B13 that sprays water with high pressure, after overlapping B5 in thin mineral aggregate enters, mix with water, after mineral aggregate and water are subjected to action of centrifugal force, mineral aggregate is got rid of to groove B10 limit, and along with the groove B10 of spiral distribution moves upward, in the motion, diameter then is dumped into the storehouse B15 that selects materials less than the thin mineral aggregate of 1mm from sedimentation hole 11, and flows out centrifugal ore separator from the storehouse outlet B9 that selects materials; And diameter then is dumped into from interior cover upper outlet 7 among the B15 of tailing storehouse greater than the slag charge of 1mm, and flows out from slag charge outlet B8, finally reaches the purpose of the thin mineral aggregate of screening.
Rough material is in coarse grain mineral aggregate retracting device C, rough material is rough goes in the feed bin C2, mineral aggregate enters into five collecting board C8 from each conveying pipeline C3, because the metallic ore gravity in the mineral aggregate is bigger, therefore the mineral aggregate about diameter 6cm can fall into collecting net C7, and all the other foreign material are rushed out beyond the collecting board C8.When one of them collecting board B8 goes up mineral aggregate that collecting net C7 collects and reaches full material state, because collecting net C7 weight increases to certain numerical value, gravity sensing plate C9 in collecting net C7 bottom senses corresponding weight, signal is sent on the weight induction device C4 by control line, weight induction device C4 regulating gate C5 closes, this collecting board B8 stops to carry out the mineral aggregate collection work, and all the other collecting board C8 continue operation, after treating that the staff will expect completely that mineral aggregate on the collecting board C8 of state is removed, gate C8 that should correspondence can be opened, proceed the mineral aggregate collection work.
Embodiment 2:
Difference from Example 1 is, the aperture of described coarse grain mineral aggregate screen cloth 10 is 1cm, and the pore size of particulate mineral aggregate screen cloth is 5mm, the aperture of sedimentation hole 11 is 5mm, the spacing mesh spacing of this collecting net 7 is 2cm, collecting board C8 has 6, and sedimentation hole B11 becomes 60 degree angles with groove B10, and remaining operation principle is identical with embodiment 1.

Claims (7)

1. ore dressing unit, comprise frame (A3), charging aperture (A1) and tailing outlet (A2), it is characterized in that: comprise ore dressing vibratory sieve (A), centrifugal ore separator (B) and coarse grain mineral aggregate retracting device (C) three parts, described mining vibratory sieve (A) top is provided with oscillator (A4), described ore dressing is provided with coarse grain mineral aggregate screen cloth (A6) and particulate mineral aggregate screen cloth (A7) with layering from top to bottom in the vibratory sieve (A), described coarse grain mineral aggregate screen cloth (A6) bottom is connected with coarse grain mineral aggregate outlet (A10), particulate mineral aggregate screen cloth (A7) bottom is connected with particulate mineral aggregate outlet (A11), described charging aperture (A1) and tailing outlet (A2) are arranged on the two ends that vibratory sieve (A) is used in ore dressing, and all are arranged on the top of coarse grain mineral aggregate screen cloth (A6); Particulate mineral aggregate entrance (B3) on the described centrifugal ore separator (B) is connected with particulate mineral aggregate outlet (A11), and the rough material entrance (C1) on the described coarse grain mineral aggregate retracting device (C) is connected with coarse grain mineral aggregate outlet (A10).
2. ore dressing unit according to claim 1, it is characterized in that: described centrifugal ore separator (B) comprises housing (B1), motor (B2), particulate ore deposit entrance (B3), the rotating shaft of hollow (B4), interior cover (B5) and overcoat (B6), described rotating shaft (B4) is fixedlyed connected with interior cover (B5), described particulate ore deposit entrance (B3) is communicated with interior cover (B5), described overcoat (B6) forms tailing storehouse (B14) with housing (B1), interior cover upper outlet (B7) is connected with tailing storehouse (B14), and tailing storehouse (B14) bottom also is provided with slag charge outlet (B8); Described overcoat (B6) forms the storehouse (B15) of selecting materials with interior cover (B5), select materials storehouse (B15) bottom is provided with the storehouse outlet (B9) of selecting materials, cover (B5) is provided with the groove (B10) of spiral distribution in described, be provided with sedimentation hole (B11) between the described groove (B10), described sedimentation hole (B11) is communicated with the storehouse of selecting materials (B15), also be provided with recoil water pipe (B12) in the described rotating shaft (B4), described recoil water pipe (B12) locates to be provided with the head (B13) that sprays water with high pressure at interior cover (B5).
3. ore dressing unit according to claim 1, it is characterized in that: described coarse grain mineral aggregate retracting device (C) comprises rough material entrance (C1), roughly go into feed bin (C2), conveying pipeline (C3) and collecting board (C8), the corresponding collecting board (C8) of every conveying pipeline (C3), one end of described conveying pipeline (C3) is gone into feed bin (C2) and is connected with rough, the other end is connected with collecting board (C8), described collecting board (C 8) is provided with collecting net (C 7), described collecting board (C 8) has one at least, the sub-material mouth (C 6) of collecting board (C 8) locates to be equipped with gate (C 5) and weight induction device (C 4), described collecting net (C 8) bottom is equipped with gravity sensing plate (C 9), and described weight induction device (C 4) is connected with corresponding gravity sensing plate (C 9) with corresponding gate (C 5) respectively by control circuit.
4. according to the arbitrary described ore dressing unit of claim 1-3, it is characterized in that: described frame (A3) top also is provided with high pressure water jet pipe (A5).
5. ore dressing unit according to claim 4 is characterized in that: cover (B5) one-tenth reverse frustoconic wide at the top and narrow at the bottom in described, and described sedimentation hole (B11) becomes 45~60 to spend angles with groove (B10), and the pore size of described sedimentation hole (B11) is 1mm~5mm.
6. ore dressing unit according to claim 4, it is characterized in that: the spacing mesh spacing of described collecting net (C7) is 6mm~2cm, described collecting board (C8) is 5.
7. ore dressing unit according to claim 4, it is characterized in that: the aperture of described coarse grain mineral aggregate screen cloth (A6) is 6mm~1cm, the pore size of particulate mineral aggregate screen cloth (A7) is 2mm~6mm.
CN 201220426482 2012-08-27 2012-08-27 Mineral separation unit Expired - Fee Related CN203061295U (en)

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Application Number Priority Date Filing Date Title
CN 201220426482 CN203061295U (en) 2012-08-27 2012-08-27 Mineral separation unit

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102784725A (en) * 2012-08-27 2012-11-21 广西科晟达机械制造有限公司 Beneficiation machine set

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102784725A (en) * 2012-08-27 2012-11-21 广西科晟达机械制造有限公司 Beneficiation machine set

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130717

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