CN208161808U - A kind of gold mine grinding classification system - Google Patents
A kind of gold mine grinding classification system Download PDFInfo
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- CN208161808U CN208161808U CN201820230917.4U CN201820230917U CN208161808U CN 208161808 U CN208161808 U CN 208161808U CN 201820230917 U CN201820230917 U CN 201820230917U CN 208161808 U CN208161808 U CN 208161808U
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Abstract
A kind of gold mine grinding classification system, including primary grinding hierarchy system and secondary grinding hierarchy system are disclosed in the utility model, the primary grinding hierarchy system includes semi-autogenous mill, drum sieve, 1#Classification pump pond and Inspection graduation cyclone group, secondary grinding hierarchy system include ball mill, 2#Classification pump pond and control classifying cyclone group.The utility model is compared to an original screening process, reduce the sand return ratio of semi-autogenous mill, improve the sand return ratio of ball mill, part qualified material in semi-autogenous mill ore discharge enters flotation operation in advance, optimize the mill load of two stage grinding, ore milling product granularmetric composition is optimized, overground caused argillization problem is avoided, improves recovery rate in ore-dressing.
Description
Technical field
The utility model relates to gold mine technical field of beneficiation, in particular to a kind of gold mine grinding classification system.
Background technique
Gold is that the mankind have found and study earliest one of the noble metal used, since it has both finance, currency and commodity category
Property, gold is different from other metals as a kind of very important strategic mineral, becomes national long-term stability development and the people
Life is showing improvement or progress day by day essential valuable source.Due to the restriction of the existing gold mine technique of preparing in China, gold mine is caused to sort
Concentrate grade and the rate of recovery are still lower in the process, and gold ore resource part is caused to waste, and therefore, research was sorted for improving gold mine
The new method of concentrate grade and the rate of recovery in journey improves the utilization efficiency of gold ore resource, alleviates China's gold mine international shape in short supply
Gesture, it has also become the task of top priority of ore dressing work.So far flotation is still the most effective separation and concentration means of gold mine, and ore grinding conduct
One of indispensable process before flotation has great influence to the flotation of mineral.
Existing grinding classification system shares a cyclone group using two grinding machines, a classification pumps pond, and two
Grinding machine treated material enters classification pump pond, enters in ball mill through underflow of the cyclone fraction from after and carries out at fine grinding
Reason.Although this treatment process layout is simple, it is low that there are utilization rates of equipment and installations, and equipment treating capacity is lower and ore pulp argillization phenomenon is tight
The problems such as weight, the rate of recovery is relatively low.
Utility model content
Utility model aims to solve the above-mentioned technical problems in the prior art, after a kind of optimization is provided
Gold mine grinding classification system.
In order to solve the above technical problems, the utility model provides following technical scheme:
A kind of gold mine grinding classification system, including primary grinding hierarchy system and secondary grinding hierarchy system, described one section
Grinding classification system includes semi-autogenous mill, drum sieve, 1#Classification pump pond and Inspection graduation cyclone group, secondary grinding hierarchy system
Including ball mill, 2#Classification pump pond and control classifying cyclone group;
Raw ore in fine ore bin is delivered to semi-autogenous mill by raw ore belt feeder, and the ore discharge of semi-autogenous mill is arranged in drum sieve
At mouthful, 1#Classification pump pond is arranged below drum sieve, and chute, the chute other end connection are connected at the gape of drum sieve
To return conveyer machine, return conveyer machine is connected to raw ore belt feeder, and 1#Material in classification pump pond is pumped into inspection by Pulp pump
Classifying cyclone group is looked into, the sand sinking port of the Inspection graduation cyclone group is connected to ball mill, the overflow of Inspection graduation cyclone
Mouth is connected to flotation stirred tank;
The gape connection 2 of the ball mill#Classification pump pond, 2#Material in classification pump pond is pumped into control by Pulp pump
The overflow port of classifying cyclone group processed, the control classifying cyclone group is connected to flotation stirred tank, controls classifying cyclone group
Sand sinking port be connected to ball mill.
In above-mentioned technical proposal, further, the Inspection graduation cyclone group includes multiple cyclones, the cyclone
There are two overflow pipe, the discharge ports of one of overflow pipe to be connected to flotation stirred tank, the discharge port of another overflow pipe for upper setting
It is connected to the 2# classification pump pond of secondary grinding hierarchy system, is respectively arranged with valve on described two overflow pipes.
In above-mentioned technical proposal, further, the Inspection graduation cyclone group includes multiple cyclones, the cyclone
There are two overflow pipe, respectively overflow pipe one and overflow pipe two, overflow pipes two to be arranged in overflow pipe one through overflow pipe for upper setting
One feed inlet is extend into cyclone, and the discharge port of the overflow pipe one is connected to flotation stirred tank, the discharging of overflow pipe two
Mouth is connected to 2#Classification pumps pond, and the feed inlet of overflow pipe two is away from 1/ that the distance of sand sinking port is cyclone height in the cyclone
, the diameter of the overflow pipe two is the 1/2-2/3 of one diameter of overflow pipe.
In above-mentioned technical proposal, further, the control classifying cyclone group includes multiple cyclones, the cyclone
There are two overflow pipes, respectively overflow pipe one and overflow pipe two for upper setting, and overflow pipe two is arranged in overflow pipe one, through overflow pipe
One feed inlet is extend into cyclone, and the discharge port of the overflow pipe one is connected to flotation stirred tank, the discharging of overflow pipe two
Mouth is connected to 2#Classification pumps pond, and the feed inlet of overflow pipe two is away from 1/ that the distance of sand sinking port is cyclone height in the cyclone
, the diameter of the overflow pipe two is the 1/2-2/3 of one diameter of overflow pipe.
In above-mentioned technical proposal, further, the drum sieve feed inlet is connected on the flange of semi-autogenous mill discharge port;
The drum sieve screen size is (10~12) × (150~250) × (30~40) mm.
Compared with prior art, the utility model has the advantages that:
1) the utility model gold mine grinding classification system uses semi-autogenous mill ore discharge and is classified twice, in the row of semi-autogenous mill
Mine mouth is directly arranged drum sieve and sieves to the material after ore grinding, sieves mode compared to vibrating screen usually used at present,
Whole system topology layout is simpler, while improving the processing capacity of grinding machine in classification twice;
2) system uses asynchronous classification technique, handles compared to an original sieve classification, reduces semi-autogenous mill
Sand return ratio, while improving the sand return ratio of ball mill, the part qualified material in semi-autogenous mill ore discharge enters flotation work in advance
Industry optimizes the mill load of two stage grinding, optimizes ore milling product granularmetric composition, avoids overground caused argillization problem,
Improve recovery rate in ore-dressing.
Detailed description of the invention
Fig. 1 is the utility model grinding classification system structural schematic diagram.
Fig. 2 is hydrocyclone structure schematic diagram in Inspection graduation cyclone group in the utility model embodiment one.
Fig. 3 is Inspection graduation cyclone group and cyclone knot in control classifying cyclone group in the utility model embodiment two
Structure schematic diagram.
In figure:1, fine ore bin;2, raw ore belt feeder;3, return conveyer machine;4, semi-autogenous mill;5, drum sieve;6,1#Classification
Pump pond;7, chute;8, Inspection graduation cyclone group, 801, cyclone, 811, overflow pipe one, 812, overflow pipe two, 813, overflow
Pipe;9, ball mill;10,2#Classification pump pond;11, classifying cyclone group is controlled.
Specific embodiment
The utility model is further described combined with specific embodiments below, by embodiment to the utility model
Specific embodiment is explained in detail.
Embodiment one
As shown in Figure 1, one of the present embodiment gold mine grinding classification system, including two stage grinding hierarchy system, one section
Grinding classification system includes semi-autogenous mill 4, drum sieve 5,1#Classification pump pond 6 and Inspection graduation cyclone group 8, secondary grinding classification
System includes ball mill 9,2#Classification pump pond 10 and control classifying cyclone group 11.
Raw ore in fine ore bin 1 is delivered to semi-autogenous mill 4 by raw ore belt feeder 2, and drum sieve 5 is arranged in semi-autogenous mill 4
Gape at, 1#Classification pump pond 6 is arranged below drum sieve 5, and chute 7 is connected at the gape of drum sieve 5, and chute 7 is another
One end is connected to return conveyer machine 3, and return conveyer machine 3 is connected to raw ore belt feeder 2,1#Classification pump pond 6 is connected by Pulp pump
To Inspection graduation cyclone group 8, the sand sinking port of Inspection graduation cyclone group 8 is connected to ball mill 9, Inspection graduation cyclone 8
Overflow port is connected to flotation stirred tank.
The abrasive material and screening process of material are followed by drum sieve and semi-autogenous mill realization in primary grinding hierarchy system
Ring improves material size quality of the material before entering Inspection graduation cyclone group;Then pass through Inspection graduation cyclone group
One section of classification processing is carried out to material, the thin material isolated is discharged directly to flotation stirred tank through overflow port and carries out flotation behaviour
Make, the rough material isolated, which then enters in secondary grinding hierarchy system, to be handled, so first will be in primary grinding hierarchy system
Part qualified material separate, in advance enter flotation operation, so as to the mill of semi-autogenous mill in optimization system and ball mill
Machine load, and ore milling product Granularity material is optimized, improve grinding efficiency and quality.
Ball mill 9 carries out abrasive material processing, the row of ball mill 9 to the classification of classifying cyclone group on inspection treated rough material
Mine mouth is connected to 2#Classification pump pond 10, will treated that material drains into 2 by abrasive material#Classification pump pond, 2#Classification pump pond 10 passes through slag
Stock pump is connected to control classifying cyclone group 11, and the overflow port of control classifying cyclone group 11 is connected to flotation stirred tank, controls
The sand sinking port of classifying cyclone group 11 is connected to ball mill 9.In the present embodiment, the preferred overflowball mill of ball mill.Control point
Treated that material carries out classification processing to ball mill abrasive material for grade cyclone group, and thin material is expelled to flotation stirred tank through overflow port
Floating operation is carried out, the rough material isolated is again introduced into ball mill through sand sinking port and carries out abrasive material, circuits sequentially two sections of mills of realization
The closed cycle of material is handled.
Drum sieve is installed at the gape of semi-autogenous mill to treated that ore pulp carries out at screening through semi-autogenous mill ore grinding
Reason preferentially replaces the linear vibrating screen originally used using open drum sieve here.Semi-autogenous mill ore discharge will be originally mounted on
Arc iron remover at mouthful is removed, and drum sieve is mounted directly to the gape of semi-autogenous mill, the row of drum sieve and semi-autogenous mill
Mine mouth is directly connected to by ring flange.Permanent-magnetic iron expeller is set above return conveyer machine simultaneously, optimizes the structure cloth of system
Office.The material sieved in drum sieve enters 1#Classification pump pond, oversize enters chute, send through chute to return conveyer machine, so
It is delivered to by return conveyer machine and raw ore belt feeder and carries out regrinding processing in semi-autogenous mill, realize the primary grinding classification of material
Circular treatment.
Drum sieve is directly installed on the ring flange of semi-autogenous mill gape, and the diameter of drum sieve is according to semi-autogenous mill ore discharge
The ring flange size of mouth is configured, and drum sieve feed inlet is connected on the flange of semi-autogenous mill discharge port.Specifically, this implementation
The diameter of drum sieve is 1500mm in example, and length 3180mm, the size of drum sieve sieve pore is 12 × 200 × 30mm;It can meet
The demand of semi-autogenous mill ore discharge screening process in the grinding classification system.Open circle is directly connected in system on semi-autogenous mill
Shaft screen sieves mode compared to vibrating screen usually used at present, and whole system topology layout is simpler, while improving two
The processing capacity of semi-autogenous mill and ball mill abrasive material in secondary classification processing.
Inspection graduation cyclone group 8 includes multiple cyclones 801 in the present embodiment, such as Fig. 2, is arranged on the cyclone 801
There are two overflow pipe 813, the discharge port of one of overflow pipe 813 is connected to flotation stirred tank, the discharging of another overflow pipe 813
Mouth is connected to the 2 of secondary grinding hierarchy system#Classification pumps pond, is respectively arranged with valve on two overflow pipes 813.Work as Inspection graduation
When the overflow product fineness of cyclone meets the requirement of flotation operation, the valve being connected on the overflow pipe of flotation stirred tank is opened
Door, closes the valve on another overflow pipe, and cyclone overflow enters flotation stirred tank through overflow pipe and carries out flotation operation, underflow into
Enter ball mill to regrind.When grinding classification system breaks down or overhauls, the fineness of materials of cyclone overflow is not able to satisfy
Flotation operation requirement closes the valve being connected on the overflow pipe of flotation stirred tank, opens another overflow pipe by control valve
On valve, cyclone overflow is directly entered 2 through overflow pipe#Classification pump pond, is classified by controlling classifying cyclone group, into
One step improves the flexibility of grinding classification system, optimizes grinding grading technique.
The grind grading treatment process of base gold mine grinding classification system in this present embodiment, includes the following steps:
1) raw ore in fine ore bin is delivered in semi-autogenous mill through raw ore belt feeder and carries out ore grinding processing, through ore discharge after ore grinding
Mouth enters drum sieve, and drum sieve carries out screening process, and screenings enters 1#In classification pump pond, gape of the oversize through drum sieve
It is discharged into chute, oversize is re-introduced into through chute, return conveyer machine and raw ore belt feeder and carries out regrinding place in semi-autogenous mill
Reason, circuits sequentially;
2) pass through Pulp pump for 1#Ore pulp in classification pump pond is pumped into Inspection graduation cyclone group and carries out classification processing, examines
It looks into classifying cyclone group overflow and is directly entered flotation operation, the underflow of cyclone group carries out ore grinding processing from ball mill is flow to;It should
The specific trend of the overflow of Inspection graduation cyclone can also be determined according to the fineness of overflow in step, if the fineness of overflow meets
Flotation requires then to be directly entered flotation operation, enters 2 if the fineness of overflow is not able to satisfy flotation requirement#Classification pump pond, into
Enter to control classifying cyclone group and carry out classification processing, to improve recovery rate in ore-dressing;
3) through ball mill ore grinding, treated that ore pulp enters 2#Classification pump pond, by Pulp pump by 2#In classification pump pond
Ore pulp is pumped into control classifying cyclone group, and the overflow of control classifying cyclone group enters flotation operation, and underflow flow to ball milling certainly
It carries out regrinding processing in machine.
Embodiment two
The present embodiment and system structure in embodiment one are essentially identical, and difference is:
As shown in figure 3, Inspection graduation cyclone group 8 includes multiple cyclones 801 in the present embodiment, on the cyclone 801
There are two overflow pipe, respectively overflow pipe 1 and overflow pipe 2 812, overflow pipes 2 812 to be arranged in overflow pipe 1 for setting
The interior feed inlet through overflow pipe one is extend into cyclone, and the discharge port of overflow pipe 1 is connected to flotation stirred tank, overflow pipe
2 812 discharge port is connected to the 2 of secondary grinding hierarchy system#Classification pump pond, the sand sinking port of cyclone 801 are connected to ball milling
Machine.Two overflow pipes are set in the cyclone group cyclone, wherein the thin material after separating treatment is directly through overflow pipe one
Discharge port be discharged into floating operation, and then the sand sinking port through cyclone is discharged to ball mill and carries out abrasive material rough material.Overflow
The feed inlet of pipe 2 812 is extend into inside cyclone, and distance of two feed inlet of overflow pipe away from sand sinking port is cyclone in cyclone
The 1/5-1/4 of height, the diameter of overflow pipe 2 812 are the 1/2-2/3 of one 811 diameter of overflow pipe, overflow pipe two to sand sinking port at
Material separated again, the thin material being further separated out in material, prevent its entered in ball mill through sand sinking port and
Occur overground.The material that overflow pipe two is isolated enters 2#Classification pump pond carries out secondary separation through control classifying cyclone group
Processing, had both solved the problems, such as that material was overground, while ensure that 2 in this way#Classification pump pond enter control classifying cyclone group in-
The solid content of 200 mesh.
Preferably, in the present embodiment control classifying cyclone group in cyclone use in Inspection graduation cyclone group
The identical structure of used cyclone.Specifically, control classifying cyclone group 11 includes multiple cyclones 801, on cyclone 801
There are two overflow pipe, respectively overflow pipe 1 and overflow pipe 2 812, overflow pipes 2 812 to be arranged in overflow pipe 811 for setting,
Feed inlet through overflow pipe one is extend into cyclone, and the discharge port of overflow pipe 1 is connected to flotation stirred tank, overflow pipe two
812 discharge port is connected to 2#Classification pumps pond 10, and the feed inlet of overflow pipe 2 812 is eddy flow away from the distance of sand sinking port in cyclone
The 1/10-1/5 of device height, the diameter of overflow pipe 2 812 are the 1/2-2/3 of one 811 diameter of overflow pipe.
Wherein, Inspection graduation cyclone group is 150~250m to mine flow3/ h, ore feed pressure are 0.05~0.15MPa;
The cyclone group of FX400 × 4 can be used, according to the unlatching number of units of cyclone in flow control unit.Control classifying cyclone group is given
Mine flow is 600-650m3/ h, ore feed pressure 0.1-0.3MPa;FX400-GX-B × 6 can be used in control classifying cyclone group
Cyclone group can further improve the classification treatment effeciency and classification processing quality of system.
The grind grading treatment process of base gold mine grinding classification system in this present embodiment, includes the following steps:
1) raw ore in fine ore bin is delivered in semi-autogenous mill through raw ore belt feeder and carries out ore grinding processing, through ore discharge after ore grinding
Mouth enters drum sieve, and drum sieve carries out screening process, and screenings enters 1#In classification pump pond, gape of the oversize through drum sieve
It is discharged into chute, oversize is re-introduced into through chute, return conveyer machine and raw ore belt feeder and carries out regrinding place in semi-autogenous mill
Reason, circuits sequentially;
2) pass through Pulp pump for 1#Ore pulp in classification pump pond is pumped into Inspection graduation cyclone group and carries out classification processing, examines
It looks into classifying cyclone group overflow and is directly entered flotation operation, the underflow of cyclone group carries out ore grinding processing from ball mill is flow to;It should
In step, it is preferable that the isolated material of overflow pipe one on inspection in classifying cyclone group is directly entered flotation stirred tank dosing
After carry out flotation operation, then enter 2 through the isolated material of overflow pipe two#Classification pump pond, directly by control classifying cyclone group
Classification again is carried out to handle;The classifying capability that system can be advanced optimized by the processing step can effectively avoid monomer
The qualified material of dissociation enters overground problem caused by grind grading circulation, while can avoid floating caused by cyclone race slightly
Index is selected to reduce;
3) through ball mill ore grinding, treated that ore pulp enters 2#Classification pump pond, by Pulp pump by 2#In classification pump pond
Ore pulp is pumped into control classifying cyclone group, and the overflow of control classifying cyclone group enters flotation operation, and underflow flow to ball milling certainly
It carries out regrinding processing in machine;In the step, it is preferable that through the isolated material of cyclone overflow pipe one in control classifying cyclone group
Enter flotation after into flotation stirred tank dosing, controls in classifying cyclone group the isolated material of cyclone overflow pipe two then again
Enter 2#Classification pump pond;Secondary separation processing is carried out through control classifying cyclone group, had both solved that material is overground to ask in this way
Topic, while ensure that 2#Classification pump pond enters the solid content of -200 mesh in control classifying cyclone group.
Control control classifying cyclone is solid to -200 purposes in mine ore pulp in the utility model grind grading treatment process
Body content reaches 75% left side between 30%-45%, with the solid content of -200 mesh in the overflow of guarantee control classifying cyclone
The right side, to improve the recovery rate in ore-dressing of system.For the material content for guaranteeing -200 mesh in control classifying cyclone feed slurry, may be used also
It is realized by the filling rate of steel ball in control ball mill;Wherein the filling rate of steel ball is 28%-40% in ball mill.
Using the grinding classification system and grind grading treatment process in the utility model, one section of original classification is handled
It is changed to two section of two closed circuit grinding classification treatment process, semi-autogenous mill is respectively adopted and drum sieve forms one section of closed cycle, cylinder
The screenings of sieve enters Inspection graduation cyclone, forms two sections of closed cycles, optimization using ball mill and control classifying cyclone
The mill load of two stage grinding, optimizes ore milling product granularmetric composition, avoid it is overground caused by argillization problem, improve choosing
The mine rate of recovery.
Table 1 is using the comparison carried out between grinding classification system and original hierarchy system in the utility model:
1 the utility model of table and existing hierarchy system treatment effect compare
From table 1 it follows that ore grinding treating capacity improves 21.40%, ore dressing recycling using the system of the utility model
Rate improves 0.57% than before, and ore grinding steel consumption reduces 10.95%, and argillization problem has obtained very good solution, effectively improves
Utilization rate of equipment and installations, classification treatment process are more reasonable.
The specification of the utility model be considered as it is illustrative and not restrictive, on the basis of the utility model, this
According to disclosed technology contents, some of technical characteristics can be done field technical staff by not needing creative labor
Some replacements and deformation out, it is within the protection scope of the present utility model.
Claims (5)
1. a kind of gold mine grinding classification system, it is characterised in that:Including primary grinding hierarchy system and secondary grinding hierarchy system,
The primary grinding hierarchy system includes semi-autogenous mill, drum sieve, 1#Classification pump pond and Inspection graduation cyclone group, secondary grinding
Hierarchy system includes ball mill, 2#Classification pump pond and control classifying cyclone group;
Raw ore in fine ore bin is delivered to semi-autogenous mill by raw ore belt feeder, and the gape of semi-autogenous mill is arranged in drum sieve
Place, 1#Classification pump pond is arranged below drum sieve, chute is connected at the gape of drum sieve, the chute other end is connected to
Return conveyer machine, return conveyer machine are connected to raw ore belt feeder, and 1#Material in classification pump pond is pumped into inspection by Pulp pump
Classifying cyclone group, the sand sinking port of the Inspection graduation cyclone group are connected to ball mill, the overflow port of Inspection graduation cyclone
It is connected to flotation stirred tank;
The gape connection 2 of the ball mill#Classification pump pond, 2#Material in classification pump pond is pumped into control point by Pulp pump
Grade cyclone group, the overflow port of the control classifying cyclone group are connected to flotation stirred tank, and control classifying cyclone group is sunk
Sand mouth is connected to ball mill.
2. gold mine grinding classification system according to claim 1, it is characterised in that:The Inspection graduation cyclone group includes
Multiple cyclones, there are two overflow pipe, the discharge port of one of overflow pipe is connected to flotation stirring for setting on the cyclone
Slot, the discharge port of another overflow pipe are connected to the 2 of secondary grinding hierarchy system#Classification pumps pond, distinguishes on described two overflow pipes
It is provided with valve.
3. gold mine grinding classification system according to claim 1, it is characterised in that:The Inspection graduation cyclone group includes
Multiple cyclones, there are two overflow pipes, respectively overflow pipe one and overflow pipe two, overflow pipe two to be arranged for setting on the cyclone
In overflow pipe one, the feed inlet through overflow pipe one is extend into cyclone, and the discharge port of the overflow pipe one is connected to flotation
The discharge port of stirred tank, overflow pipe two is connected to 2#Classification pumps pond, and the feed inlet of overflow pipe two is away from sand sinking port in the cyclone
Distance be cyclone height 1/5-1/4, the diameter of the overflow pipe two is the 1/2-2/3 of one diameter of overflow pipe.
4. gold mine grinding classification system according to claim 3, it is characterised in that:The control classifying cyclone group includes
Multiple cyclones, there are two overflow pipes, respectively overflow pipe one and overflow pipe two, overflow pipe two to be arranged for setting on the cyclone
In overflow pipe one, the feed inlet through overflow pipe one is extend into cyclone, and the discharge port of the overflow pipe one is connected to flotation
The discharge port of stirred tank, overflow pipe two is connected to 2#Classification pumps pond, and the feed inlet of overflow pipe two is away from sand sinking port in the cyclone
Distance be cyclone height 1/10-1/5, the diameter of the overflow pipe two is the 1/2-2/3 of one diameter of overflow pipe.
5. gold mine grinding classification system according to claim 1, it is characterised in that:The drum sieve feed inlet is connected to half
On the flange of autogenous tumbling mill discharge port;The drum sieve screen size is (10~12) × (150~250) × (30~40) mm.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108927281A (en) * | 2018-02-09 | 2018-12-04 | 都兰金辉矿业有限公司 | A kind of gold mine grinding classification system and grind grading treatment process |
CN112473991A (en) * | 2020-11-23 | 2021-03-12 | 江西铜业集团东同矿业有限责任公司 | Novel semi-autogenous grinding one-stage closed circuit grinding production process |
-
2018
- 2018-02-09 CN CN201820230917.4U patent/CN208161808U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108927281A (en) * | 2018-02-09 | 2018-12-04 | 都兰金辉矿业有限公司 | A kind of gold mine grinding classification system and grind grading treatment process |
CN112473991A (en) * | 2020-11-23 | 2021-03-12 | 江西铜业集团东同矿业有限责任公司 | Novel semi-autogenous grinding one-stage closed circuit grinding production process |
CN112473991B (en) * | 2020-11-23 | 2022-01-14 | 江西铜业集团东同矿业有限责任公司 | Novel semi-autogenous grinding one-stage closed circuit grinding production process |
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