CN104591574A - Equipment and process for producing tailing micro powder, dry-mixed mortar and filling cementing material - Google Patents
Equipment and process for producing tailing micro powder, dry-mixed mortar and filling cementing material Download PDFInfo
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- CN104591574A CN104591574A CN201510034557.1A CN201510034557A CN104591574A CN 104591574 A CN104591574 A CN 104591574A CN 201510034557 A CN201510034557 A CN 201510034557A CN 104591574 A CN104591574 A CN 104591574A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W30/00—Technologies for solid waste management
- Y02W30/50—Reuse, recycling or recovery technologies
- Y02W30/91—Use of waste materials as fillers for mortars or concrete
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Abstract
The equipment for producing the tailing micro powder, the dry-mixed mortar and the filling cementing material comprises a raw material warehouse and a drying system, wherein the drying system is connected with a first sorting system, a medium sand outlet of the first sorting system leads to the medium sand warehouse, a fine material outlet leads to a grinding machine, the grinding machine is connected with a second sorting system, a fine sand outlet of the second sorting system leads to the fine sand warehouse, and a tailing powder outlet leads to a tailing powder warehouse; the tailing powder warehouse, the medium sand warehouse, the fine sand warehouse and the dry-mixed mortar mother material warehouse are connected with a first activation system, and the first activation system is communicated to a dry-mixed mortar finished product warehouse; the tailing powder warehouse and the filling cementing mother material warehouse are connected with a second activation system, and the second activation system is communicated to the filling cementing material finished product warehouse; the tailing powder warehouse is connected with a third activation system, and an outlet of the third activation system is communicated to the tailing micro-powder finished product warehouse. The method also comprises a process corresponding to the equipment, which is used for simultaneously producing the tailing micro powder, the dry-mixed mortar and the filling cementing material.
Description
Technical field
The present invention relates to a kind of production equipment and process mine tailing, barren rock again utilized, specifically the instrument and supplies of a kind of mine tailing, barren rock production tailing micro-powder, dry-mixed mortar and filling agglutinate.
Background technology
Mine tailing and barren rock are all the waste materials produced in Industrial processes, under existing technical qualification, are difficult to use further again.Owing to lacking effective Application way, these mine tailings and barren rock carry out piling up process more, if things go on like this occupy a large amount of salvage stores, and accumulate over a long period and penetrate into underground, also can cause pollute greatly and potential safety hazard environment, underground water.But often containing the component can making other purposes in these mine tailings and barren rock, is have precious deposits to be excavated.Develop and use a large amount of mine tailings, the barren rock shelved for a long time to become and solve China's mining industry Current resource and make full use of and the important channel of problem of preserving the ecological environment.
Existing mine tailing and barren rock are produced glasswork, refractory materials, ceramic, inorganic artificial marble mainly as non-active material and are produced cement clinker and materials for wall, in such applications, often there is the various defects such as quality instability, high cost, loaded down with trivial details, the easy generation secondary pollution of technique.Special in the production of material of construction, only have calcium aluminium matter mine tailing to apply to preferably in cement as blended material.But because the chemical composition of mine tailing and mineral composition variation range are comparatively large, it is the most suitable that tailings material replaces the cement of less than 5% to be used as material of construction, and its utility value is lower, and this value making mine tailing real could not find full expression.In addition, traditional dry-mixed mortar and filling agglutinate all by independently production line production, and need finished aggregate and a large amount of masterbatch as raw material, and its material cost is higher, and the energy consumption of whole production line is high, and production cost is also higher.Owing to containing a large amount of silicate component in the waste material such as mine tailing, barren rock, its hardness is comparatively large, is difficult to form micro mist by grinding, brings difficulty to the production of tailing micro-powder.
Summary of the invention
The invention provides and produce the instrument and supplies of tailing micro-powder, dry-mixed mortar and filling agglutinate, its object is to solve the problem of recycling of mine tailing, barren rock.
Produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate, comprise raw material silo, this raw material silo is connected to the updrift side of drying system, the downstream direction of this drying system is connected with the first separation system, this first separation system is provided with medium sand outlet and thin material outlet, wherein middle sand storage is led in medium sand outlet, thin material outlet leads to grinding machine, this grinding machine is connected to the second separation system, this second separation system is provided with fine sand outlet and mine tailing outlet, fine sand storehouse is led in described fine sand outlet, and mine tailing storehouse is led in mine tailing outlet; The dry-mixed mortar masterbatch storehouse that described mine tailing storehouse, middle sand storage, fine sand storehouse and store dry-mixed mortar masterbatch is connected the first activation system by the first delivery system, and the discharge port of this first activation system is communicated to dry-mixed mortar stockyard; The Filling Cementation masterbatch storehouse that described mine tailing storehouse and stores Filling Cementation masterbatch is connected the second activation system by the second delivery system, and the discharge port of this second activation system is communicated to fills agglutinate stockyard; Described mine tailing storehouse connects the 3rd activation system by the 3rd delivery system, and the outlet of the 3rd activation system is to tailing micro-powder stockyard.
Further, described raw material silo comprises sand storage and mine tailing raw material cabin in barren rock; In this barren rock, sand storage upstream is connected with barren rock sand system, this barren rock sand system comprises feeding machine, the sand machine processed be connected with this feeding machine, the discharge port of this sand machine processed is connected with screening plant, this screening plant is provided with the outlet of barren rock coarse sand and the outlet of barren rock medium sand, wherein the opening for feed of sand machine processed is led in the outlet of barren rock coarse sand, and the outlet of barren rock medium sand is connected to a sand washer, and this sand washer is connected with sand storage in described barren rock.
Further, described first separation system is trommel screen, and described second separation system is wind screen system.
Further, described grinding machine is energy-conservation mill, comprise tumbling barrel base, the tumbling barrel be located on tumbling barrel base, the grinding element be located in tumbling barrel, the high-frequency grinder vibrator driving tumbling barrel vibration and low frequency grinding machine vibrator and Controlling System, described tumbling barrel is hung on grinding machine outer support by grinding machine elastic mechanism, and is provided with grinding machine cushion plate between this tumbling barrel and tumbling barrel base; Be provided with in this tumbling barrel and be vertically placed with some laminates, every block laminate is evenly laid with feed opening, and the feed opening of upper strata laminate is greater than the feed opening of lower floor's laminate, in the space above every block laminate, be all filled with grinding element.
Further, described first, second, and third activation system respectively comprises an activating chamber and is connected to the activator container of activating chamber; Activator container wherein in first, second, and third activation system is respectively dry-mixed mortar activator container, Filling Cementation activator container and tailing micro-powder activator container; Described activating chamber hang on activating chamber's outer support by activating chamber's elastic mechanism, and this activating chamber is connected on activating chamber's base by activating chamber's cushion plate, described activating chamber be provided with for atomized activating dose atomisation unit and in activating chamber, input the microwave launcher of microwave, described activator container is connected with activating chamber by atomisation unit, is provided with high frequency activated vibration device and low frequency activated vibration device bottom activating chamber.
Further, also deferrization magnetic separator is connected with between described drying system and the first separation system.
Produce the technique of tailing micro-powder, dry-mixed mortar and filling agglutinate, its step is as follows:
(1) barren rock is made barren rock medium sand and mine tailing carries out drying and processing and deironing process jointly;
(2) the barren rock medium sand after drying, deironing process and mine tailing sub-elect medium sand and fine material by the first separation system, and wherein medium sand enters middle sand storage, and fine material enters grinding machine and grinds;
(3) described fine material sub-elects fine sand and mine tailing by the second separation system after grinding, and wherein fine sand enters fine sand storehouse, and mine tailing enters mine tailing storehouse;
(4) fine sand in the medium sand in middle sand storage, fine sand storehouse, the mine tailing in mine tailing storehouse and dry-mixed mortar masterbatch are added in activation system jointly as mixture A, this mixture A adsorbs the dry-mixed mortar activator after atomization under the irradiation of microwave, obtains dry-mixed mortar finished product;
(5) mine tailing in the fine sand in fine sand storehouse, mine tailing storehouse and Filling Cementation masterbatch are jointly added in activation system as mixture B, this mixture B adsorbs the Filling Cementation activator after atomization under the irradiation of microwave, obtains filling agglutinate finished product;
(6) add in activation system by the mine tailing in mine tailing storehouse, this mine tailing is subject to the irradiation of microwave, adsorbs the tailing micro-powder activator after atomization, obtains tailing micro-powder finished product;
(7) respectively the dry-mixed mortar finished product in step (4), (5), (6), filling agglutinate finished product and tailing micro-powder finished product are exported.
Further, the process that barren rock obtains barren rock medium sand by barren rock sand process is, first by barren rock through sand crusher machine sand processed, then to sieve, wherein barren rock coarse sand reenters in sand machine processed and carries out fragmentation again, and barren rock medium sand obtains barren rock medium sand finished product after washed-out sand process.
Further, the fine material in described step (2) carries out layering grinding under high and low frequency superpositing vibration, and the mixture A in step (4), (5), (6), mixture B and mine tailing all activate under high and low frequency superpositing vibration.
What the present invention collected tailing micro-powder, dry-mixed mortar and filling agglutinate is produced in a production line, to greatest extent mine tailing and barren rock are utilized, both solved mine tailing, barren rock utilize a difficult problem, again reduce the production cost of the material of construction such as dry-mixed mortar, improve production efficiency, reduce energy consumption.The present invention is by carrying out separating treatment to the medium sand in mine tailing, barren rock, fine sand, reach the object rejecting the larger silicate component of hardness, the material containing compositions such as Ca, Mg is enable to be ground into the less mine tailing of granularity, medium sand larger for isolated granularity, fine sand are mixed obtained dry-mixed mortar finished product as aggregate with tailing micro-powder, also produce simultaneously and obtain filling agglutinate finished product and tailing micro-powder finished product, make whole compositions of mine tailing and barren rock all obtain fully and reasonably utilize.By energy-conservation mill in the present invention, the grinding of high and low frequency superpositing vibration is carried out to material, mill efficiency is promoted greatly; Under high and low frequency superpositing vibration state, adopt microwave activation system to carry out activation treatment to mixture, enable material uniform adsorption activator, activation effect is good, and efficiency is high simultaneously; In addition, the activating chamber in the tumbling barrel of this energy-conservation mill and activation system, all adopts hanging design, by changing force way, significantly reduces energy consumption.In sum, the present invention fully utilizes mine tailing, barren rock is produced while carrying out multiple product, and reasonable in design, invest little, energy consumption is low, and efficiency is high.
Accompanying drawing explanation
Fig. 1 is technological process of production block diagram of the present invention.
Fig. 2 is production technological process of the present invention.
Fig. 3 is the schematic diagram of mill energy-conservation described in the present invention.
Fig. 4 is the schematic diagram of the tumbling barrel internal structure of mill energy-conservation described in the present invention.
Fig. 5 is the schematic diagram of activation system described in the present invention.
Embodiment
The specific embodiment of the present invention is as follows:
See figures.1.and.2, produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate, one oscillating feeder 20 is connected with sand machine 21 opening for feed processed, the discharge port of this sand machine 21 processed is connected with vibratory screening apparatus 22, this vibratory screening apparatus 22 is provided with the outlet of barren rock coarse sand and the outlet of barren rock medium sand, wherein the opening for feed of sand machine 21 processed is led in the outlet of barren rock coarse sand, and the outlet of barren rock medium sand is connected to a sand washer 23, and this sand washer 23 is connected with sand storage 2 in described barren rock.In this barren rock, the discharge port of sand storage 2 is provided with the first belt weigher 100, the discharge port of mine tailing feed bin 1 is provided with the second belt weigher 101, in barren rock, sand storage 2 and mine tailing feed bin 1 are connected to the upstream extremity of rotary dryer 40 by belt conveyor 30, this rotary dryer 40 is heated by fluidizing furnace 41, the downstream end of this rotary dryer 40 is connected with deferrization magnetic separator 42, this deferrization magnetic separator 42 is connected with trommel screen 50, the medium sand outlet of this trommel screen 50 is connected to middle sand storage 10, thin material outlet is connected to the steady feed bin 11 of fine material, the steady feed bin of this fine material 11 exports the hopper being led to energy-conservation mill 6 by coupled thin material measuring device 102, the discharge bucket of this energy-conservation mill 6 is connected with wind screen system, this wind screen system comprises induced draft fan 510, airflow separator 511, the fly-ash separator 513 that the rotoclone collector 512 be connected with this airflow separator 511 and this rotoclone collector 512 are connected.Be provided with fine sand outlet and mine tailing outlet in this wind screen system, described fine sand outlet is connected to fine sand storehouse 12, and mine tailing is exported to connection first mine tailing storehouse 13 and the second mine tailing storehouse 14.
See figures.1.and.2, described first mine tailing storehouse 13 and middle sand storage 10, fine sand storehouse 12 and a dry-mixed mortar masterbatch storehouse 150 storing dry-mixed mortar masterbatch are connected to mixture A air conveyer flume 31 respectively by the first mine tailing measuring apparatus 103, medium sand measuring apparatus 104, fine sand measuring apparatus 105 and dry-mixed mortar masterbatch measuring apparatus 106, and be connected to the first steady feed bin 16 by the first lift 32, this first steady feed bin 16 connects the first activation system, and this first activation system is connected with dry-mixed mortar stockyard 151.Second mine tailing storehouse 14 and a Filling Cementation masterbatch storehouse 170 storing Filling Cementation masterbatch are connected to mixture B air conveyer flume 33 respectively by the second mine tailing measuring apparatus 107 and Filling Cementation masterbatch measuring apparatus 108, and be connected to the second steady feed bin 18 by the second lift 34, this second steady feed bin 18 connects the second activation system, and this second activation system is connected with filling agglutinate stockyard 171.Second mine tailing storehouse 14 is sent to the 3rd steady feed bin 19 by mine tailing belt conveyor conveying 35 and the 3rd lift 36 simultaneously, 3rd steady feed bin 19 is connected to the 3rd activation system by the 3rd mine tailing measuring apparatus 108 which is provided with, and the 3rd activation system is connected to tailing micro-powder stockyard 140.Described dry-mixed mortar stockyard 151, filling agglutinate stockyard 171 and tailing micro-powder stockyard 140 are equipped with finished product delivery port, dispatch from the factory in bulk; Wherein dry-mixed mortar stockyard 151 is also connected with a packing plant 152 with filling agglutinate stockyard 171, dispatches from the factory for packed.
With reference to Fig. 1 and Fig. 5, described first activation system comprises the first activating chamber 70, and dry-mixed mortar activator container 71 is connected to this first activating chamber 70 by the first activator measuring apparatus 72.Second activation system comprises the second activating chamber 80, and Filling Cementation activator container 81 is connected to this second activating chamber 80 by the second activator measuring apparatus 82.3rd activation system comprises the 3rd activating chamber 90, and tailing micro-powder activator container 91 is connected to the 3rd activating chamber 90 by the 3rd activator measuring apparatus 92.The structure of described first, second, third activating chamber 70,80,90 is identical, for the first activating chamber 70, described activating chamber 70 is provided with activating chamber's opening for feed 700 and activating chamber's discharge port 701, hang on activating chamber's outer support 73 by multiple activating chamber spring device 730, and this activating chamber 70 is connected on activating chamber's base 74 by multiple activating chamber cushion plate 740, this activating chamber 70 be provided with for atomized activating dose atomisation unit 75 and in activating chamber 70, input the microwave launcher 76 of microwave, this microwave emitter 76 is controlled by controller 79.Air compressor machine 790 is connected by the first gas pipeline 750 with described atomisation unit 75.Be provided with high frequency activated vibration device 77 and low frequency activated vibration device 78 bottom activating chamber 70, can high and low frequency superpositing vibration be carried out.Wherein, described high frequency activated vibration device 77 is pneumatic vibrator, air compressor machine 790 is connected by the second gas pipeline 751 with this pneumatic vibrator, and the output gas of this pneumatic vibrator is by return-air duct 770 Tong Hui activating chamber 70, for dispelling the material in activating chamber 70.
With reference to Fig. 3 and Fig. 4, described energy-conservation mill 6 comprises tumbling barrel base 61, the tumbling barrel 60 be located on tumbling barrel base 61, the high-frequency grinder vibrator 62 driving tumbling barrel 60 to vibrate and low frequency grinding machine vibrator 63 and Controlling System 64.Described tumbling barrel 60 top is provided with hopper 600, and bottom is provided with discharge bucket 601; This tumbling barrel 60 is hung on grinding machine outer support 65 by multiple grinding machine spring device 650, and is provided with multiple grinding machine cushion plate 610 between this tumbling barrel 60 and tumbling barrel base 61; Be provided with vertical direction fixed arrangement in this tumbling barrel 60 and have some laminates 66, every block laminate 66 is evenly laid with feed opening, and the feed opening of upper strata laminate is greater than the feed opening of lower floor's laminate 66, all be filled with grinding element 67 in space above every block laminate 66, below undermost laminate 66, be provided with the discharging swash plate 69 for discharging.
See figures.1.and.2, produce the technique of tailing micro-powder, dry-mixed mortar and filling agglutinate, its step is as follows:
(1) barren rock medium sand is made up of barren rock.Barren rock is inputted in sand machine 21 processed through oscillating feeder 20, through sand machine 21 aggregate reclaiming processed, sieved by vibratory screening apparatus 22 again, wherein barren rock coarse sand reenters in sand machine 21 processed and carries out again broken, and barren rock medium sand obtains barren rock medium sand finished product and to input in barren rock in sand storage 2 after sand washer 23 carries out washed-out sand process.Barren rock medium sand is weighed through the first belt weigher 100, the mine tailing in mine tailing feed bin 1 is weighed through the second belt weigher 101 simultaneously, the barren rock medium sand after weighing and mine tailing are entered in rotary dryer 40 jointly, by fluidizing furnace 41 heat supply, carries out drying and processing; After oven dry, carry out deironing by deferrization magnetic separator 42.
(2) the barren rock medium sand after drying, deironing process and the mixing raw material of mine tailing sub-elect medium sand and fine material by trommel screen 50, and wherein medium sand enters middle sand storage 10; Fine material enters the steady feed bin 11 of fine material, and inputs in energy-conservation mill 6 after thin material measuring device 102 measures, and first reaches stable through high-frequency vibration, then carry out layering grinding under high and low frequency superpositing vibration.
(3) described fine material sub-elects fine sand and mine tailing by wind screen system after grinding, and wherein fine sand enters fine sand storehouse 12, and mine tailing is divided into two portions and enters the first mine tailing storehouse 13 and the second mine tailing storehouse 14 respectively.
(4) mine tailing in the medium sand in middle sand storage 10, the fine sand in fine sand storehouse 12, the first mine tailing storehouse 13 and dry-mixed mortar masterbatch are added in the first steady feed bin 16 as mixture A by a certain percentage, input in the first activating chamber 70 again, in the atomisation unit of the first activating chamber 70, pass into a certain amount of dry-mixed mortar activator simultaneously.Described first activating chamber 70 first reaches stable through high-frequency vibration, then under high and low frequency superpositing vibration, makes described mixture A under the irradiation of microwave, adsorb the dry-mixed mortar activator after atomization, obtain dry-mixed mortar products storage in dry-mixed mortar stockyard 151.
(5) fine sand in the fine sand storehouse 12 through weighing, mine tailing in the second mine tailing storehouse 14 and Filling Cementation masterbatch are added in the second steady feed bin 18 by a certain percentage jointly as mixture B, input in the second activating chamber 80 again, in the atomisation unit of the second activating chamber 80, pass into a certain amount of Filling Cementation activator simultaneously.Described second activating chamber 80 first reaches stable through high-frequency vibration, again under high and low frequency superpositing vibration, make described mixture B under the irradiation of microwave, adsorb the Filling Cementation activator after atomization, obtain filling agglutinate products storage in Filling Cementation stockyard 171.
(6) will add through the mine tailing weighed in the second mine tailing storehouse 14 in the 3rd steady feed bin 19, then input in the 3rd activating chamber 90, in the atomisation unit of the 3rd activating chamber 90, pass into a certain amount of tailing micro-powder activator simultaneously.Described second activating chamber 90 first reaches stable through high-frequency vibration, again under high and low frequency superpositing vibration, described mine tailing is made to be subject to the irradiation of microwave, under high and low frequency superpositing vibration, adsorb the tailing micro-powder activator after atomization, obtain tailing micro-powder products storage in tailing micro-powder stockyard 140.
(7) respectively by the dry-mixed mortar finished product in step (4), (5), (6), fill agglutinate finished product and tailing micro-powder finished product is in bulk dispatches from the factory, also the dry-mixed mortar finished product in (4), (5) and filling agglutinate finished product are dispatched from the factory by packing plant 152 is packed simultaneously.
Above are only the specific embodiment of the present invention, but design concept of the present invention is not limited thereto, all changes utilizing this design the present invention to be carried out to unsubstantiality, all should belong to the behavior of invading scope.
Claims (9)
1. produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate, it is characterized in that: comprise raw material silo, this raw material silo is connected to the updrift side of drying system, the downstream direction of this drying system is connected with the first separation system, this first separation system is provided with medium sand outlet and thin material outlet, wherein middle sand storage is led in medium sand outlet, thin material outlet leads to grinding machine, this grinding machine is connected to the second separation system, this second separation system is provided with fine sand outlet and mine tailing outlet, fine sand storehouse is led in described fine sand outlet, and mine tailing storehouse is led in mine tailing outlet; The dry-mixed mortar masterbatch storehouse that described mine tailing storehouse, middle sand storage, fine sand storehouse and store dry-mixed mortar masterbatch is connected the first activation system by the first delivery system, and the discharge port of this first activation system is communicated to dry-mixed mortar stockyard; The Filling Cementation masterbatch storehouse that described mine tailing storehouse and stores Filling Cementation masterbatch is connected the second activation system by the second delivery system, and the discharge port of this second activation system is communicated to fills agglutinate stockyard; Described mine tailing storehouse connects the 3rd activation system by the 3rd delivery system, and the outlet of the 3rd activation system is to tailing micro-powder stockyard.
2. produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 1, it is characterized in that: described raw material silo comprises sand storage and mine tailing raw material cabin in barren rock; In this barren rock, sand storage upstream is connected with barren rock sand system, this barren rock sand system comprises feeding machine, the sand machine processed be connected with this feeding machine, the discharge port of this sand machine processed is connected with screening plant, this screening plant is provided with the outlet of barren rock coarse sand and the outlet of barren rock medium sand, wherein the opening for feed of sand machine processed is led in the outlet of barren rock coarse sand, and the outlet of barren rock medium sand is connected to a sand washer, and this sand washer is connected with sand storage in described barren rock.
3. produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 1, it is characterized in that: described first separation system is trommel screen, described second separation system is wind screen system.
4. produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 1, it is characterized in that: described grinding machine is energy-conservation mill, comprise tumbling barrel base, the tumbling barrel be located on tumbling barrel base, the grinding element be located in tumbling barrel, the high-frequency grinder vibrator driving tumbling barrel vibration and low frequency grinding machine vibrator and Controlling System, described tumbling barrel is hung on grinding machine outer support by grinding machine elastic mechanism, and is provided with grinding machine cushion plate between this tumbling barrel and tumbling barrel base; Be provided with in this tumbling barrel and be vertically placed with some laminates, every block laminate is evenly laid with feed opening, and the feed opening of upper strata laminate is greater than the feed opening of lower floor's laminate, in the space above every block laminate, be all filled with grinding element.
5. produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 1, it is characterized in that: described first, second, and third activation system respectively comprises an activating chamber and is connected to the activator container of activating chamber; Activator container wherein in first, second, and third activation system is respectively dry-mixed mortar activator container, Filling Cementation activator container and tailing micro-powder activator container; Described activating chamber hang on activating chamber's outer support by activating chamber's elastic mechanism, and this activating chamber is connected on activating chamber's base by activating chamber's cushion plate, described activating chamber be provided with for atomized activating dose atomisation unit and in activating chamber, input the microwave launcher of microwave, described activator container is connected with activating chamber by atomisation unit, is provided with high frequency activated vibration device and low frequency activated vibration device bottom activating chamber.
6. produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 1, it is characterized in that: between described drying system and the first separation system, be also connected with deferrization magnetic separator.
7. produce the technique of tailing micro-powder, dry-mixed mortar and filling agglutinate, its step is as follows:
(1) barren rock is made barren rock medium sand and mine tailing carries out drying and processing and deironing process jointly;
(2) the barren rock medium sand after drying, deironing process and mine tailing sub-elect medium sand and fine material by the first separation system, and wherein medium sand enters middle sand storage, and fine material enters grinding machine and grinds;
(3) described fine material sub-elects fine sand and mine tailing by the second separation system after grinding, and wherein fine sand enters fine sand storehouse, and mine tailing enters mine tailing storehouse;
(4) fine sand in the medium sand in middle sand storage, fine sand storehouse, the mine tailing in mine tailing storehouse and dry-mixed mortar masterbatch are added in activation system jointly as mixture A, this mixture A adsorbs the dry-mixed mortar activator after atomization under the irradiation of microwave, obtains dry-mixed mortar finished product;
(5) mine tailing in the fine sand in fine sand storehouse, mine tailing storehouse and Filling Cementation masterbatch are added in activation system jointly as mixture B, this mixture B adsorbs the Filling Cementation activator after atomization under the irradiation of microwave, obtains filling agglutinate finished product;
(6) add in activation system by the mine tailing in mine tailing storehouse, this mine tailing is subject to the irradiation of microwave, adsorbs the tailing micro-powder activator after atomization, obtains tailing micro-powder finished product;
(7) respectively the dry-mixed mortar finished product in step (4), (5), (6), filling agglutinate finished product and tailing micro-powder finished product are exported.
8. produce the technique of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 7, it is characterized in that: the process that barren rock obtains barren rock medium sand by barren rock sand process is, first by barren rock through sand crusher machine sand processed, sieve again, wherein barren rock coarse sand reenters in sand machine processed and carries out fragmentation again, and barren rock medium sand obtains barren rock medium sand finished product after washed-out sand process.
9. produce the technique of tailing micro-powder, dry-mixed mortar and filling agglutinate as claimed in claim 7, it is characterized in that: the fine material in described step (2) carries out layering grinding under high and low frequency superpositing vibration, the mixture A in step (4), (5), (6), mixture B and mine tailing all activate under high and low frequency superpositing vibration.
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| CN201510034557.1A CN104591574B (en) | 2015-01-23 | 2015-01-23 | Equipment and process for producing tailing micro powder, dry-mixed mortar and filling cementing material |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105643810A (en) * | 2016-03-21 | 2016-06-08 | 江苏新鹏重型机电制造有限公司 | Dry-mixed mortar production line |
| CN106984416A (en) * | 2017-05-25 | 2017-07-28 | 四川晶天地新材料科技有限公司 | A kind of quartz sand processing technology |
| CN108164220A (en) * | 2018-01-21 | 2018-06-15 | 李肇炯 | A kind of metal tail slag regeneration glue for tile and its production method |
| CN108298898A (en) * | 2018-01-21 | 2018-07-20 | 李肇炯 | A kind of method of metal tail slag production dry-mixed mortar |
Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3661365A (en) * | 1970-11-30 | 1972-05-09 | Bonsal Co W R | Apparatus for proportioning dry particulate materials |
| CN1853891A (en) * | 2005-04-18 | 2006-11-01 | 傅炳煌 | Production and automatic producer for building dry powder and mortar |
| CN201291515Y (en) * | 2008-10-09 | 2009-08-19 | 江苏省建筑工程集团有限公司 | Dry-mixed mortar production equipment |
| CN101879755A (en) * | 2010-06-21 | 2010-11-10 | 无锡江加建设机械有限公司 | Drying-free dry-mixed mortar complete equipment |
| CN202155954U (en) * | 2011-06-24 | 2012-03-07 | 东莞市恒和节能科技有限公司 | Dry-mixed mortar preparation system |
| CN103801443A (en) * | 2013-11-20 | 2014-05-21 | 李培彦 | Active mineral waste residue powder production system and technological process thereof |
| CN204034864U (en) * | 2014-08-19 | 2014-12-24 | 中材(天津)粉体技术装备有限公司 | A kind of vertical mill grinding system preparing active metal tailing micro-powder |
| CN204356241U (en) * | 2015-01-23 | 2015-05-27 | 福建省新创化建科技有限公司 | Produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate |
-
2015
- 2015-01-23 CN CN201510034557.1A patent/CN104591574B/en active Active
Patent Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3661365A (en) * | 1970-11-30 | 1972-05-09 | Bonsal Co W R | Apparatus for proportioning dry particulate materials |
| CN1853891A (en) * | 2005-04-18 | 2006-11-01 | 傅炳煌 | Production and automatic producer for building dry powder and mortar |
| CN201291515Y (en) * | 2008-10-09 | 2009-08-19 | 江苏省建筑工程集团有限公司 | Dry-mixed mortar production equipment |
| CN101879755A (en) * | 2010-06-21 | 2010-11-10 | 无锡江加建设机械有限公司 | Drying-free dry-mixed mortar complete equipment |
| CN202155954U (en) * | 2011-06-24 | 2012-03-07 | 东莞市恒和节能科技有限公司 | Dry-mixed mortar preparation system |
| CN103801443A (en) * | 2013-11-20 | 2014-05-21 | 李培彦 | Active mineral waste residue powder production system and technological process thereof |
| CN204034864U (en) * | 2014-08-19 | 2014-12-24 | 中材(天津)粉体技术装备有限公司 | A kind of vertical mill grinding system preparing active metal tailing micro-powder |
| CN204356241U (en) * | 2015-01-23 | 2015-05-27 | 福建省新创化建科技有限公司 | Produce the equipment of tailing micro-powder, dry-mixed mortar and filling agglutinate |
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| CN105643810A (en) * | 2016-03-21 | 2016-06-08 | 江苏新鹏重型机电制造有限公司 | Dry-mixed mortar production line |
| CN106984416A (en) * | 2017-05-25 | 2017-07-28 | 四川晶天地新材料科技有限公司 | A kind of quartz sand processing technology |
| CN108164220A (en) * | 2018-01-21 | 2018-06-15 | 李肇炯 | A kind of metal tail slag regeneration glue for tile and its production method |
| CN108298898A (en) * | 2018-01-21 | 2018-07-20 | 李肇炯 | A kind of method of metal tail slag production dry-mixed mortar |
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| CN104591574B (en) | 2016-09-14 |
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