CN108704843A - Building stones produce two sections of sieve classification systems and its sieve classification method - Google Patents
Building stones produce two sections of sieve classification systems and its sieve classification method Download PDFInfo
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- CN108704843A CN108704843A CN201810761439.4A CN201810761439A CN108704843A CN 108704843 A CN108704843 A CN 108704843A CN 201810761439 A CN201810761439 A CN 201810761439A CN 108704843 A CN108704843 A CN 108704843A
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- millimeters
- sieve
- electro
- building stones
- chute
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- 239000004575 stone Substances 0.000 title claims abstract description 124
- 238000010334 sieve classification Methods 0.000 title claims abstract description 29
- 238000000034 method Methods 0.000 title claims description 8
- 239000004576 sand Substances 0.000 claims abstract description 58
- 238000012216 screening Methods 0.000 claims abstract description 37
- 238000004519 manufacturing process Methods 0.000 claims abstract description 15
- 238000010168 coupling process Methods 0.000 claims description 20
- 230000008878 coupling Effects 0.000 claims description 19
- 238000005859 coupling reaction Methods 0.000 claims description 19
- 238000003860 storage Methods 0.000 claims description 17
- 230000014759 maintenance of location Effects 0.000 claims description 12
- 230000005611 electricity Effects 0.000 claims description 7
- 239000000463 material Substances 0.000 claims description 7
- 239000000428 dust Substances 0.000 claims description 6
- 238000009434 installation Methods 0.000 claims description 6
- 239000002245 particle Substances 0.000 claims description 6
- 238000007493 shaping process Methods 0.000 claims description 6
- 235000007164 Oryza sativa Nutrition 0.000 claims description 5
- 235000009566 rice Nutrition 0.000 claims description 5
- 240000007594 Oryza sativa Species 0.000 claims 1
- 235000013339 cereals Nutrition 0.000 description 14
- 239000011148 porous material Substances 0.000 description 8
- 241000209094 Oryza Species 0.000 description 4
- 238000010276 construction Methods 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 238000007873 sieving Methods 0.000 description 3
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 241000233855 Orchidaceae Species 0.000 description 2
- 239000004744 fabric Substances 0.000 description 2
- VIKNJXKGJWUCNN-XGXHKTLJSA-N norethisterone Chemical compound O=C1CC[C@@H]2[C@H]3CC[C@](C)([C@](CC4)(O)C#C)[C@@H]4[C@@H]3CCC2=C1 VIKNJXKGJWUCNN-XGXHKTLJSA-N 0.000 description 2
- 241000196324 Embryophyta Species 0.000 description 1
- 229910000831 Steel Inorganic materials 0.000 description 1
- 239000011449 brick Substances 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000004134 energy conservation Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 229910052742 iron Inorganic materials 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B1/00—Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
- B07B1/28—Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B9/00—Combinations of apparatus for screening or sifting or for separating solids from solids using gas currents; General arrangement of plant, e.g. flow sheets
Landscapes
- Combined Means For Separation Of Solids (AREA)
Abstract
The invention discloses a kind of building stones to produce two sections of sieve classification systems,Including feeding ribbon conveyer,First distributing device,Vibrating screen,Chute before returning charge sieve,Electro-hydraulic dynamic three-way chute before the sieve of 20 millimeters or more 4 kinds of grain sizes,Funnel under 0~20 mm sieve,Returning charge ribbon conveyer,45~80 millimeters of finished product ribbon conveyers,20~30 millimeters of finished product ribbon conveyers,Abrasive belt conveyer processed,0~20 millimeter of ribbon conveyer,Second distributing device,Secondary vibration sieves,Electro-hydraulic dynamic three-way chute before the sieve of 20 millimeters or less 4 kinds of grain sizes,Funnel under 0~3 mm sieve,10~20 millimeters of finished product ribbon conveyers,5~10 millimeters of finished product ribbon conveyers,3~5 millimeters of finished product ribbon conveyers,0~3 millimeter of finished product ribbon conveyer,Sand feeding bucket elevator processed,Sand surge bunker and elevator chute processed.The present invention can give full play to shaker performance, improve screening efficiency, the quality of production capacity and finished product building stones, and management and running easy to produce also allow for the modularized design of screening system.
Description
One, technical field:
The present invention relates to a kind of building stones to produce two sections of sieve classification systems and its sieve classification method, applies in building stones production process
In to building stones carry out sieve classification processing.
Two, background technology:
Existing building stones produce sieve classification system, generally use 1 to 3 layers of vibrating screen, screen out the building stones of 1 to 4 kinds of grain sizes, and one
As be 20~30 millimeters, 10~20 millimeters, 5~10 millimeters, 0~5 millimeter grain sizes building stones, grain size type is less, cannot meet
Market needs.In order to meet the building stones of more grain size types, it usually needs build whole production line again, cause floor space
Greatly, equipment overlapping investment cannot efficiently use existing equipment.In the actual production process since building stones grain size differs larger, institute
Need shaker performance also different, when sieving large-sized building stones, required vibrating screen amplitude is big, frequency is low;Sieve small particle
When building stones, required vibrating screen amplitude is small, frequency is high;Sieving area also differs needed for screening big particle diameter stone and small particle building stones
Sample.In the prior art, it is typically employed in and carrys out the building stones that Sieving and casing differs larger with 1 vibrating screen, cause shaker performance not
It can effectively play, general separate unit vibrating screen actual treatment ability is less than normal, is sieved frequently with multi-shaker vibration arranged side by side to meet production capacity
And production efficiency, it causes greatly to waste.
Three, invention content:
The technical problem to be solved by the present invention is to:Overcome the deficiencies of the prior art and provide a kind of two sections of screenings point of building stones production
Grade system and its sieve classification method are applied and carry out sieve classification processing to building stones in building stones production process, can meet life
Production 45~80 millimeters, 30~45 millimeters, 20~30 millimeters, 10~20 millimeters, 5~10 millimeters, 3~5 millimeters, 0~3 millimeter etc. this
The building stones of 7 kinds of grain sizes.Two sections of sieve classification systems use modularized design, and solution party is provided for production intelligent dispatch management
Case.
The present invention is for the technical solution adopted for solving the technical problem:
A kind of building stones produce two sections of sieve classification systems, including feeding ribbon conveyer, the first distributing device, a vibrating screen, return
Electro-hydraulic dynamic three-way chute before electro-hydraulic dynamic three-way chute, 30~45 mm sieves, 20~30 millis before chute, 45~80 mm sieves before material screen
Funnel, returning charge ribbon conveyer, 45~80 millimeters of finished product belt conveyings under electro-hydraulic dynamic three-way chute, 0~20 mm sieve before rice huller screen
Machine, 20~30 millimeters of finished product ribbon conveyers, abrasive belt conveyer processed, 0~20 millimeter of ribbon conveyer, the second distributing device, two
Electro-hydraulic dynamic three-way chute before electro-hydraulic dynamic three-way chute, 10~15 mm sieves before secondary vibrating screen, 15~20 mm sieves, 5~10 millimeters
Funnel, 10~20 millimeters of finished products under electro-hydraulic dynamic three-way chute, 0~3 mm sieve before electro-hydraulic dynamic three-way chute, 3~5 mm sieves before sieve
Ribbon conveyer, 5~10 millimeters of finished product ribbon conveyers, 3~5 millimeters of finished product ribbon conveyers, 0~3 millimeter of finished product belt are defeated
Send machine, sand feeding bucket elevator processed, sand surge bunker processed and elevator chute;Vibrating screen uses four layers of sieve plate knot
Structure, first layer hole diameter of sieve (perforated) plate are 80 millimeters, and second layer hole diameter of sieve (perforated) plate is 45 millimeters, and third layer hole diameter of sieve (perforated) plate is 30 millimeters, the 4th layer
Hole diameter of sieve (perforated) plate is 20 millimeters;Secondary vibration sieve also uses four layers of sieve-plate structure, and first layer hole diameter of sieve (perforated) plate is 15 millimeters, and second
Layer hole diameter of sieve (perforated) plate is 10 millimeters, and third layer hole diameter of sieve (perforated) plate is 5 millimeters, and the 4th layer of hole diameter of sieve (perforated) plate is 3 millimeters.
The feeding belt conveyer head funnel is connect by flange with the first distributing device upper flange, first cloth
Device lower flange is connect with the first seal closure feed opening flange on a vibrating screen, be flexible coupling under the first seal closure flange with
One time vibrating screen upper flange connects, and two mouths that gather dust are arranged on first seal closure;
Chute feed inlet is corresponding before the discharge port of 80 millimeters of sieve plates of first layer of vibrating screen is sieved with returning charge, and described one
The discharge port of 45 millimeters of sieve plates of the second layer of secondary vibrating screen is corresponding with electro-hydraulic dynamic three-way chute feed inlet before 45~80 mm sieves,
Electro-hydraulic dynamic three-way chute feed inlet before the discharge port of 30 millimeters of sieve plates of third layer of vibrating screen and 30~45 mm sieves
It is corresponding, electro-hydraulic dynamic three-way chute before the discharge port of the 4th layer of 20 millimeters of sieve plate of a vibrating screen and 20~30 mm sieves
Feed inlet it is corresponding;Funnel under 0~20 mm sieve of corresponding installation under vibrating screen, under a vibrating screen with phase
Be equipped with and be flexible coupling between funnel under corresponding 0~20 mm sieve, it is described be flexible coupling up and down by flange respectively with primary vibration
Funnel upper flange under lower flange and 0~20 mm sieve is sieved to connect;
Chute discharge port passes through flanged joint, 45~80 milli with the deflector chute on returning charge ribbon conveyer before the returning charge sieve
Before rice huller screen two discharge port of electro-hydraulic dynamic three-way chute respectively on returning charge ribbon conveyer and 45~80 millimeters of finished product ribbon conveyers
Deflector chute by flanged joint, two discharge port of electro-hydraulic dynamic three-way chute is defeated with returning charge belt respectively before 30~45 mm sieve
Send deflector chute on machine and abrasive belt conveyer processed by flanged joint, electro-hydraulic dynamic three-way chute before 20~30 mm sieve
Two discharge ports pass through flanged joint with the deflector chute on 20~30 millimeters of finished product ribbon conveyers and abrasive belt conveyer processed respectively;
Deflector chute under 0~20 mm sieve on funnel discharge port and 0~20 millimeter of ribbon conveyer passes through flanged joint;
0~20 millimeter of belt conveyer head funnel is connect by flange with the feed inlet of the second distributing device, and described second
The second seal closure feed opening flange that distributing device lower flange and secondary vibration sieve connect, be flexible coupling under the second seal closure flange and
Secondary vibration sieves upper flange connection, and two mouths that gather dust are arranged on second seal closure;
Electro-hydraulic dynamic three-way chute before the discharge port of 15 millimeters of sieve plates of first layer of the secondary vibration sieve and 15~20 mm sieves
Feed inlet is corresponding, electro-hydraulic dynamic before the discharge port of 10 millimeters of sieve plates of the second layer of the secondary vibration sieve and 10~15 mm sieves
The feed inlet of three-way chute is corresponding, before the discharge port of 5 millimeters of sieve plates of third layer of the secondary vibration sieve and 5~10 mm sieves
The feed inlet of electro-hydraulic dynamic three-way chute is corresponding, the discharge port and 3~5 millis of the 4th layer of 3 millimeters of sieve plate of the secondary vibration sieve
The feed inlet of electro-hydraulic dynamic three-way chute is corresponding before rice huller screen;
Funnel under the secondary vibration sieve 0~3 mm sieve of lower corresponding installation, the secondary vibration sieve and corresponding 0~3 millimeter
It is equipped with and is flexible coupling between the lower funnel of sieve, be flexible coupling and lower flange and 0~3 mm sieve are sieved with secondary vibration by flange respectively up and down
Lower funnel upper flange connection;
Before 15~20 mm sieve two discharge port of electro-hydraulic dynamic three-way chute respectively with 10~20 millimeters of finished product ribbon conveyers and
Deflector chute on abrasive belt conveyer processed is by flanged joint, two discharge port of electro-hydraulic dynamic three-way chute before 10~15 mm sieve
Respectively with the deflector chute on 10~20 millimeters of finished product ribbon conveyers and abrasive belt conveyer processed by flanged joint, described 5~
Before 10 mm sieves two discharge port of electro-hydraulic dynamic three-way chute respectively with 5~10 millimeters of finished product ribbon conveyers and abrasive belt conveyer processed
On deflector chute by flanged joint, before 3~5 mm sieve two discharge port of electro-hydraulic dynamic three-way chute respectively with 3~5 millimeters at
Deflector chute on product ribbon conveyer and abrasive belt conveyer processed passes through flanged joint;
Deflector chute under 0~3 mm sieve on funnel discharge port and 0~3 millimeter of finished product ribbon conveyer by flanged joint,
The abrasive belt conveyor head funnel processed is connect by flange with the feed inlet of sand feeding bucket elevator processed, on the sand processed
Hopper type hoister is connected by chute with sand surge bunker processed;The discharge port of vibrating screen and secondary vibration sieve is all provided with
Have to be flexible coupling and passes through flanged joint with corresponding chute.
The building stones produce two sections of sieve classification systems can be 2 sets or more arranged side by side along finished product ribbon conveyer according to production needs
Set.
Building stones recited above produce the sieve classification method of two sections of sieve classification systems, are as follows:
A, the building stones after impact breaker is crushed shaping are equal building stones by the first distributing device by feeding ribbon conveyer
It is even to be arranged on a vibrating screen;
B, by the screening of a vibrating screen, the building stones more than 80 millimeters, will not by chute before a vibrating screen and returning charge sieve
The building stones for meeting Particle size requirements are transported on impact breaker broken shaping again by the reprinting of returning charge ribbon conveyer;
C, by the screening of a vibrating screen, 45~80 millimeters of building stones pass through electro-hydraulic before a vibrating screen and 45~80 mm sieves
Dynamic three-way chute is transported to 45~80 millimeters of finished bin storages by 45~80 millimeters of finished product ribbon conveyers;When 45 need not be produced
When~80 millimeters of building stones, returning charge belt conveying can be entered by electro-hydraulic dynamic three-way chute before a vibrating screen and 45~80 mm sieves
In machine;
D, by the screening of a vibrating screen, 30~45 millimeters of building stones pass through electro-hydraulic before a vibrating screen and 30~45 mm sieves
Building stones are transported to sand surge bunker processed by dynamic three-way chute by abrasive belt conveyer processed by sand feeding bucket elevator processed;When being not required to
When producing 30-45 millimeters of building stones, it can also be entered by electro-hydraulic dynamic three-way chute before a vibrating screen and 30~45 mm sieves
In returning charge ribbon conveyer;
E, by the screening of a vibrating screen, 20~30 millimeters of building stones pass through electro-hydraulic before a vibrating screen and 20~30 mm sieves
Dynamic three-way chute is sent to 20~30 millimeters of finished bin storages by 20~30 millimeters of finished product ribbon conveyers;20~30 millimeters of building stones
It can be entered in abrasive belt conveyer processed by electro-hydraulic dynamic three-way chute before a vibrating screen and 20~30 mm sieves, by sand processed
Building stones are transported in sand surge bunker processed by feeding bucket elevator;
F, by the screening of a vibrating screen, 0~20 millimeter of building stones by funnel under a vibrating screen and 0~20 mm sieve by
Building stones are evenly arranged on secondary vibration sieve by 0~20 millimeter of ribbon conveyer by the second distributing device;
G, the screening sieved by secondary vibration, 15~20 millimeters of building stones pass through electro-hydraulic before secondary vibration sieve and 15~20 mm sieves
Dynamic three-way chute reprinted again by ribbon conveyer by 10~20 millimeters of finished product ribbon conveyers be transported to 10~20 millimeters at
It stores in product storehouse;15~20 millimeters of building stones can also by secondary vibration sieve and 15~20 mm sieves before electro-hydraulic dynamic three-way chute into
Enter in abrasive belt conveyer processed, building stones are transported in sand surge bunker processed by sand feeding bucket elevator processed;
H, the screening sieved by secondary vibration, 10~15 millimeters of building stones pass through electro-hydraulic before secondary vibration sieve and 10~15 mm sieves
Dynamic three-way chute reprinted again by ribbon conveyer by 10~20 millimeters of finished product ribbon conveyers be transported to 10~20 millimeters at
It stores in product storehouse;10~15 millimeters of building stones can also by secondary vibration sieve and 10~15 mm sieves before electro-hydraulic dynamic three-way chute into
Enter in abrasive belt conveyer processed, building stones are transported in sand surge bunker processed by sand feeding bucket elevator processed;
I, the screening sieved by secondary vibration, 5~10 millimeters of building stones pass through secondary vibration sieve and are moved with electro-hydraulic before 5~10 mm sieves
Three-way chute is reprinted by 5~10 millimeters of finished product ribbon conveyers by ribbon conveyer and is transported to 5~10 millimeters of finished bins again
Storage;5~10 millimeters of building stones can also be sieved by secondary vibration enters sand processed with electro-hydraulic dynamic three-way chute before 5~10 mm sieves
In ribbon conveyer, building stones are transported in sand surge bunker processed by sand feeding bucket elevator processed;
J, the screening sieved by secondary vibration, 3~5 millimeters of building stones pass through before secondary vibration sieve and 3~5 mm sieves electro-hydraulic dynamic three
Logical chute is transported to 3~5 millimeters of finished bin storages by 3~5 millimeters of finished product ribbon conveyers;3~5 millimeters of building stones can also lead to
Electro-hydraulic dynamic three-way chute enters in abrasive belt conveyer processed before crossing secondary vibration sieve and 3~5 mm sieves, by sand feeding bucket type processed
Building stones are transported in sand surge bunker processed by elevator;
K, the screening sieved by secondary vibration, 0~3 millimeter of building stones are sieved with funnel under 0~3 mm sieve by secondary vibration by 0
~3 millimeters of finished product ribbon conveyers reprinted once or twice by ribbon conveyer be transported to 0~3 millimeter finished bin storage.
Wherein:The building stones for 45~80 millimeters of grain sizes produced are used for iron and steel enterprise, the stone of 30~45 millimeters of grain sizes
Material is the best materials of sand system processed, and the building stones of 20~30 millimeters of grain sizes are used for high ferro construction project, the stone of 20~30 millimeters of grain sizes
Material is used for business concrete mixing plant, and the building stones of 10~20 millimeters of grain sizes are used for Highway Construction Project Based, the stone of 5~10 millimeters of grain sizes
Material is used for building enterprise, and the building stones of 3~5 millimeters of grain sizes are used for machine made brick, and the building stones of 0~3 millimeter of grain size are whitewashed for tunnel.
The present invention uses two sections of sieve classification systems, can give full play to shaker performance, improves screening efficiency and production energy
Power, while the modularized design of screening system is also allowed for, make building stones production sieve classification system in energy conservation and environmental protection, reduce cost
It is also convenient for live construction simultaneously, producing screening system Standardization Construction for building stones provides important evidence.
Four, it illustrates:
Fig. 1 is the structural diagram of the present invention;
Fig. 2 is the enlarged structure schematic diagram of a vibrating screen in Fig. 1;
Fig. 3 is the enlarged structure schematic diagram that secondary vibration sieves in Fig. 1.
Five, specific implementation mode:
The present invention will be further explained below in conjunction with the accompanying drawings:
Referring to Fig. 1, the parts title that each serial number is indicated in figure is:1 is feeding ribbon conveyer, and 2 be the first distributing device, 3
It is chute before returning charge sieve for a vibrating screen, 4,5 be electro-hydraulic dynamic three-way chute before 45~80 mm sieves, 6 is 30~45 mm sieves
Preceding electro-hydraulic dynamic three-way chute, 7 be electro-hydraulic dynamic three-way chute before 20~30 mm sieves, 8 be funnel under 0~20 mm sieve, 9 be returning charge
Ribbon conveyer, 10 be 45~80 millimeters of finished product ribbon conveyers, 11 be 20~30 millimeters of finished product ribbon conveyers, 12 be sand processed
Ribbon conveyer, 13 be 0~20 millimeter of ribbon conveyer, 14 second distributing devices, 15 secondary vibrations sieve, 16 be 15~20 mm sieves
Preceding electro-hydraulic dynamic three-way chute, 17 are electro-hydraulic dynamic three-way before 5~10 mm sieves for electro-hydraulic dynamic three-way chute, 18 before 10~15 mm sieves
Chute, 19 be electro-hydraulic dynamic three-way chute before 3~5 mm sieves, 20 be funnel under 0~3 mm sieve, 21 be 10~20 millimeters of completed belt
Formula conveyer, 22 be 5~10 millimeters of finished product ribbon conveyers, 23 be 3~5 millimeters of finished product ribbon conveyers, 24 be 0~3 millimeter
Finished product ribbon conveyer, 25 are sand feeding bucket elevator processed, and 26 be sand surge bunker processed, and 27 be elevator chute.
Referring to Fig. 2 and Fig. 3, the parts title that each serial number is indicated in figure is:3-1 is 80 mm pore size sieve plates, 3-2 is
45 mm pore size sieve plates, 3-3 are 30 mm pore size sieve plates, 3-4 is 20 mm pore size sieve plates, 15-1 be 15 mm pore size sieve plates,
15-2 is 10 mm pore size sieve plates, 15-3 is 5 mm pore size sieve plates, 15-4 is 3 mm pore size sieve plates.
Embodiment 1:A kind of building stones produce two sections of sieve classification systems, including feeding ribbon conveyer 1, the first distributing device 2,
It is electro-hydraulic dynamic before electro-hydraulic dynamic three-way chute 5,30~45 mm sieves before chute 4,45~80 mm sieves before vibrating screen 3, returning charge sieve
Funnel 8, returning charge ribbon conveyer 9,45 under electro-hydraulic dynamic three-way chute 7,0~20 mm sieve before three-way chute 6,20~30 mm sieves
10,20~30 millimeters of finished product ribbon conveyers 11 of~80 millimeters of finished product ribbon conveyers, 12,0~20 milli of abrasive belt conveyer processed
Rice ribbon conveyer 13, the second distributing device 14, secondary vibration sieve 15,15~20 mm sieves before electro-hydraulic dynamic three-way chute 16,10~
Before 15 mm sieves before electro-hydraulic dynamic three-way chute 17,5~10 mm sieves electro-hydraulic dynamic three before electro-hydraulic dynamic three-way chute 18,3~5 mm sieves
20,10~20 millimeters of funnel, 21,5~10 millimeters of finished product ribbon conveyer finished product belt conveying under logical chute 19,0~3 mm sieve
22,3~5 millimeters of machine, 23,0~3 millimeters of finished product ribbon conveyer finished product ribbon conveyer 24, sand feeding bucket elevator 25 processed,
Sand surge bunker 26 and elevator chute 27 processed.
Wherein:It is 80 millimeters that vibrating screen 3, which uses four layers of sieve-plate structure, the holes diameter of sieve (perforated) plate first layer 3-1, second layer 3-2
Hole diameter of sieve (perforated) plate is 45 millimeters, and the holes diameter of sieve (perforated) plate third layer 3-3 are 30 millimeters, and the 4th layer of hole diameter of sieve (perforated) plate 3-4 is 20 millimeters;Secondary vibration
It is 15 millimeters that sieve 15, which also uses four layers of sieve-plate structure, the holes diameter of sieve (perforated) plate first layer 5-1, and the holes diameter of sieve (perforated) plate second layer 5-2 are 10 millimeters, the
Three layers of holes diameter of sieve (perforated) plate 5-3 are 5 millimeters, and the 4th layer of hole diameter of sieve (perforated) plate 5-4 is 3 millimeters.
1 head funnel of feeding ribbon conveyer is connect by flange with 2 upper flange of the first distributing device, under the first distributing device 2
Flange is connect with the first seal closure 3-5 feed opening flanges on a vibrating screen 3, and be flexible coupling method under the first seal closure 3-5
Orchid connect with 3 upper flange of vibrating screen, and two mouthful 3-7 that gather dust are arranged on the first seal closure 3-5;
4 feed inlet of chute is corresponding before the discharge port of 80 millimeters of sieve plate 3-1 of first layer of vibrating screen 3 is sieved with returning charge, once
The discharge port of 45 millimeters of sieve plate 3-2 of the second layer of vibrating screen 3 is opposite with 5 feed inlet of electro-hydraulic dynamic three-way chute before 45~80 mm sieves
Answer, before the discharge port of 30 millimeters of sieve plate 3-3 of third layer of a vibrating screen 3 and 30~45 mm sieves electro-hydraulic dynamic three-way chute 6 into
Material mouth is corresponding, electro-hydraulic dynamic three-way before the discharge port of the 4th layer of 20 millimeters of sieve plate 3-4 of a vibrating screen 3 and 20~30 mm sieves
The feed inlet of chute 7 is corresponding;The funnels 8 under 3 times 0~20 mm sieves of corresponding installation of vibrating screen, vibrating screen 3 time and
It is equipped with and is flexible coupling 3-6 between funnel 8 under its corresponding 0~20 mm sieve, the 3-6 or more that is flexible coupling is by flange respectively with one
8 upper flange of funnel connects under 3 lower flange of secondary vibrating screen and 0~20 mm sieve;
4 discharge port of chute passes through flanged joint, 45~80 mm sieves with the deflector chute on returning charge ribbon conveyer 9 before returning charge sieve
5 liang of discharge ports of preceding electro-hydraulic dynamic three-way chute respectively on returning charge ribbon conveyer 9 and 45~80 millimeters of finished product ribbon conveyers 10
Deflector chute by flanged joint, before 30~45 mm sieves 6 liang of discharge ports of electro-hydraulic dynamic three-way chute respectively with returning charge belt conveying
Deflector chute on machine 9 and abrasive belt conveyer 12 processed is by flanged joint, electro-hydraulic dynamic three-way chute 7 before 20~30 mm sieves
Two discharge ports pass through flange with the deflector chute on 20~30 millimeters of finished product ribbon conveyers 11 and abrasive belt conveyer 12 processed respectively
Connection;Deflector chute under 0~20 mm sieve on 8 discharge port of funnel and 0~20 millimeter of ribbon conveyer 13 passes through flanged joint;
0~20 millimeter of 13 head funnel of ribbon conveyer is connect by flange with the feed inlet of the second distributing device 14, the second cloth
14 lower flange of device is connect with the second seal closure 15-5 feed opening flanges on secondary vibration sieve 15, soft company under the second seal closure 15-5
Acting flange sieves 15 upper flanges with secondary vibration and connect, and two mouthful 15-7 that gather dust are arranged on the second seal closure 15-5;
Electro-hydraulic dynamic three-way before the discharge port of 15 millimeters of sieve plate 15-1 of first layer of the secondary vibration sieve 15 and 15~20 mm sieves
The feed inlet of chute 16 is corresponding, the discharge port and 10~15 of 10 millimeters of sieve plate 15-2 of the second layer of the secondary vibration sieve 15
The feed inlet of electro-hydraulic dynamic three-way chute 17 is corresponding before mm sieve, 5 millimeters of sieve plate 15-3 of third layer of the secondary vibration sieve 15
Discharge port it is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute 18 before 5~10 mm sieves, the 4th of secondary vibration sieve 15 the
The discharge port of 3 millimeters of sieve plate 15-4 of layer is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute 19 before 3~5 mm sieves;
The secondary vibration sieves funnel 20 under 15 times 0~3 mm sieves of corresponding installation, the secondary vibration sieve 15 and corresponding 0
The 15-6 that is flexible coupling is equipped under~3 mm sieves between funnel 20, the 15-6 or more that is flexible coupling is sieved with secondary vibration by flange respectively
20 upper flange of funnel connects under 15 lower flanges and 0~3 mm sieve;
Before 15~20 mm sieve 16 liang of discharge ports of electro-hydraulic dynamic three-way chute respectively with 10~20 millimeters of finished product ribbon conveyers
21 and abrasive belt conveyer 12 processed on deflector chute by flanged joint, electro-hydraulic dynamic three-way chute 17 before 10~15 mm sieve
Two discharge ports pass through method with the deflector chute on 10~20 millimeters of finished product ribbon conveyers 21 and abrasive belt conveyer 12 processed respectively
Orchid connection, before 5~10 mm sieve 18 liang of discharge ports of electro-hydraulic dynamic three-way chute respectively with 5~10 millimeters of finished product ribbon conveyers
22 and abrasive belt conveyer 12 processed on deflector chute by flanged joint, 19 liang of electro-hydraulic dynamic three-way chute before 3~5 mm sieve
Discharge port passes through flanged joint with the deflector chute on 3~5 millimeters of finished product ribbon conveyers 23 and abrasive belt conveyer 12 processed respectively;
Deflector chute under 0~3 mm sieve on 20 discharge port of funnel and 0~3 millimeter of finished product ribbon conveyer 24 passes through flange
Connection, 12 head funnel of abrasive belt conveyer processed are connect by flange with the feed inlet of sand feeding bucket elevator 25 processed,
The sand feeding bucket elevator 25 processed is connected by elevator chute 27 with sand surge bunker 26 processed;Vibrating screen 3
It is equipped with to be flexible coupling with the discharge port of secondary vibration sieve 15 and passes through flanged joint with corresponding chute.
The building stones produce two sections of sieve classification systems can be 2 sets or more arranged side by side along finished product ribbon conveyer according to production needs
Set.
Embodiment 2:A kind of building stones produce the sieve classification method of two sections of sieve classification systems, are as follows:
A, the building stones after impact breaker is crushed shaping by feeding ribbon conveyer 1 by the first distributing device 2 by building stones
It is evenly arranged on a vibrating screen 3;
B, by the screening of a vibrating screen, the building stones more than 80 millimeters, will by chute 4 before a vibrating screen 3 and returning charge sieve
The building stones for not meeting Particle size requirements are transported on impact breaker broken shaping again by the reprinting of returning charge ribbon conveyer 9;
C, by the screening of a vibrating screen, 45~80 millimeters of building stones pass through electricity before a vibrating screen 3 and 45~80 mm sieves
Hydraulic dynamic three-way chute 5 is transported to 45~80 millimeters of finished bin storages by 45~80 millimeters of finished product ribbon conveyers 10;When not needing
When producing 45~80 millimeters of building stones, returning charge can be entered by electro-hydraulic dynamic three-way chute 5 before a vibrating screen 3 and 45~80 mm sieves
In ribbon conveyer 9;
D, by the screening of a vibrating screen, 30~45 millimeters of building stones pass through electricity before a vibrating screen 3 and 30~45 mm sieves
Building stones are transported to sand surge bunker processed by hydraulic dynamic three-way chute 6 by abrasive belt conveyer 12 processed by sand feeding bucket elevator 25 processed
26;When 30-45 millimeters of building stones need not be produced, before a vibrating screen 3 and 30~45 mm sieves electro-hydraulic dynamic three can also be passed through
Logical chute 6 enters in returning charge ribbon conveyer 9;
E, by the screening of a vibrating screen, 20~30 millimeters of building stones pass through electricity before a vibrating screen 3 and 20~30 mm sieves
Hydraulic dynamic three-way chute 7 is sent to 20~30 millimeters of finished bin storages by 20~30 millimeters of finished product ribbon conveyers 11;20~30 millimeters
Building stones can also enter abrasive belt conveyer 12 processed by electro-hydraulic dynamic three-way chute 7 before a vibrating screen 3 and 20~30 mm sieves
In, building stones are transported in sand surge bunker 26 processed by sand feeding bucket elevator 25 processed;
F, by the screening of a vibrating screen, 0~20 millimeter of building stones pass through funnel 8 under a vibrating screen 3 and 0~20 mm sieve
Building stones are evenly arranged on secondary vibration sieve 15 by the second distributing device 14 by 0~20 millimeter of ribbon conveyer 13;
G, the screening sieved by secondary vibration, 15~20 millimeters of building stones pass through electricity before secondary vibration 15 and 15~20 mm sieves of sieve
Hydraulic dynamic three-way chute 16 is reprinted by 10~20 millimeters of finished product ribbon conveyers 21 by ribbon conveyer and is transported to 10~20 again
Millimeter finished bin storage;15~20 millimeters of building stones can also be sieved by secondary vibration electro-hydraulic dynamic three before 15 and 15~20 mm sieves
Logical chute 16 enters in abrasive belt conveyer 12 processed, and building stones are transported to sand surge bunker processed by sand feeding bucket elevator 25 processed
In 26;
H, the screening sieved by secondary vibration, 10~15 millimeters of building stones pass through electricity before secondary vibration 15 and 10~15 mm sieves of sieve
Hydraulic dynamic three-way chute 17 is reprinted by 10~20 millimeters of finished product ribbon conveyers 21 by ribbon conveyer and is transported to 10~20 again
Millimeter finished bin storage;10~15 millimeters of building stones can also be sieved by secondary vibration electro-hydraulic dynamic three before 15 and 10~15 mm sieves
Logical chute 17 enters in abrasive belt conveyer 12 processed, and building stones are transported to sand surge bunker processed by sand feeding bucket elevator 25 processed
In 26;
I, the screening sieved by secondary vibration, 5~10 millimeters of building stones pass through secondary vibration sieve it is electro-hydraulic before 15 and 5~10 mm sieves
Dynamic three-way chute 18 is reprinted by 5~10 millimeters of finished product ribbon conveyers 22 by ribbon conveyer again is transported to 5~10 millimeters
Finished bin is stored;5~10 millimeters of building stones can also sieve electro-hydraulic dynamic three-way chute before 15 and 5~10 mm sieves by secondary vibration
18 enter in abrasive belt conveyer 12 processed, and building stones are transported in sand surge bunker 26 processed by sand feeding bucket elevator 25 processed;
J, the screening sieved by secondary vibration, 3~5 millimeters of building stones pass through secondary vibration sieve it is electro-hydraulic dynamic before 15 and 3~5 mm sieves
Three-way chute 19 is transported to 3~5 millimeters of finished bin storages by 3~5 millimeters of finished product ribbon conveyers 23;3~5 millimeters of building stones
Electro-hydraulic dynamic three-way chute 19 enters in abrasive belt conveyer 12 processed before 15 and 3~5 mm sieves being sieved by secondary vibration, passes through
Building stones are transported in sand surge bunker 26 processed by sand feeding bucket elevator 25 processed;
K, the screening sieved by secondary vibration, 0~3 millimeter of building stones sieve funnel 20 under 15 and 0~3 mm sieve by secondary vibration
It is reprinted once or twice by ribbon conveyer by 0~3 millimeter of finished product ribbon conveyer 24 and is transported to 0~3 millimeter of finished bin
Storage.
Claims (4)
1. a kind of building stones produce two sections of sieve classification systems, it is characterised in that:The building stones produce two sections of sieve classification system packets
Include feeding ribbon conveyer(1), the first distributing device(2), a vibrating screen(3), returning charge sieve before chute(4), 45~80 mm sieves
Preceding electro-hydraulic dynamic three-way chute(5), electro-hydraulic dynamic three-way chute before 30~45 mm sieves(6), electro-hydraulic dynamic three-way before 20~30 mm sieves
Chute(7), funnel under 0~20 mm sieve(8), returning charge ribbon conveyer(9), 45~80 millimeters of finished product ribbon conveyers(10),
20~30 millimeters of finished product ribbon conveyers(11), abrasive belt conveyer processed(12), 0~20 millimeter of ribbon conveyer(13), second
Distributing device(14), secondary vibration sieve(15), electro-hydraulic dynamic three-way chute before 15~20 mm sieves(16), it is electro-hydraulic before 10~15 mm sieves
Dynamic three-way chute(17), electro-hydraulic dynamic three-way chute before 5~10 mm sieves(18), electro-hydraulic dynamic three-way chute before 3~5 mm sieves
(19), funnel under 0~3 mm sieve(20), 10~20 millimeters of finished product ribbon conveyers(21), 5~10 millimeters of finished product belt conveyings
Machine(22), 3~5 millimeters of finished product ribbon conveyers(23), 0~3 millimeter of finished product ribbon conveyer(24), sand feeding bucket lifting processed
Machine(25), sand surge bunker processed(26)With elevator chute(27);Vibrating screen(3)Using four layers of sieve-plate structure, first
Layer aperture sieve plate (3-1) is 80 millimeters, and the aperture second layer sieve plate (3-2) is 45 millimeters, and the aperture third layer sieve plate (3-3) is 30 millis
Rice, the 4th layer of sieve plate (3-4) aperture are 20 millimeters;The secondary vibration sieve(15)Also four layers of sieve-plate structure, first layer sieve plate are used
The aperture (15-1) is 15 millimeters, and the aperture second layer sieve plate (15-2) is 10 millimeters, and the aperture third layer sieve plate (15-3) is 5 millimeters,
4th layer of sieve plate (15-4) aperture is 3 millimeters.
2. building stones according to claim 1 produce two sections of sieve classification systems, it is characterised in that:The feeding belt conveying
Machine(1)Head funnel passes through flange and the first distributing device(2)Upper flange connects, first distributing device(2)Lower flange with it is described
Vibrating screen(3)On the first seal closure(3-5)Feed opening flange connects, the first seal closure(3-5)Under be flexible coupling flange with
Vibrating screen(3)Upper flange connects, first seal closure(3-5)Two mouths that gather dust of upper setting(3-7);
Vibrating screen(3)80 millimeters of sieve plates of first layer(3-1)Discharge port and returning charge sieve before chute(4)Feed inlet phase
It is corresponding, a vibrating screen(3)45 millimeters of sieve plates of the second layer(3-2)Discharge port and 45~80 mm sieves before electro-hydraulic dynamic three
Logical chute(5)Feed inlet is corresponding, a vibrating screen(3)30 millimeters of sieve plates of third layer(3-3)Discharge port and 30~
Electro-hydraulic dynamic three-way chute before 45 mm sieves(6)Feed inlet is corresponding, a vibrating screen(3)The 4th layer of 20 millimeters of sieve plate
(3-4)Discharge port and 20~30 mm sieves before electro-hydraulic dynamic three-way chute(7)Feed inlet it is corresponding;Vibrating screen
(3)Funnel under 0~20 mm sieve of lower corresponding installation(8), a vibrating screen(3)It is lower under corresponding 0~20 mm sieve
Funnel(8)Between be equipped be flexible coupling(3-6), described to be flexible coupling(3-6)Up and down by flange respectively with a vibrating screen(3)Under
Funnel under flange and 0~20 mm sieve(8)Upper flange connects;
Chute before the returning charge sieve(4)Discharge port and returning charge ribbon conveyer(9)On deflector chute by flanged joint, described 45
Electro-hydraulic dynamic three-way chute before~80 mm sieves(5)Two discharge ports respectively with returning charge ribbon conveyer(9)With 45~80 millimeters of finished products
Ribbon conveyer(10)On deflector chute by flanged joint, electro-hydraulic dynamic three-way chute before 30~45 mm sieve(6)Scene 2
Material mouth respectively with returning charge ribbon conveyer(9)With abrasive belt conveyer processed(12)On deflector chute by flanged joint, described 20
Electro-hydraulic dynamic three-way chute before~30 mm sieves(7)Two discharge ports respectively with 20~30 millimeters of finished product ribbon conveyers(11)And system
Abrasive belt conveyer(12)On deflector chute pass through flanged joint;Funnel under 0~20 mm sieve(8)Discharge port and 0~20
Millimeter ribbon conveyer(13)On deflector chute pass through flanged joint;
0~20 millimeter of ribbon conveyer(13)Head funnel passes through flange and the second distributing device(14)Feed inlet connection,
Second distributing device(14)Lower flange is sieved with secondary vibration(15)On the second seal closure(15-5)Feed opening flange connects, the
Two seal closures(15-5)Under be flexible coupling flange and secondary vibration sieve(15)Upper flange connects, in second seal closure(15-5)
Two mouths that gather dust of upper setting(15-7);
The secondary vibration sieve(15)15 millimeters of sieve plates of first layer(15-1)Discharge port and 15~20 mm sieves before it is electro-hydraulic dynamic
Three-way chute(16)Feed inlet it is corresponding, secondary vibration sieve(15)10 millimeters of sieve plates of the second layer(15-2)Discharge port
With electro-hydraulic dynamic three-way chute before 10~15 mm sieves(17)Feed inlet it is corresponding, secondary vibration sieve(15)Third layer 5
Millimeter sieve plate(15-3)Discharge port and 5~10 mm sieves before electro-hydraulic dynamic three-way chute(18)Feed inlet it is corresponding, described two
Secondary vibrating screen(15)The 4th layer of 3 millimeters of sieve plate(15-4)Discharge port and 3~5 mm sieves before electro-hydraulic dynamic three-way chute(19)'s
Feed inlet is corresponding;
The secondary vibration sieve(15)Funnel under 0~3 mm sieve of lower corresponding installation(20), the secondary vibration sieve(15)With it is opposite
Funnel under 0~3 mm sieve answered(20)Between be equipped be flexible coupling(15-6), it is flexible coupling(15-6)Up and down by flange respectively with
Secondary vibration sieves(15)Funnel under lower flange and 0~3 mm sieve(20)Upper flange connects;
Electro-hydraulic dynamic three-way chute before 15~20 mm sieve(16)Two discharge ports respectively with 10~20 millimeters of finished product belt conveyings
Machine(21)With abrasive belt conveyer processed(12)On deflector chute by flanged joint, electro-hydraulic dynamic three-way before 10~15 mm sieve
Chute(17)Two discharge ports respectively with 10~20 millimeters of finished product ribbon conveyers(21)With abrasive belt conveyer processed(12)On lead
Hopper is by flanged joint, electro-hydraulic dynamic three-way chute before 5~10 mm sieve(18)Two discharge ports respectively with 5~10 millimeters at
Product ribbon conveyer(22)With abrasive belt conveyer processed(12)On deflector chute by flanged joint, electricity before 3~5 mm sieve
Hydraulic dynamic three-way chute(19)Two discharge ports respectively with 3~5 millimeters of finished product ribbon conveyers(23)With abrasive belt conveyer processed(12)
On deflector chute pass through flanged joint;
Funnel under 0~3 mm sieve(20)Discharge port and 0~3 millimeter of finished product ribbon conveyer(24)On deflector chute pass through
Flanged joint, the abrasive belt conveyer processed(12)Head funnel passes through flange and sand feeding bucket elevator processed(25)Charging
Mouth connection, the sand feeding bucket elevator processed(25)Pass through elevator chute(27)With sand surge bunker processed(26)It is connected;Institute
State a vibrating screen(3)It is sieved with secondary vibration(15)Discharge port be equipped with to be flexible coupling and connected by flange with corresponding chute
It connects.
3. building stones according to claim 2 produce two sections of sieve classification systems, it is characterised in that:The building stones produce two sections
Sieve classification system is needed according to production can be along finished product ribbon conveyer 2 sets or more sets arranged side by side.
4. building stones described in claim 1 produce the sieve classification method of two sections of sieve classification systems, it is as follows:
A, the building stones after impact breaker is crushed shaping are by feeding ribbon conveyer(1)Pass through the first distributing device(2)
Building stones are evenly arranged in a vibrating screen(3)On;
B, by the screening of a vibrating screen, the building stones more than 80 millimeters pass through a vibrating screen(3)Chute before being sieved with returning charge
(4), the building stones of Particle size requirements will not met by returning charge ribbon conveyer(9)Reprinting is transported on impact breaker and is crushed again
Shaping;
C, by the screening of a vibrating screen, 45~80 millimeters of building stones pass through a vibrating screen(3)Before 45~80 mm sieves
Electro-hydraulic dynamic three-way chute(5)By 45~80 millimeters of finished product ribbon conveyers(10)It is transported to 45~80 millimeters of finished bin storages;When
When need not produce 45~80 millimeters of building stones, a vibrating screen can be passed through(3)With electro-hydraulic dynamic three-way chute before 45~80 mm sieves
(5)Into returning charge ribbon conveyer(9)In;
D, by the screening of a vibrating screen, 30~45 millimeters of building stones pass through a vibrating screen(3)Before 30~45 mm sieves
Electro-hydraulic dynamic three-way chute(6)By abrasive belt conveyer processed(12)By sand feeding bucket elevator processed(25)Building stones are transported to system
Sand surge bunker(26);When 30-45 millimeters of building stones need not be produced, a vibrating screen can also be passed through(3)With 30~45 millimeters
Electro-hydraulic dynamic three-way chute before sieve(6)Into returning charge ribbon conveyer(9)In;
E, by the screening of a vibrating screen, 20~30 millimeters of building stones pass through a vibrating screen(3)Before 20~30 mm sieves
Electro-hydraulic dynamic three-way chute(7)By 20~30 millimeters of finished product ribbon conveyers(11)It is sent to 20~30 millimeters of finished bin storages;20~
30 millimeters of building stones can also pass through a vibrating screen(3)With electro-hydraulic dynamic three-way chute before 20~30 mm sieves(7)Into abrasive band processed
Formula conveyer(12)In, by sand feeding bucket elevator processed(25)Building stones are transported to sand surge bunker processed(26)In;
F, by the screening of a vibrating screen, 0~20 millimeter of building stones pass through a vibrating screen(3)It is leaked under 0~20 mm sieve
Bucket(8)By 0~20 millimeter of ribbon conveyer(13)Pass through the second distributing device(14)Building stones are evenly arranged in secondary vibration sieve
(15)On;
G, the screening sieved by secondary vibration, 15~20 millimeters of building stones are sieved by secondary vibration(15)Before 15~20 mm sieves
Electro-hydraulic dynamic three-way chute(16)By 10~20 millimeters of finished product ribbon conveyers(21)It is reprinted and is transported to again by ribbon conveyer
10~20 millimeters of finished bin storages;15~20 millimeters of building stones can also be sieved by secondary vibration(15)Before 15~20 mm sieves
Electro-hydraulic dynamic three-way chute(16)Into abrasive belt conveyer processed(12)In, by sand feeding bucket elevator processed(25)Building stones are defeated
It is sent to sand surge bunker processed(26)In;
H, the screening sieved by secondary vibration, 10~15 millimeters of building stones are sieved by secondary vibration(15)Before 10~15 mm sieves
Electro-hydraulic dynamic three-way chute(17)By 10~20 millimeters of finished product ribbon conveyers(21)It is reprinted and is transported to again by ribbon conveyer
10~20 millimeters of finished bin storages;10~15 millimeters of building stones can also be sieved by secondary vibration(15)Before 10~15 mm sieves
Electro-hydraulic dynamic three-way chute(17)Into abrasive belt conveyer processed(12)In, by sand feeding bucket elevator processed(25)Building stones are defeated
It is sent to sand surge bunker processed(26)In;
I, the screening sieved by secondary vibration, 5~10 millimeters of building stones are sieved by secondary vibration(15)With electricity before 5~10 mm sieves
Hydraulic dynamic three-way chute(18)By 5~10 millimeters of finished product ribbon conveyers(22)Reprinted again by ribbon conveyer and be transported to 5~
10 millimeters of finished bin storages;5~10 millimeters of building stones can also be sieved by secondary vibration(15)It is moved with electro-hydraulic before 5~10 mm sieves
Three-way chute(18)Into abrasive belt conveyer processed(12)In, by sand feeding bucket elevator processed(25)Building stones are transported to system
Sand surge bunker(26)In;
J, the screening sieved by secondary vibration, 3~5 millimeters of building stones are sieved by secondary vibration(15)With it is electro-hydraulic before 3~5 mm sieves
Dynamic three-way chute(19)By 3~5 millimeters of finished product ribbon conveyers(23)It is transported to 3~5 millimeters of finished bin storages;3~5 millimeters
Building stones can also be sieved by secondary vibration(15)With electro-hydraulic dynamic three-way chute before 3~5 mm sieves(19)It is conveyed into abrasive belt processed
Machine(12)In, by sand feeding bucket elevator processed(25)Building stones are transported to sand surge bunker processed(26)In;
K, the screening sieved by secondary vibration, 0~3 millimeter of building stones are sieved by secondary vibration(15)With funnel under 0~3 mm sieve
(20)By 0~3 millimeter of finished product ribbon conveyer(24)It is reprinted once or twice by ribbon conveyer and is transported to 0~3 millimeter
Finished bin is stored.
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Application publication date: 20181026 |