CN209061328U - Building stones crushing and screening sand dedusting integrated manufacturing system (IMS) - Google Patents

Abstract

The utility model discloses a kind of building stones crushing and screening sand dedusting integrated manufacturing system (IMS)s, including feeding crushing system, three sections of screening systems, sand system, dust pelletizing system and loading system processed, the feed inlet of corresponding, the main fortune belt feeder of discharge port of the broken lower chute of two returning charge counterattacks, feed back chute and the broken lower three-way chute of counterattack, the feed inlet of corresponding 0~3 millimeter of belt conveyer of the discharge port of ashes planet blocking valve, the discharge port corresponding first that ashes reprints scrapper conveyor reprint the feed inlet of belt feeder；The discharge port of different grain size belt conveyer corresponds to the feed inlet of corresponding granularity finished product bin, the discharge port for reprinting three-way chute under belt feeder corresponds to the feed inlet of the first feed bin of finished product, the discharge port of second reprinting belt feeder corresponds to the feed inlet of the second feed bin of finished product, and the discharge port of finished sand belt feeder corresponds to the feed inlet of finished sand feed bin.The utility model device utilization rate is relatively high, and occupied area is small, facilitates production scheduling, convenient for centralized management, produces Standardization Construction for building stones and provides important evidence.

Description

Building stones crushing and screening sand dedusting integrated manufacturing system (IMS)

Technical field:

The utility model relates to a kind of building stones production systems, comprehensive more particularly to a kind of building stones crushing and screening sand dedusting Production system belongs to building stones production technical field.

Background technique:

Existing building stones production system includes feeding crushing system, screening system, sand system, dust pelletizing system and dress processed Vehicle system, each system is mutually indepedent, takes up a large area, and causes building stones production cost relatively high, and each system there is Certain problem and drawback.

Existing building stones production feeding crushing system generally uses oversize rock material to be sent into Hubei Province formula by oscillating feeder through feed bin Crusher carries out level-one coarse crushing, building stones after level-one coarse crushing by belt conveyor be sent to impact breaker carry out it is thin into second level It is broken；Building stones after impact breaker is fine crushing are sent into vibrating screen by belt conveyor and are sieved, and screen out several differences The stone of grain size specification, the stone for meeting granularity requirements are sent to finished product material heap by finished belt conveyer；A partial size is unsatisfactory for want The stone asked is sent to impact breaker by belt conveyor returning charge and is crushed again, forms closed circuit multiple circulation.Existing skill Art uses feedstock transportation of the oscillating feeder as building stones production system, and because oscillating feeder feed ability is limited, separate unit is broken Machine processing capacity is limited, needs to design a plurality of production line to meet yield.It causes occupied area larger, and is mostly outdoor life It produces, does not meet environmental requirement.The impact breaker that the prior art uses is the equipment of two-stage crushing, while is undertaken again through being sieved The broken of the stone returning charge of Particle size requirements is unsatisfactory for after subsystem classification, because carrying out the building stones grain after coarse crushing by jaw crusher The returning charge of a Particle size requirements is unsatisfactory for after degree composition and being classified after impact breaker is fine crushing using screening system Stone grit size composition is different, and the building stones partial size being crushed by level-one jaw crusher passes through usually at 150~300 millimeters Second level impact breaker is crushed the building stones partial size after shaping usually at 50~150 millimeters；And it is identical anti-using technical parameter Impact crusher cannot effectively play equipment performance, while influence the production capacity of production line.

Existing building stones produce sieve classification system, generally use 1 to 3 layers of vibrating screen, screen out the stone of 1 to 4 kinds of partial sizes Material, the building stones of generally 20~30 millimeters, 10~20 millimeters, 5~10 millimeters, 0~5 millimeter partial sizes, partial size type is less, cannot Meet market needs.In order to meet the building stones of more partial size types, it usually needs build whole production line again, cause land occupation face Product is big, and equipment overlapping investment cannot efficiently use existing equipment.In the actual production process since building stones partial size differs larger, Required shaker performance is also different, and when sieving large-sized building stones, required vibrating screen amplitude is big, frequency is low；Sieve small particle Building stones when, required vibrating screen amplitude is small, frequency is high；Sieving area needed for sieving big particle diameter stone and small particle building stones is also different Sample.In the prior art, it is typically employed in and carrys out the biggish building stones of Sieving and casing difference 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.

The Machine-made Sand production system of the prior art, generallys use building stones of the partial size less than 50 millimeters and enters sand making machine and carry out brokenly It is broken, enter vibrating screen by the building stones that sand making machine was crushed and sieved through row, the building stones less than 4.75 millimeters enter powder concentrator through row Powder is selected, the finished sand for meeting gradation requirement enters finished sand feed bin, and the ashes for not meeting gradation requirement enters grey filler bin, is greater than 4.75 millimeters of building stones are again introduced into sand making machine and are crushed.It is gathered dust simultaneously using deduster transfer point and vibrating screen. It is more that equipment is reprinted needed for the Machine-made Sand production system of the prior art, is taken up a large area, and (cannot be greater than according to vibrating screen returning charge amount 4.75 millimeters of building stones) size automatically control enter sand making machine raw material number, cause finished sand quality unstable.

Gate batcher and entrucking belt conveyor under existing finished product bin carry out the fugitive dust generated during entrucking, It generallys use the deduster being mounted on or near entrucking belt conveyor to gather dust, the ashes being collected into is directly or by scraping Trigger is discharged into entrucking belt conveyor, seriously affects finished product building stones quality, while can generate reentrainment of dust.

Existing building stones produce finished product building stones storage warehouse, and usual building stones production system uses 1 to 8 finished product building stones storehouses, i.e., 45~80 millimeters of partial size, 20~30 millimeters, 10~20 millimeters, 5~10 millimeters, 3~5 millimeters, 0~3 millimeter of building stones and mechanism Finished sand, general finished product bin are passed through frequently with arrangement in one line, and occupied area is larger.Loading system generallys use finished product bin Lower setting entrucking channel needs entrucking operator by finished product bin tail gates and bulk machine through luggage vehicle during entrucking Member and driver's cooperation, building stones are often resulted in during finished product building stones entrucking and overflow the failures such as compartment.Due to each finished product Feed bin is designed with entrucking channel, i.e., each entrucking channel can only load a kind of finished product building stones, but often 20~30 millimeters of partial sizes Finished product building stones need and the finished product building stones of 10~20 millimeters of partial sizes are through row gradation entrucking, and the finished product building stones of 5~10 millimeters of partial sizes need Vehicle is needed repeatedly to weigh and be transferred to corresponding finished product bin with the finished product building stones of 10~20 millimeters of partial sizes through row gradation entrucking Lower entrucking channel could complete gradation entrucking, cause loading speed slow and low efficiency, need operator more, cost is relatively high.

Utility model content:

The technical problem to be solved by the utility model is to provide a kind of comprehensive production systems of building stones crushing and screening sand dedusting System, utilization rate of equipment and installations is relatively high, and occupied area is small, facilitates production scheduling, convenient for centralized management, produces Standardization Construction for building stones Provide important evidence.

The utility model is adopted the technical scheme that in order to solve the technical problem:

A kind of building stones crushing and screening sand dedusting integrated manufacturing system (IMS), including feeding crushing system, three sections of screening systems, system Sand system, dust pelletizing system and loading system, the feeding crushing system include mine car, receiver bin, heavy-duty plate feeder, feed back Drag conveyor, feed back chute, weight wrench portion three-way chute, the first jaw crusher, the second jaw crusher, the first reaction type Belt feeder, returning charge three-way chute, the first returning charge are reprinted in crusher, the second impact breaker, the broken lower three-way chute of counterattack, returning charge Impact breaker, the second returning charge impact breaker, the broken lower chute of the first returning charge counterattack and the broken lower chute of the second returning charge counterattack, The receiver bin is mounted on heavy-duty plate feeder, and the front end discharge port of the heavy-duty plate feeder corresponds to the heavy wrench The feed inlet of portion's three-way chute, the lower part reverse-running section of the heavy-duty plate feeder correspond to the charging of the feed back drag conveyor Mouthful, the discharge port of the feed back drag conveyor corresponds to the feed inlet of feed back chute, the discharging of the heavy wrench portion three-way chute Mouth respectively corresponds the discharge port of first jaw crusher and the second jaw crusher, the discharging of first jaw crusher Mouthful connect with the feed inlet of the first impact breaker by chute, the discharge port of second jaw crusher pass through chute and The feed inlet of second impact breaker connects, the discharge port point of first impact breaker and the second impact breaker The feed inlet of the broken lower three-way chute of the counterattack is not corresponded to, and the discharge port that belt feeder is reprinted in the returning charge corresponds to the returning charge threeway The feed inlet of chute, the discharge port of the returning charge three-way chute respectively correspond the first returning charge impact breaker and second and return Expect the feed inlet of impact breaker, it is broken that the discharge port of the first returning charge impact breaker corresponds to the first returning charge counterattack The feed inlet of lower chute, the discharge port of the second returning charge impact breaker correspond to the broken lower chute of the second returning charge counterattack Feed inlet；Three sections of screening systems include main fortune belt feeder, a three-deck vibrating screen, be greater than 80 mm sieves before chute, 45~ Three-way chute, 20~30 before three-way chute, 45~80 millimeters of belt feeders, return conveyer machine, 30~45 mm sieves before 80 mm sieves Three-way chute, sand charging belt machine processed, 10~20 millimeters of reprinting belt feeders, 20~30 millimeters of belt feeders, 5~10 millis before mm sieve Rice reprints three-way chute, 15~20 millimeters before belt feeder, 0~30 millimeter of belt feeder, secondary three-deck vibrating screen, 10~15 mm sieves Three-way chute, 0~10 millimeter of belt feeder, three times three-way chute, 5~8 mm sieves before three-deck vibrating screen, 8~10 mm sieves before sieving Three-way chute, 0~3 millimeter of belt feeder, 0~3 millimeter of first reprinting belt feeder, reprinting skin before preceding three-way chute, 3~5 mm sieves Three-way chute, 0~3 millimeter of second reprinting belt feeder, 3~5 millimeters of belt feeders, 5~10 millimeters of belt feeders and 10~20 under band machine Millimeter belt feeder；The discharge port of the main fortune belt feeder corresponds to the feed inlet of a three-deck vibrating screen, described one time three layers The discharge port of vibrating screen respectively corresponds described be greater than before 80 mm sieves before chute, 45~80 mm sieves according to the size of building stones partial size Three-way chute and 0~30 millimeter of belt conveyer before three-way chute, 20~30 mm sieves before three-way chute, 30~45 mm sieves Feed inlet, the discharge port for being greater than chute before 80 mm sieves correspond to the feed inlet of the return conveyer machine, the return conveyer The discharge port of machine corresponds to the feed inlet that belt feeder is reprinted in returning charge described in feeding crushing system, threeway before 45~80 mm sieve The discharge port of chute corresponds to the feed inlet of 45~80 millimeters of belt conveyers, three-way chute before 30~45 mm sieve Discharge port respectively corresponds the feed inlet of the return conveyer machine, sand charging belt machine processed；The discharging of 0~30 millimeter of belt feeder The feed inlet of mouthful corresponding secondary three-deck vibrating screen, the discharge port of the secondary three-deck vibrating screen is according to the size of building stones partial size Respectively correspond threeway before three-way chute, 15~20 mm sieves before three-way chute, 10~15 mm sieves before 20~30 mm sieve The feed inlet of chute, 0~10 millimeter of belt conveyer, two discharge ports of three-way chute respectively correspond before 20~30 mm sieve The feed inlet of 20~30 millimeters of belt feeders, sand charging belt machine processed, three-way chute and 15 before 10~15 mm sieve~ Two discharge ports of three-way chute respectively correspond the charging of 10~20 millimeters of belt feeders, sand charging belt machine processed before 20 mm sieves Mouthful, the discharge port of 10~20 millimeters of belt feeders correspond to it is described 10~20 millimeters reprint belt feeder feed inlets, described 0~10 The feed inlet of the corresponding three-deck vibrating screen three times of the feed inlet of millimeter belt feeder, the discharge port root of the three-deck vibrating screen three times According to building stones partial size size respectively with three-way chute, 8~10 before three-way chute (38), 5~8 mm sieves before 3~5 mm sieve The feed inlet of three-way chute and 0~3 millimeter of belt conveyer is connected before mm sieve, three-way chute before 3~5 mm sieves Discharge port corresponds to the feed inlet of 3~5 millimeters of belt conveyers, three-way chute, 8~10 mm sieves before 5~8 mm sieve The discharge port of preceding three-way chute corresponds to the feed inlet of 5~10 millimeters of belt conveyers, 0~3 millimeter of belt conveyer Discharge port correspond to it is described 0~3 millimeter first reprinting belt feeder feed inlet, it is described 0~3 millimeter first reprinting belt feeder go out Material mouth corresponds to the feed inlet of three-way chute under the reprinting belt feeder, and the discharge port for reprinting three-way chute under belt feeder is corresponding The feed inlet of 0~3 millimeter of second reprinting belt feeder；The sand system processed include charging bucket elevator, sand vibrating screen processed, Sieve lower scraping plate machine, finished sand belt feeder, sand surge bunker processed, sieve front scrapping plate machine, finished product bucket elevator, electro-hydraulic dynamic gate, vibration Chute before distributing device, finished sand blocking valve, feeding drag conveyor, vibration material distributor, selects powder at finished product bucket elevator chute Chute, ashes chute, feeding bucket elevator chute, sand making machine under machine, finished sand chute, feeding bucket elevator, sand making machine The feed inlet of the sand surge bunker processed, the system are corresponded to the discharge port of ashes planet blocking valve, the charging bucket elevator The discharge port of sand surge bunker corresponds to the feed inlet of the electro-hydraulic dynamic gate, and the discharge port of the electro-hydraulic dynamic gate corresponds to the feeding The feed inlet of bucket elevator, the discharge port of the feeding bucket elevator correspond to the charging of the feeding bucket elevator chute Mouthful, the discharge port of the feeding bucket elevator chute corresponds to the feed inlet of the sand making machine, the discharge port pair of the sand making machine The feed inlet of chute under the sand making machine is answered, the discharge port of chute corresponds to the charging of the vibration material distributor under the sand making machine Mouthful, the discharge port of the vibration material distributor corresponds to the feed inlet of chute before the vibrating distributor, slips before the vibrating distributor The discharge port of slot corresponds to the feed inlet of the sand vibrating screen processed, and the discharge port of the sand vibrating screen processed is according to the size of building stones partial size It respectively corresponds the sieve lower scraping plate machine and sieves the feed inlet of front scrapping plate machine, the discharge port of the sieve front scrapping plate machine corresponds to the feeding The discharge port of the feed inlet of bucket elevator, the sieve lower scraping plate machine corresponds to the feed inlet of the finished product bucket elevator, described The discharge port of finished product bucket elevator corresponds to the feed inlet of the finished product bucket elevator chute, and the finished product bucket elevator slips The discharge port of slot corresponds to the feed inlet of the powder concentrator, and the discharge port of the powder concentrator is respectively corresponded according to the size of discharging partial size The discharge port of the feed inlet of the ashes chute and finished sand chute, the ashes chute passes through flange and ashes planet blocking valve It is connected, the discharge port of the finished sand chute corresponds to the feed inlet of the finished sand blocking valve, the finished sand blocking valve Discharge port corresponds to the feed inlet of the finished sand belt feeder；The dust pelletizing system includes that feeding is crushed deduster, vibrating screen dedusting Device, sand system dust removing device processed, deduster reprint scrapper conveyor, deduster scrapper conveyor, the first entrucking deduster, the second entrucking dedusting Deduster on device, feed bin, entrucking deduster scrapper conveyor, deduster scrapper conveyor, ashes bucket elevator and ashes are reprinted on feed bin Scrapper conveyor, the feeding are crushed deduster and are connected by 4 unloading valves with the feed inlet of the deduster scrapper conveyor, the vibration Dynamic sieve deduster is connected also by 4 unloading valves with the feed inlet of the deduster scrapper conveyor, the sand system dust removing device processed It is connected by 2 unloading valves with the feed inlet of the deduster scrapper conveyor, the discharge port of the deduster scrapper conveyor is according to ash The size of powder diameter is reprinted on scrapper conveyor, the first entrucking deduster, the second entrucking deduster and feed bin with the deduster respectively The feed inlet of deduster is connected, the first entrucking deduster, the second entrucking deduster discharge port respectively with the ashes The feed inlet of bucket elevator is connected, the discharge port of the deduster also charging with the ashes bucket elevator on the feed bin Mouth is connected, and the discharge port of the ashes bucket elevator is connected with the feed inlet that the ashes reprints scrapper conveyor；The dress Vehicle system includes 45~80mm finished product bin, 10~20mm finished product bin, 20~30mm finished product bin, 5~10 mm finished product bins Finished product bin, 3~5mm finished product bin, the first feed bin of 0~3mm finished product, the second feed bin of 0~3mm finished product, finished sand feed bin, 0~ The storehouse 3mm lower belt machine, the storehouse 0~5mm lower belt machine, the storehouse 5~30mm lower belt machine, the storehouse 10~80mm lower belt machine, the first entrucking Belt feeder, the first bulk machine, the first weighbridge, the second bulk machine, the second entrucking belt feeder and two weighbridges, 45~80mm finished product The discharge port of feed bin and 10~20mm finished product bin corresponds to the feed inlet of the storehouse 10~80mm lower belt machine, the 20~30mm The discharge port of finished product bin and 5~10 mm finished product bin finished product bins corresponds to the feed inlet of the storehouse the 5~30mm lower belt machine, The discharge port of the first feed bin of 3~5mm finished product bin and 0~3mm finished product corresponds to the charging of the storehouse the 0~5mm lower belt machine Mouthful, the discharge port of 0~3mm finished product, second feed bin and finished sand feed bin corresponds to the charging of the storehouse the 0~3mm lower belt machine Mouthful, the discharge port of the storehouse the 5~30mm lower belt machine and the storehouse 10~80mm lower belt machine corresponds to the first entrucking belt feeder Feed inlet, the discharge port of the first entrucking belt feeder correspond to the feed inlet of first bulk machine, and first bulk machine is logical It crosses first weighbridge and carries out metering weighing, the discharge port correspondence of the storehouse the 0~3mm lower belt machine and the storehouse 0~5mm lower belt machine The feed inlet of the second entrucking belt feeder, the discharge port of the second entrucking belt feeder correspond to the charging of second bulk machine Mouthful, second bulk machine carries out metering weighing by second weighbridge.

Lower threeway is broken in chute, the broken lower chute of the second returning charge counterattack, feed back chute and counterattack under the first returning charge counterattack is broken The discharge port of chute corresponds to the feed inlet of the main fortune belt feeder；The discharge port of the ashes planet blocking valve corresponds to described 0~3 The feed inlet of millimeter belt conveyer, the deduster reprint the discharge port and 0~3 millimeter of belt conveyer of scrapper conveyor Feed inlet is corresponding, and the discharge port that the ashes reprints scrapper conveyor corresponds to the charging of 0~3 millimeter of first reprinting belt feeder Mouthful；The discharge port of 45~80 millimeters of belt conveyers corresponds to the feed inlet of 45~80mm finished product bin, described 20~ The discharge port of 30 millimeters of belt conveyers corresponds to the feed inlet of 20~30mm finished product bin, 5~10 millimeters of reprintings skin Discharge port with machine corresponds to the feed inlet of 5~10 mm finished product bin finished product bin, 3~5 millimeters of belt conveyers Discharge port corresponds to the feed inlet of 3~5mm finished product bin, under the reprinting belt feeder described in the discharge port correspondence of three-way chute The feed inlet of the first feed bin of 0~3mm finished product, it is described 0~3 millimeter second reprinting belt feeder discharge port correspond to the 0~3mm at The feed inlet of two feed bin of position, the discharge port of the finished sand belt feeder correspond to the feed inlet of the finished sand feed bin.

The positive beneficial effect of the utility model is as follows:

1, the utility model uses three sections of sieve classification systems, can give full play to shaker performance, improve screening efficiency and Production capacity, while it being also convenient for the modularized design of screening system, make building stones production sieve classification system in energy conservation and environmental protection, reduce Also facilitate live construction while cost, produce screening system Standardization Construction for building stones and important evidence is provided.

2, the building stones for 45~80 millimeters of partial sizes that the utility model is produced are used for iron and steel enterprise, 30~45 millimeter particles The building stones of diameter are the best materials of sand system processed, and the building stones of 20~30 millimeters of partial sizes are used for high-speed rail construction project, 20~30 millimeter particles The building stones of diameter are used for business concrete mixing plant, and the building stones of 10~20 millimeters of partial sizes are used for Highway Construction Project Based, 5~10 millimeter particles The building stones of diameter are used for building enterprise, and the building stones of 3~5 millimeters of partial sizes are used for machine made brick, and the building stones of 0~3 millimeter of partial size are used for tunnel Whitewashing.

3, the utility model is arranged using building formula, is reduced occupied area, is gathered dust convenient for deduster, can give full play to sand processed Machine performance, improves the quality of production capacity and finished sand, while being also convenient for the modularized design of Machine-made Sand production system, makes mechanism Sand production system energy conservation and environmental protection, reduce cost while facilitate live construction, for Machine-made Sand production system standardization build If providing important evidence.

4, ashes is discharged to accordingly by the utility model respectively by the discharger under deduster on entrucking deduster and feed bin In ashes scrapper conveyor, 0~3mm that ashes is transported on finished product bin by scrapper conveyor is reprinted by ashes bucket elevator and ashes It reprints in belt feeder, belt feeder is reprinted by 0~3mm, ashes is transported in 0~3mm building stones finished product bin, ashes is made not have to build If dedicated ash filler bin, and ashes can be sold with 0~3mm finished product building stones, improve 0~3mm finished product building stones quality Meanwhile increasing income from sales.

5, the loading system of the utility model arranges two rows parallel arrangement using 8 feed bins, passes through entrucking belt conveyor Car loading operation is carried out, weighbridge is provided with below the vehicle in entrucking channel, vehicle is placed in stationary on weighbridge, entire entrucking Journey does not need move vehicle, and entrucking is high-efficient, and entrucking point focuses at one, and entrucking deduster is facilitated to install concentratedly and entrucking workshop Construction, occupied area are small and convenient for management.

6, the utility model device utilization rate is relatively high, and occupied area is small, facilitates production scheduling, convenient for centralized management, is Building stones production Standardization Construction provides important evidence.

Detailed description of the invention:

Fig. 1 is that the overall structure of the utility model connects block diagram；

Fig. 2 is the structure connection block diagram of feeding crushing system in Fig. 1；

Fig. 3 is the structure connection block diagram of three sections of screening systems in Fig. 1；

Fig. 4 is the structure connection block diagram of sand system processed in Fig. 1；

Fig. 5 is the structure connection block diagram of dust pelletizing system in Fig. 1；

Fig. 6 is the structure connection block diagram of loading system in Fig. 1.

Specific embodiment:

The utility model is made further explanation in the following with reference to the drawings and specific embodiments:

Embodiment: referring to FIG. 1 to FIG. 6, a kind of building stones crushing and screening sand dedusting integrated manufacturing system (IMS), including feeding are broken System, two sections of screening systems, sand system, dust pelletizing system and loading system processed.

Feeding crushing system includes that mine car 1, receiver bin 2, heavy-duty plate feeder 3, feed back drag conveyor 4, feed back slip Slot 5, weight wrench portion three-way chute 6, the first jaw crusher 7, the second jaw crusher 8, the first impact breaker 9, second Impact breaker 10, the broken lower three-way chute 11 of counterattack, returning charge reprinting belt feeder 12, returning charge three-way chute 13, the first returning charge are anti- Under impact crusher 14, the second returning charge impact breaker 15, the broken lower chute 16 of the first returning charge counterattack and the second returning charge counterattack are broken Chute 17, receiver bin 2 are mounted on heavy-duty plate feeder 3, described in the front end discharge port correspondence of the heavy-duty plate feeder 3 The feed inlet of weight wrench portion three-way chute 6, the lower part reverse-running section of the heavy-duty plate feeder 3 correspond to the feed back scraper plate conveying The feed inlet of machine 4, the discharge port of the feed back drag conveyor 4 correspond to the feed inlet of feed back chute 5, the heavy wrench portion threeway The discharge port of chute 6 respectively corresponds the discharge port of first jaw crusher 7 and the second jaw crusher 8, described first Hubei Province The discharge port of formula crusher 7 is connect by chute with the feed inlet of the first impact breaker 9, second jaw crusher 8 Discharge port connect with the feed inlet of the second impact breaker 10 by chute, first impact breaker 9 and second The discharge port of impact breaker 10 respectively corresponds the feed inlet of the broken lower three-way chute 11 of the counterattack, and belt is reprinted in the returning charge The discharge port of machine 12 corresponds to the feed inlet of the returning charge three-way chute 13, and the discharge port of the returning charge three-way chute 13 respectively corresponds The feed inlet of the first returning charge impact breaker 14 and the second returning charge impact breaker 15, the first returning charge reaction type The discharge port of crusher 14 corresponds to the feed inlet of the broken lower chute 16 of the first returning charge counterattack, and the second returning charge reaction type is broken The discharge port of machine 15 corresponds to the feed inlet of the broken lower chute 17 of the second returning charge counterattack.

Three sections of screening systems include 18, three-deck vibrating screens 19 of main fortune belt feeder, are greater than chute 20,45 before 80 mm sieves Three-way chute before three-way chute 21,45~80 millimeters of belt feeders 22, return conveyer machine 23,30~45 mm sieves before~80 mm sieves 24, three-way chute 25,26,10~20 millimeters of reprinting belt feeders of sand charging belt machine processed, 27,20~30 milli before 20~30 mm sieves 29,0~30 millimeters of belt feeders 30 of rice 28,5~10 millimeters of reprinting belt feeders of belt feeder, 31,10~15 milli of secondary three-deck vibrating screen 33,0~10 millimeters of belt feeders 34 of three-way chute before three-way chute 32,15~20 mm sieves before rice huller screen, three times three-deck vibrating screen 35, The milli of three-way chute 38,0~3 before three-way chute 37,3~5 mm sieves before three-way chute 36,5~8 mm sieves before 8~10 mm sieves 39,0~3 millimeter of first reprinting belt feeder 40 of rice belt feeder reprints 41,0~3 millimeter of second reprinting skin of three-way chute under belt feeder Band 42,3~5 millimeters of machine, 43,5~10 millimeters of belt feeder belt feeder 44 and 10~20 millimeter belt feeder 45；The main fortune belt feeder 18 discharge port corresponds to the feed inlet of a three-deck vibrating screen 19, and the discharge port of a three-deck vibrating screen 19 is according to stone The size of material partial size respectively corresponds described greater than three-way chute 21,30~45 before chute 20,45~80 mm sieves before 80 mm sieves Before mm sieve before three-way chute 24,20~30 mm sieves three-way chute 25 and 0~30 millimeter belt conveyer 30 feed inlet, institute The discharge port for stating chute 20 before being greater than 80 mm sieves corresponds to the feed inlet of the return conveyer machine 23, the return conveyer machine 23 Discharge port corresponds to the feed inlet that belt feeder 12 is reprinted in returning charge described in feeding crushing system, and threeway is slipped before 45~80 mm sieve Two discharge ports of slot 21 respectively correspond the feed inlet of 45~80 millimeters of belt conveyers 22, sand charging belt machine 26 processed, institute Two discharge ports for stating three-way chute 24 before 30~45 mm sieves respectively correspond the return conveyer machine 23, sand charging belt machine 26 processed Feed inlet；The discharge port of 0~30 millimeter of belt feeder 30 corresponds to the feed inlet of the secondary three-deck vibrating screen 31, and described two The discharge port of secondary three-deck vibrating screen 31 according to the size of building stones partial size respectively correspond three-way chute 25 before 20~30 mm sieve, Before 10~15 mm sieves before three-way chute 32,15~20 mm sieves 33,0~10 millimeters of belt feeders 34 of three-way chute feed inlet, Two discharge ports of three-way chute 25 respectively correspond 20~30 millimeters of belt conveyers 28, sand processed before 20~30 mm sieve The feed inlet of charging belt machine 26, three-way chute 33 before the mm sieve of three-way chute 32 and 15~20 before 10~15 mm sieve Two discharge ports respectively correspond the feed inlet of 10~20 millimeters of belt conveyers 45, sand charging belt machine 26 processed, described 10~ The discharge port of 20 millimeters of belt feeders 45 corresponds to the feed inlet of 10~20 millimeters of reprintings belt feeder 27, and described 0~10 millimeter defeated Send the feed inlet of the corresponding three-deck vibrating screen 35 three times of the feed inlet of belt feeder 34, the discharging of the three-deck vibrating screen three times 35 Mouthful according to the size of building stones partial size respectively with three-way chute 37,8 before three-way chute 38,5~8 mm sieves before 3~5 mm sieve The feed inlet of three-way chute 36 and 0~3 millimeter belt feeder 39 is connected before~10 mm sieves, and threeway is slipped before 3~5 mm sieve Two discharge ports of slot 38 respectively correspond the feed inlet of 3~5 millimeters of belt conveyers 43, sand charging belt machine 26 processed, and described 5 Two discharge ports of three-way chute 36 respectively correspond described 5~10 millimeters before three-way chute 37,8~10 mm sieves before~8 mm sieves The feed inlet of belt conveyer 44, sand charging belt machine 26 processed, the discharge port of 0~3 millimeter of belt feeder 39 corresponds to described 0~ The feed inlet of 3 millimeter of first reprinting belt feeder 40, corresponding described turn of the discharge port of 0~3 millimeter of first reprinting belt feeder 40 The feed inlet of three-way chute 41 under belt feeder is carried, two discharge ports for reprinting three-way chute 41 under belt feeder respectively correspond described The feed inlet of 0~3 millimeter of second reprinting belt feeder 42, the first feed bin of 0~3mm finished product 80.

Sand system processed includes charging bucket elevator 95, sand vibrating screen 96 processed, sieve lower scraping plate machine 97, finished sand belt feeder 46, chute before sand surge bunker 47 processed, sieve front scrapping plate machine 48, finished product bucket elevator 49, electro-hydraulic dynamic gate 50, vibrating distributor 51, finished product bucket elevator chute 52, finished sand blocking valve 53, feeding drag conveyor 54, vibration material distributor 55, powder concentrator 56, chute 59, ashes chute 60, feeding bucket elevator chute under finished sand chute 57, feeding bucket elevator 58, sand making machine 61, the discharge port of sand making machine 62 and ashes planet blocking valve 63, the charging bucket elevator 95 corresponds to the sand surge bunker processed 47 feed inlet, the discharge port of the sand surge bunker 47 processed correspond to the feed inlet of the electro-hydraulic dynamic gate 50, the electricity hydraulic brake The discharge port of door 50 corresponds to the feed inlet of the feeding drag conveyor 54, and the discharge port of the feeding drag conveyor 54 is corresponding The feed inlet of the feeding bucket elevator 58, the feeding drag conveyor 54 are Weighing type drag conveyor, the feeding The discharge port of bucket elevator 58 corresponds to the feed inlet of the feeding bucket elevator chute 61, and the feeding bucket elevator slips The discharge port of slot 61 corresponds to the feed inlet of the sand making machine 62, and the discharge port of the sand making machine 62 corresponds to chute under the sand making machine 59 feed inlet, the discharge port of chute 59 corresponds to the feed inlet of the vibration material distributor 55, the vibration cloth under the sand making machine The discharge port of material machine 55 corresponds to the feed inlet of chute 51 before the vibrating distributor, the discharging of chute 51 before the vibrating distributor The feed inlet of the corresponding sand vibrating screen 96 processed of mouth, the discharge port of the sand vibrating screen 96 processed are distinguished according to the size of building stones partial size The discharge port of the corresponding sieve lower scraping plate machine 97 and the feed inlet for sieving front scrapping plate machine 48, the sieve front scrapping plate machine 48 corresponds on described The discharge port of the feed inlet of hopper type hoister 58, the sieve lower scraping plate machine 97 corresponds to the charging of the finished product bucket elevator 49 Mouthful, the discharge port of the finished product bucket elevator 49 corresponds to the feed inlet of the finished product bucket elevator chute 52, the finished product The discharge port of bucket elevator chute 52 corresponds to the feed inlet of the powder concentrator 56, ash hole, the finished sand of the powder concentrator 56 Discharge port respectively corresponds the feed inlet of the ashes chute 60 and finished sand chute 57, and the discharge port of the ashes chute 60 passes through Flange is connected with ashes planet blocking valve 63, and the discharge port of the finished sand chute 57 corresponds to the finished sand blocking valve 53 Feed inlet, the discharge port of the finished sand blocking valve 53 correspond to the feed inlet of the finished sand belt feeder 46.

Dust pelletizing system includes that feeding is crushed deduster 64, vibrating screen deduster 65, sand system dust removing device 66 processed, deduster turn Carry scrapper conveyor 67, deduster scrapper conveyor 68, the first entrucking deduster 69, the second entrucking deduster 70, deduster 71, dress on feed bin Deduster scrapper conveyor 73, ashes bucket elevator 74 and ashes reprint scrapper conveyor 75 on vehicle deduster scrapper conveyor 72, feed bin, described Feeding is crushed deduster 64 and is connected by 4 unloading valves with the feed inlet of the deduster scrapper conveyor 68, and the vibration screens out Dirt device 65 is connected also by 4 unloading valves with the feed inlet of the deduster scrapper conveyor 68, the sand system dust removing device 66 processed Be connected by 2 unloading valves with the feed inlet of the deduster scrapper conveyor 68, the discharge port of the deduster scrapper conveyor 68 and The feed inlet that the deduster reprints scrapper conveyor 67 is connected, the first entrucking deduster 69, the second entrucking deduster 70 Discharge port passes through 2 unloading valves respectively and is connected with 72 feed inlet of entrucking deduster scrapper conveyor, and the entrucking deduster is scraped The discharge port of trigger 72 is connected with the feed inlet of the ashes bucket elevator 74, the discharge port of deduster 71 on the feed bin It is connected by 2 unloading valves with 73 feed inlet of deduster scrapper conveyor on the feed bin, deduster scrapper conveyor 73 on the feed bin Discharge port be also connected with the feed inlet of the ashes bucket elevator 74, the discharge port of the ashes bucket elevator 74 with The feed inlet that the ashes reprints scrapper conveyor 75 is connected.

Loading system include 45~80mm finished product bin 98,10~20mm finished product bin 76,20~30mm finished product bin 77, 5~10 mm finished product bin finished product bins 78,3~5mm finished product bin 79, the first feed bin of 0~3mm finished product 80,0~3mm are at position Two feed bins 81, finished sand feed bin 82, the storehouse 0~3mm lower belt machine 83, the storehouse 0~5mm lower belt machine 84, the storehouse 5~30mm lower belt machine 85, the storehouse 10~80mm lower belt machine 86, the first entrucking belt feeder 87, the first bulk machine 88, the first weighbridge 89, the second bulk machine 90, the second entrucking belt feeder 91 and the second weighbridge 92,45~80mm finished product bin 98 and 10~20mm finished product bin 76 Discharge port corresponds to the feed inlet of the storehouse the 10~80mm lower belt machine 86, the mm of 20~30mm finished product bin 77 and 5~10 at The discharge port of product feed bin finished product bin 78 corresponds to the feed inlet of the storehouse the 5~30mm lower belt machine 85,3~5mm finished product material The discharge port of storehouse 79 and the first feed bin of 0~3mm finished product 80 corresponds to the feed inlet of the storehouse the 0~5mm lower belt machine 84, described 0~ The discharge port of the second feed bin of 3mm finished product 81 and finished sand feed bin 82 corresponds to the feed inlet of the storehouse the 0~3mm lower belt machine 83, institute The discharge port for stating the storehouse 5~30mm lower belt machine 85 and the storehouse 10~80mm lower belt machine 86 corresponds to the first entrucking belt feeder 87 The discharge port of feed inlet, the first entrucking belt feeder 87 corresponds to the feed inlet of first bulk machine 88, and described first is in bulk The discharge port of corresponding first weighbridge 89 of machine 88, the storehouse the 0~3mm lower belt machine 83 and the storehouse 0~5mm lower belt machine 84 is corresponding The discharge port of the feed inlet of the second entrucking belt feeder 91, the second entrucking belt feeder 91 corresponds to second bulk machine 90 Feed inlet, corresponding second weighbridge 92 of second bulk machine 90；Under the discharge port of all finished product bins and corresponding storehouse It is connected between belt machine inlet by gate funnel and batcher.The bulk machine can be mobile loose unpacked material entrucking Machine.

Wherein: the broken lower chute 16 of the first returning charge counterattack, the broken lower chute 17 of the second returning charge counterattack, feed back chute 5 and counterattack are broken The discharge port of lower three-way chute 11 corresponds to the feed inlet of the main fortune belt feeder 18；The discharge port of the ashes planet blocking valve 63 The feed inlet of corresponding 0~3 millimeter of belt feeder 39, the deduster reprint the discharge port of scrapper conveyor 67 and 0~3 millimeter described The feed inlet of belt feeder 39 is corresponding, and the discharge port that the ashes reprints scrapper conveyor 75 corresponds to 0~3 millimeter of first reprinting skin Feed inlet with machine 40；The discharge port of 45~80 millimeters of belt conveyers 22 corresponds to 45~80mm finished product bin 98 Feed inlet, the discharge port of 20~30 millimeters of belt feeders 28 correspond to the feed inlet of 20~30mm finished product bin 77, and described 5 The discharge ports of~10 millimeters of reprinting belt feeders 29 correspond to the feed inlet of 5~10 mm finished product bin finished product bin 78, and described 3 The discharge port of~5 millimeters of belt feeders 43 corresponds to the feed inlet of 3~5mm finished product bin 79, threeway under the reprinting belt feeder Two discharge ports of chute 41 respectively correspond 0~3mm finished product, first feed bin 80 and 0~3 millimeter of second reprinting belt feeder 42 Feed inlet, it is described 0~3 millimeter second reprinting belt feeder 42 discharge port correspond to 0~3mm finished product, second feed bin 81 into Material mouth, the discharge port of the finished sand belt feeder 46 correspond to the feed inlet of the finished sand feed bin 82.

The utility model uses three sections of sieve classification systems, can give full play to shaker performance, improves screening efficiency and life Production capacity power, while being also convenient for the modularized design of screening system, make building stones production sieve classification system energy conservation and environmental protection, reduce at This while, also facilitates live construction, produces screening system Standardization Construction for building stones and provides important evidence.

The building stones for 45~80 millimeters of partial sizes that the utility model is produced are used for iron and steel enterprise, 30~45 millimeters of partial sizes Building stones be the best materials of sand system processed, the building stones of 20~30 millimeters of partial sizes are used for high-speed rail construction project, 20~30 millimeters of partial sizes Building stones be used for business concrete mixing plant, the building stones of 10~20 millimeters of partial sizes are used for Highway Construction Project Based, 5~10 millimeters of partial sizes Building stones be used for building enterprise, the building stones of 3~5 millimeters of partial sizes are used for machine made brick, and the building stones of 0~3 millimeter of partial size are used for tunnel spray Slurry, finished sand are used for dry powder mortar production line.

The utility model is arranged using building formula, is reduced occupied area, is gathered dust convenient for deduster, can give full play to sand making machine Performance, improves the quality of production capacity and finished sand, while being also convenient for the modularized design of Machine-made Sand production system, makes Machine-made Sand Production system energy conservation and environmental protection, reduce cost while facilitate live construction, be Machine-made Sand production system Standardization Construction Important evidence is provided.

Ashes is discharged to corresponding ash by the discharger under deduster on entrucking deduster and feed bin by the utility model respectively In powder scrapper conveyor, scrapper conveyor is reprinted by ashes bucket elevator and ashes, ashes is transported to 0~3mm on finished product bin turns It carries in belt feeder, belt feeder is reprinted by 0~3mm, ashes is transported in 0~3mm building stones finished product bin, ashes is made not have to construction Dedicated ash filler bin, and ashes can be sold with 0~3mm finished product building stones, improve the same of 0~3mm finished product building stones quality When, increase income from sales.

The loading system of the utility model arranges two rows parallel arrangement using 8 feed bins, by entrucking belt conveyor into Row car loading operation, is provided with weighbridge below the vehicle in entrucking channel, and vehicle is placed in stationary on weighbridge, entire entrucking process Move vehicle is not needed, entrucking is high-efficient, and entrucking point focuses at one, facilitates that entrucking deduster is installed concentratedly and entrucking workshop is built If occupied area is small and convenient for managing.

The utility model device utilization rate is relatively high, and occupied area is small, facilitates production scheduling, is stone convenient for centralized management Material production Standardization Construction provides important evidence.

The air inlet 28-1 of entrucking deduster 28 by air hose respectively with ashes bulk machine 29) and finished sand bulk machine 30 The mouth that gathers dust is connected；The ash hole of the flue-dust retainer 28-2 of entrucking deduster 28 and the feed inlet of chute 28-3 are slipped by flanged joint The discharge port of slot 28-3 is connected by flange with the feed inlet of unloading valve 28-4, and discharge port and the finished product bucket type of unloading valve 28-4 mentions The second charging aperture 17-2 risen on machine 17 passes through flanged joint.

Feedstock transportation of the sand feeding belt conveyor processed 1 by partial size less than 50 millimeters is slow by sand processed to sand surge bunker 2 processed The frequency control feeding belt conveyor 3 below storehouse 2 is rushed by feedstock transportation into feeding bucket elevator 4, passes through feeding bucket type Feedstock transportation is crushed by the discharge port feeding chute 5 of elevator 4 into sand making machine 6；The building stones being crushed by sand making machine 6 It is entered in vibration material distributor 9 by the lower chute 7 of sand making machine first and the lower chute 8 of sand making machine second, then passes through vibrating distributor Building stones are evenly arranged on vibrating screen 12 by the feed inlet of chute 10 and vibrating screen seal closure 11；It is sieved by vibrating screen 12, greatly Enter before sieve in chute 13 in 4.75 millimeters of building stones, feeding bucket elevator is then transported to by belt conveyor 15 before sieving In 4, it is again introduced into sand making machine 6 and is crushed；By the screening of vibrating screen 12, the building stones less than 4.75 millimeters are entered under sieve In funnel 14, then it is transported in finished product bucket elevator 17 by sieving lower belt conveyor 16, then slipped by electro-hydraulic dynamic three-way Slot 18 carries out selecting powder into powder concentrator 19；

Powder is selected by powder concentrator 19, the finished sand for meeting gradation requirement passes through the finished sand discharger under finished sand chute 20 21 are transported in finished sand feed bin 26 by finished sand scrapper conveyor 22 and store；The ashes for not meeting gradation requirement passes through ashes chute 23 Under ashes discharger 24 enter in grey filler bin 25 and store.

Sand deduster 27 processed run when the ashes of collection is discharged into two flue-dust retainer 27-2, by with three-way chute 27-3 phase Ashes is transported in the deflector chute for sieving lower belt conveyor 16 by unloading valve 27-4 even, then is conveyed by sieving lower belt conveyor 16 Into the first charging aperture 17-1 of finished product bucket elevator 17, electro-hydraulic dynamic three-way is transported to by the promotion of finished product bucket elevator 17 Chute 18, when powder concentrator 19 is run, ashes is transported in powder concentrator 19 by electro-hydraulic dynamic three-way chute 18, when powder concentrator 19 stops When operation, electro-hydraulic dynamic three-way chute 18 conveys ashes in grey filler bin 25；

Entrucking deduster 28 run when the ashes of collection is discharged into flue-dust retainer 28-2, by with chute 28-3 discharge port phase Ashes is transported in the second charging aperture 17-2 of finished product bucket elevator 17 by unloading valve 28-4 even, passes through finished product bucket lifting The promotion of machine 17 is transported to electro-hydraulic dynamic three-way chute 18, and when powder concentrator 19 is run, ashes is transported to by electro-hydraulic dynamic three-way chute 18 In powder concentrator 19, when powder concentrator 19 is out of service, electro-hydraulic dynamic three-way chute 18 conveys ashes in grey filler bin 25.

It is provided with level sensor on sand surge bunker 2 processed, material belt type on the sand processed is controlled by level sensor The start and stop of conveyer 1, when it is useless reach set material position when, start 1 transferring raw material of sand feeding belt conveyor processed and buffered to sand processed In storehouse 2, when reaching set material position, stop starting sand feeding belt conveyor 1 processed；

It is provided with belted electronic balance on belt conveyor 15 before sieve, it is more according to the returning charge on belt conveyor 15 before sieving Few, the signal exported by belted electronic balance automatically controls the speed of frequency control feeding belt conveyor 3 to control on raw material Doses；When returning charge amount before sieving on belt conveyor 15 reaches the set upper limit, by the output signal of belted electronic balance from The returning charge that dynamic control frequency control feeding belt conveyor 3 reduces speed to reduce upper doses, before sieving on belt conveyor 15 When amount reaches set lower limit, frequency control feeding belt conveyor 3 is automatically controlled by the signal of belted electronic balance and improves speed Degree is to increase upper doses.

The utility model is arranged using building formula, is reduced occupied area, is gathered dust convenient for deduster, using intellectualizing system control Entire Machine-made Sand production system is made, sand making machine performance can be given full play to, improves the quality of production capacity and finished sand, while also just In the modularized design of Machine-made Sand production system, facilitate Machine-made Sand production system also while energy conservation and environmental protection, reducing cost Live construction provides important evidence for Machine-made Sand production system Standardization Construction.

Claims (2)

1. a kind of building stones crushing and screening sand dedusting integrated manufacturing system (IMS), including feeding crushing system, three sections of screening systems, sand processed System, dust pelletizing system and loading system, it is characterised in that: the feeding crushing system includes mine car (1), receiver bin (2), heavy type Apron feeder (3), feed back drag conveyor (4), feed back chute (5), weight wrench portion three-way chute (6), first Hubei Province formula are broken Machine (7), the second jaw crusher (8), the first impact breaker (9), the second impact breaker (10), the broken lower threeway of counterattack Chute (11), returning charge reprinting belt feeder (12), returning charge three-way chute (13), the first returning charge impact breaker (14), second return Expect impact breaker (15), the first returning charge counterattack broken lower chute (16) and the second returning charge counterattack it is broken under chute (17), it is described by Feed bin (2) is mounted on heavy-duty plate feeder (3), and the front end discharge port of the heavy-duty plate feeder (3) corresponds to described heavy The feed inlet of wrench portion three-way chute (6), it is defeated that the lower part reverse-running section of the heavy-duty plate feeder (3) corresponds to the feed back scraper plate The feed inlet of machine (4) is sent, the discharge port of the feed back drag conveyor (4) corresponds to the feed inlet of feed back chute (5), the heavy plate The discharge port of head three-way chute (6) respectively corresponds the discharging of first jaw crusher (7) and the second jaw crusher (8) Mouthful, the discharge port of first jaw crusher (7) is connect by chute with the feed inlet of the first impact breaker (9), institute It states the discharge port of the second jaw crusher (8) to connect by chute with the feed inlet of the second impact breaker (10), described the The discharge port of one impact breaker (9) and the second impact breaker (10) respectively corresponds the broken lower three-way chute of the counterattack (11) feed inlet, the discharge port that belt feeder (12) are reprinted in the returning charge correspond to the feed inlet of the returning charge three-way chute (13), The discharge port of the returning charge three-way chute (13) respectively corresponds the first returning charge impact breaker (14) and the second returning charge is anti- The feed inlet of impact crusher (15), it is anti-that the discharge port of the first returning charge impact breaker (14) corresponds to first returning charge The feed inlet of lower chute (16) is broken up, it is anti-that the discharge port of the second returning charge impact breaker (15) corresponds to second returning charge Break up the feed inlet of lower chute (17)；Three sections of screening systems include main fortune belt feeder (18), a three-deck vibrating screen (19), Greater than three-way chute (21), 45~80 millimeters of belt feeders (22), returning charge skins before chute (20), 45~80 mm sieves before 80 mm sieves With three-way chute (25), sand charging belt machine processed before three-way chute (24), 20~30 mm sieves before machine (23), 30~45 mm sieves (26), 10~20 millimeters of reprinting belt feeders (27), 20~30 millimeters of belt feeders (28), 5~10 millimeters of reprinting belt feeders (29), 0 Three-way chute (32), 15~20 mm sieves before~30 millimeters of belt feeders (30), secondary three-deck vibrating screen (31), 10~15 mm sieves Preceding three-way chute (33), 0~10 millimeter of belt feeder (34), three times three-way chute before three-deck vibrating screen (35), 8~10 mm sieves (36), three-way chute (38) before three-way chute (37), 3~5 mm sieves before 5~8 mm sieves, 0~3 millimeter of belt feeder (39), 0~ 3 millimeter of first reprinting belt feeder (40) reprints three-way chute (41), 0~3 millimeter of second reprinting belt feeder (42), 3 under belt feeder ~5 millimeters of belt feeders (43), 5~10 millimeters of belt feeders (44) and 10~20 millimeters of belt feeders (45)；The main fortune belt feeder (18) discharge port corresponds to the feed inlet of a three-deck vibrating screen (19), the discharge port of a three-deck vibrating screen (19) It is respectively corresponded according to the size of building stones partial size described greater than three-way chute before chute (20), 45~80 mm sieves before 80 mm sieves (21), three-way chute (25) and 0~30 millimeter of conveyor belt before three-way chute (24), 20~30 mm sieves before 30~45 mm sieves The feed inlet of machine (30), the discharge port for being greater than chute (20) before 80 mm sieves correspond to the charging of the return conveyer machine (23) Mouthful, the discharge port of the return conveyer machine (23) corresponds to the charging that belt feeder (12) are reprinted in returning charge described in feeding crushing system Mouthful, two discharge ports of three-way chute (21) respectively correspond 45~80 millimeters of belt conveyers before 45~80 mm sieve (22), the feed inlet of sand charging belt machine (26) processed, the two discharge ports difference of three-way chute (24) before 30~45 mm sieve The feed inlet of the corresponding return conveyer machine (23), sand charging belt machine (26) processed；0~30 millimeter of belt feeder (30) goes out Material mouth corresponds to the feed inlet of the secondary three-deck vibrating screen (31), and the discharge port of the secondary three-deck vibrating screen (31) is according to building stones The size of partial size respectively correspond before 20~30 mm sieve three-way chute (32) before three-way chute (25), 10~15 mm sieves, Three-way chute (33) before 15~20 mm sieves, 0~10 millimeter of belt feeder (34) feed inlet, threeway before 20~30 mm sieve Two discharge ports of chute (25) respectively correspond 20~30 millimeters of belt conveyers (28), sand charging belt machine (26) processed into Material mouth, before 10~15 mm sieve before three-way chute (32) and 15~20 mm sieves three-way chute (33) two discharge ports difference The feed inlet of corresponding 10~20 millimeters of belt conveyers (45), sand charging belt machine (26) processed, 10~20 millimeters of skins Discharge port with machine (45) corresponds to described 10~20 millimeters feed inlets for reprinting belt feeder (27), 0~10 millimeter of conveying skin The feed inlet of the corresponding three-deck vibrating screen (35) three times of feed inlet with machine (34), the three-deck vibrating screen three times (35) go out Material mouth according to the size of building stones partial size respectively with three-way chute before three-way chute (38), 5~8 mm sieves before 3~5 mm sieve (37), three-way chute (36) is connected with the feed inlet of 0~3 millimeter of belt feeder (39) before 8~10 mm sieves, and described 3~5 millimeters Two discharge ports of three-way chute (38) respectively correspond 3~5 millimeters of belt conveyers (43), sand charging belt machine processed before sieving (26) feed inlet, before 5~8 mm sieve before three-way chute (37), 8~10 mm sieves three-way chute (36) two discharge ports Respectively correspond the feed inlet of 5~10 millimeters of belt conveyers (44), sand charging belt machine (26) processed, 0~3 millimeter of skin Discharge port with machine (39) correspond to it is described 0~3 millimeter first reprint belt feeder (40) feed inlet, described 0~3 millimeter first turn The discharge port for carrying belt feeder (40) correspond to the feed inlet for reprinting three-way chute (41) under belt feeder, under the reprinting belt feeder Two discharge ports of three-way chute (41) respectively correspond 0~3 millimeter of second reprinting belt feeder (42), the first material of 0~3mm finished product The feed inlet in storehouse (80)；The sand system processed includes charging bucket elevator (95), sand vibrating screen processed (96), sieve lower scraping plate machine (97), finished sand belt feeder (46), sand surge bunker processed (47), sieve front scrapping plate machine (48), finished product bucket elevator (49), electro-hydraulic dynamic Chute (51), finished product bucket elevator chute (52), finished sand blocking valve (53), feeding are scraped before gate (50), vibrating distributor Plate conveyer (54), vibration material distributor (55), powder concentrator (56), finished sand chute (57), feeding bucket elevator (58), sand processed Chute (59), ashes chute (60), feeding bucket elevator chute (61), sand making machine (62) and ashes planet blocking valve under machine (63), the discharge port of charging bucket elevator (95) corresponds to the feed inlet of the sand surge bunker (47) processed, and the sand processed is slow The discharge port for rushing storehouse (47) corresponds to the feed inlet of the electro-hydraulic dynamic gate (50), and the discharge port of the electro-hydraulic dynamic gate (50) is corresponding The discharge port of the feed inlet of the feeding drag conveyor (54), the feeding drag conveyor (54) corresponds to the feeding bucket type The feed inlet of elevator (58), the feeding drag conveyor (54) are Weighing type drag conveyor, the feeding bucket lifting The discharge port of machine (58) corresponds to the feed inlet of the feeding bucket elevator chute (61), the feeding bucket elevator chute (61) discharge port corresponds to the feed inlet of the sand making machine (62), and the discharge port of the sand making machine (62) corresponds under the sand making machine The feed inlet of chute (59), the discharge port of chute (59) corresponds to the feed inlet of the vibration material distributor (55) under the sand making machine, The discharge port of the vibration material distributor (55) corresponds to the feed inlet of chute (51) before the vibrating distributor, the vibrating distributor The discharge port of preceding chute (51) corresponds to the feed inlet of the sand vibrating screen (96) processed, the discharge port root of the sand vibrating screen (96) processed Sieve lower scraping plate machine (97) is respectively corresponded according to the size of building stones partial size and sieves the feed inlet of front scrapping plate machine (48), is scraped before the sieve The discharge port of trigger (48) corresponds to the feed inlet of the feeding bucket elevator (58), the discharge port of sieve lower scraping plate machine (97) The feed inlet of the corresponding finished product bucket elevator (49), the discharge port of the finished product bucket elevator (49) correspond to the finished product The discharge port of the feed inlet of bucket elevator chute (52), the finished product bucket elevator chute (52) corresponds to the powder concentrator (56) feed inlet, ash hole, the finished sand discharge port of the powder concentrator (56) respectively correspond the ashes chute (60) and at The discharge port of the feed inlet of product sand chute (57), the ashes chute (60) is connected by flange with ashes planet blocking valve (63) It connects, the discharge port of the finished sand chute (57) corresponds to the feed inlet of the finished sand blocking valve (53), and the finished sand locks gas The discharge port of valve (53) corresponds to the feed inlet of the finished sand belt feeder (46)；The dust pelletizing system includes that feeding is crushed deduster (64), vibrating screen deduster (65), sand system dust removing device (66) processed, deduster reprint scrapper conveyor (67), deduster scrapper conveyor (68), the first entrucking deduster (69), the second entrucking deduster (70), deduster (71), entrucking deduster scrapper conveyor on feed bin (72), deduster scrapper conveyor (73), ashes bucket elevator (74) and ashes reprint scrapper conveyor (75) on feed bin, and the feeding is broken Broken deduster (64) is connected by 4 unloading valves with the feed inlet of the deduster scrapper conveyor (68), the vibrating screen dedusting Device (65) is connected also by 4 unloading valves with the feed inlet of the deduster scrapper conveyor (68), the sand system dust removing device processed (66) it is connected by 2 unloading valves with the feed inlet of the deduster scrapper conveyor (68), the deduster scrapper conveyor (68) Discharge port is connected with the feed inlet that the deduster reprints scrapper conveyor (67), the first entrucking deduster (69), the second dress The discharge port of vehicle deduster (70) passes through 2 unloading valves respectively and is connected with entrucking deduster scrapper conveyor (72) feed inlet, The discharge port of the entrucking deduster scrapper conveyor (72) is connected with the feed inlet of the ashes bucket elevator (74), the material The discharge port of deduster (71) is connected by 2 unloading valves with deduster scrapper conveyor (73) feed inlet on the feed bin on storehouse, The discharge port of deduster scrapper conveyor (73) is also connected with the feed inlet of the ashes bucket elevator (74) on the feed bin, institute The discharge port for stating ashes bucket elevator (74) is connected with the feed inlet that the ashes reprints scrapper conveyor (75)；The entrucking system System includes 45~80mm finished product bin (98), 10~20mm finished product bin (76), 20~30mm finished product bin (77), 5~10 mm Finished product bin finished product bin (78), 3~5mm finished product bin (79), the first feed bin of 0~3mm finished product (80), 0~3mm finished product second Under feed bin (81), finished sand feed bin (82), the storehouse 0~3mm lower belt machine (83), the storehouse 0~5mm lower belt machine (84), the storehouse 5~30mm Belt feeder (85), the storehouse 10~80mm lower belt machine (86), the first entrucking belt feeder (87), the first bulk machine (88), the first weighbridge (89), the second bulk machine (90), the second entrucking belt feeder (91) and the second weighbridge (92), 45~80mm finished product bin (98) Correspond to the feed inlet of the storehouse the 10~80mm lower belt machine (86) with the discharge port of 10~20mm finished product bin (76), described 20~ 30mm finished product bin (77) corresponds to the storehouse 5~30mm lower belt with the discharge port of 5~10 mm finished product bin finished product bins (78) The feed inlet of machine (85), described in 3~5mm finished product bin (79) is corresponding with the discharge port of the first feed bin of 0~3mm finished product (80) The feed inlet of the storehouse 0~5mm lower belt machine (84), the discharging of 0~3mm finished product, second feed bin (81) and finished sand feed bin (82) The feed inlet of the corresponding storehouse the 0~3mm lower belt machine (83) of mouth, the storehouse the 5~30mm lower belt machine (85) and the storehouse 10~80mm The discharge port of lower belt machine (86) corresponds to the feed inlet of the first entrucking belt feeder (87), the first entrucking belt feeder (87) Discharge port correspond to the feed inlet of first bulk machine (88), corresponding first weighbridge of first bulk machine (88) (89), the storehouse the 0~3mm lower belt machine (83) corresponds to the second entrucking skin with the discharge port of the storehouse 0~5mm lower belt machine (84) Feed inlet with machine (91), the discharge port of the second entrucking belt feeder (91) correspond to the charging of second bulk machine (90) Mouthful, corresponding second weighbridge (92) of second bulk machine (90)；The discharge port of all finished product bins and corresponding storehouse hypodermis It is connected between band machine inlet by gate funnel and batcher；The bulk machine can be mobile loose unpacked material entrucking Machine.

2. building stones crushing and screening sand dedusting integrated manufacturing system (IMS) according to claim 1, it is characterised in that: described first Returning charge counterattack broken lower chute (16), the second returning charge counterattack broken lower chute (17), feed back chute (5) and the broken lower three-way chute of counterattack (11) discharge port corresponds to the feed inlet of main fortune belt feeder (18)；The discharge port of the ashes planet blocking valve (63) is corresponding The feed inlet of 0~3 millimeter of belt feeder (39), the deduster reprint the discharge port of scrapper conveyor (67) and 0~3 millimeter described The feed inlet of belt feeder (39) is corresponding, and the discharge port that the ashes reprints scrapper conveyor (75) corresponds to described 0~3 millimeter first turn Carry the feed inlet of belt feeder (40)；The discharge port of 45~80 millimeters of belt conveyers (22) corresponds to 45~80mm finished product The feed inlet of feed bin (98), the discharge port of 20~30 millimeters of belt feeders (28) correspond to 20~30mm finished product bin (77) Feed inlet, it is described 5~10 millimeters reprint belt feeder (29) discharge ports correspond to 5~10 mm finished product bin finished product bin (78) feed inlet, the discharge port of 3~5 millimeters of belt feeders (43) correspond to the charging of 3~5mm finished product bin (79) Mouthful, two discharge ports for reprinting three-way chute (41) under belt feeder respectively correspond 0~3mm finished product, first feed bin (80) The feed inlet of belt feeder (42), the discharge port pair of 0~3 millimeter of second reprinting belt feeder (42) are reprinted with 0~3 millimeter second The feed inlet of 0~3mm finished product, second feed bin (81) is answered, the discharge port of the finished sand belt feeder (46) corresponds to the finished product The feed inlet of sand feed bin (82).