CN208758013U - Building stones produce two sections of sieve classification systems - Google Patents

Abstract

The utility model discloses a kind of building stones to produce two sections of sieve classification systems, including feeding belt conveyor, first distributing device, vibrating screen, chute before returning charge is sieved, electro-hydraulic dynamic three-way chute before the sieve of 20 millimeters or more 4 kinds of partial sizes, funnel under 0~20 mm sieve, returning charge belt conveyor, 45~80 millimeters of finished product belt conveyors, 20~30 millimeters of finished product belt conveyors, abrasive belt conveyer processed, 0~20 millimeter of belt conveyor, second distributing device, secondary vibration sieve, electro-hydraulic dynamic three-way chute before the sieve of 20 millimeters or less 4 kinds of partial sizes, funnel under 0~3 mm sieve, 10~20 millimeters of finished product belt conveyors, 5~10 millimeters of finished product belt conveyors, 3~5 millimeters of finished product belt conveyors, 0~3 millimeter of finished product belt conveyor, sand feeding bucket elevator processed, sand surge bunker processed and Elevator chute.The utility model can give full play to shaker performance, screening efficiency, production capacity and finished product building stones quality be improved, convenient for the modularized design of screening system.

Description

Building stones produce two sections of sieve classification systems

Technical field:

The utility model relates to a kind of building stones to produce two sections of sieve classification systems, apply in building stones production process to building stones Carry out sieve classification processing.

Background technique:

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.

Utility model content:

The technical problem to be solved by the utility model is to overcoming the deficiencies of the prior art and provide a kind of building stones production two Section sieve classification system and its sieve classification method are applied and carry out sieve classification processing to building stones in building stones production process, can 45~80 millimeters, 30~45 millimeters, 20~30 millimeters, 10~20 millimeters, 5~10 millimeters, 3~5 millimeters, 0~3 are produced to meet The building stones of this 7 kinds of partial sizes such as millimeter.Two sections of sieve classification systems use modularized design, provide for production intelligent dispatch management Solution.

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

A kind of two sections of sieve classification systems of building stones production, including feeding belt conveyor, the first distributing device, primary vibration Electro-hydraulic dynamic three-way chute, 20 before electro-hydraulic dynamic three-way chute, 30~45 mm sieves before chute, 45~80 mm sieves before sieve, returning charge are sieved Funnel, returning charge belt conveyor, 45~80 millimeters of completed belt under electro-hydraulic dynamic three-way chute, 0~20 mm sieve before~30 mm sieves Formula conveyer, 20~30 millimeters of finished product belt conveyors, abrasive belt conveyer processed, 0~20 millimeter of belt conveyor, the second cloth Device, secondary vibration sieve, electro-hydraulic dynamic three-way chute, 5~10 before electro-hydraulic dynamic three-way chute, 10~15 mm sieves before 15~20 mm sieves Funnel, 10~20 millimeters under electro-hydraulic dynamic three-way chute, 0~3 mm sieve before electro-hydraulic dynamic three-way chute, 3~5 mm sieves before mm sieve Finished product belt conveyor, 5~10 millimeters of finished product belt conveyors, 3~5 millimeters of finished product belt conveyors, 0~3 millimeter of completed belt Formula conveyer, sand feeding bucket elevator processed, sand surge bunker processed and elevator chute；Vibrating screen uses four layers of sieve plate Structure, first layer hole diameter of sieve (perforated) plate be 80 millimeters, second layer hole diameter of sieve (perforated) plate be 45 millimeters, third layer hole diameter of sieve (perforated) plate be 30 millimeters, the 4th Layer hole diameter of sieve (perforated) plate is 20 millimeters；The secondary vibration sieve also uses four layers of sieve-plate structure, and first layer hole diameter of sieve (perforated) plate is 15 millimeters, the Two layers of hole diameter of sieve (perforated) plate are 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, institute The discharge port for stating 45 millimeters of sieve plates of the second layer of a vibrating screen and electro-hydraulic dynamic three-way chute feed inlet phase before 45~80 mm sieves It is corresponding, before the discharge port of 30 millimeters of sieve plates of third layer of a vibrating screen and 30~45 mm sieves electro-hydraulic dynamic three-way chute into Material mouth is corresponding, electro-hydraulic dynamic three-way before the discharge port of the 4th layer of 20 millimeters of sieve plate of a vibrating screen and 20~30 mm sieves The feed inlet of chute is corresponding；It is corresponded under vibrating screen and funnel under 0~20 mm sieve is installed, under a vibrating screen Be flexible coupling with being equipped between funnel under corresponding 0~20 mm sieve, it is described be flexible coupling up and down by flange respectively and once Funnel upper flange connects under vibrating screen lower flange and 0~20 mm sieve；

Deflector chute before the returning charge is sieved on chute discharge port and returning charge belt conveyor by flanged joint, described 45~ Before 80 mm sieves two discharge port of electro-hydraulic dynamic three-way chute respectively with returning charge belt conveyor and 45~80 millimeters of finished product belt conveyings Deflector chute on machine by flanged joint, before 30~45 mm sieve two discharge port of electro-hydraulic dynamic three-way chute respectively with apronbelt Deflector chute on formula conveyer and abrasive belt conveyer processed passes through flanged joint, and electro-hydraulic dynamic three-way slips before 20~30 mm sieve Two discharge ports of slot pass through flange with the deflector chute on 20~30 millimeters of finished product belt conveyors and abrasive belt conveyer processed respectively Connection；Deflector chute under 0~20 mm sieve on funnel discharge port and 0~20 millimeter of belt conveyor 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, described The second seal closure feed opening flange that second distributing device lower flange is sieved with secondary vibration is connect, and be flexible coupling method under the second seal closure It is blue to be connect with secondary vibration sieve upper flange, two mouths that gather dust are set on second seal closure；

The discharge port of 15 millimeters of sieve plates of first layer of the secondary vibration sieve is slipped with electro-hydraulic dynamic three-way before 15~20 mm sieves The feed inlet of slot is corresponding, electricity 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 hydraulic dynamic three-way chute is corresponding, the discharge port of 5 millimeters of sieve plates of third layer of secondary vibration sieve and 5~10 millimeters The feed inlet of electro-hydraulic dynamic three-way chute is corresponding before sieving, and the discharge port of the 4th layer of 3 millimeters of sieve plate of the secondary vibration sieve and 3~ The feed inlet of electro-hydraulic dynamic three-way chute is corresponding before 5 mm sieves；

Funnel under 0~3 mm sieve of the lower corresponding installation of secondary vibration sieve, the secondary vibration sieve and corresponding 0~3 It is equipped with and is flexible coupling between funnel under mm sieve, be flexible coupling and lower flange and 0~3 milli are sieved with secondary vibration by flange respectively up and down Funnel upper flange connects under rice huller screen；

Before 15~20 mm sieve two discharge port of electro-hydraulic dynamic three-way chute respectively with 10~20 millimeters of finished product belt conveyings Deflector chute on machine and abrasive belt conveyer processed passes through flanged joint, and electro-hydraulic dynamic three-way chute two goes out before 10~15 mm sieve Material mouth is described respectively with the deflector chute on 10~20 millimeters of finished product belt conveyors and abrasive belt conveyer processed by flanged joint Two discharge port of electro-hydraulic dynamic three-way chute is defeated with 5~10 millimeters of finished product belt conveyors and abrasive belt processed respectively before 5~10 mm sieves Send deflector chute on machine by flanged joint, before 3~5 mm sieve two discharge port of electro-hydraulic dynamic three-way chute respectively with 3~5 millis Deflector chute on meter Cheng Pin belt conveyor 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 belt conveyor passes through flange Connection, the abrasive belt conveyor head funnel processed is connect by flange with the feed inlet of sand feeding bucket elevator processed, described Sand feeding bucket elevator processed is connected by chute with sand surge bunker processed；The discharging of vibrating screen and secondary vibration sieve Mouth, which is equipped with to be flexible coupling, passes through flanged joint with corresponding chute.

The building stones produce two sections of sieve classification systems according to production needs can be 2 sets or more arranged side by side along finished product belt conveyor Set.

Building stones recited above produce the sieve classification method of two sections of sieve classification systems, the specific steps of which are as follows:

A, the building stones after impact breaker is crushed shaping pass through the first distributing device stone by feeding belt conveyor Material is evenly arranged on a vibrating screen；

B, by the screening of a vibrating screen, chute before the building stones greater than 80 millimeters are sieved by a vibrating screen and returning charge, The building stones for not meeting Particle size requirements are transported on impact breaker by the reprinting of returning charge belt conveyor and are crushed shaping again；

C, by the screening of a vibrating screen, before 45~80 millimeters of building stones are by a vibrating screen and 45~80 mm sieves Electro-hydraulic dynamic three-way chute is transported to 45~80 millimeters of finished bin storages by 45~80 millimeters of finished product belt conveyors；When not needing to give birth to When producing 45~80 millimeters of building stones, returning charge belt can be entered by electro-hydraulic dynamic three-way chute before a vibrating screen and 45~80 mm sieves In conveyer；

D, by the screening of a vibrating screen, before 30~45 millimeters of building stones are by a vibrating screen and 30~45 mm sieves Building stones are transported to sand surge bunker processed by sand feeding bucket elevator processed by abrasive belt conveyer processed by electro-hydraulic dynamic three-way chute；When When not needing 30-45 millimeters of building stones of production, electro-hydraulic dynamic three-way chute before a vibrating screen and 30~45 mm sieves can also be passed through Into in returning charge belt conveyor；

E, by the screening of a vibrating screen, before 20~30 millimeters of building stones are by a vibrating screen and 20~30 mm sieves Electro-hydraulic dynamic three-way chute is sent to 20~30 millimeters of finished bin storages by 20~30 millimeters of finished product belt conveyors；20~30 millimeters of stones Material can also be entered in abrasive belt conveyer processed by electro-hydraulic dynamic three-way chute before a vibrating screen and 20~30 mm sieves, be passed through Building stones are transported in sand surge bunker processed by sand feeding bucket elevator processed；

F, by the screening of a vibrating screen, 0~20 millimeter of building stones under a vibrating screen and 0~20 mm sieve by leaking Building stones are evenly arranged on secondary vibration sieve by 0~20 millimeter of belt conveyor by the second distributing device by bucket；

G, the screening sieved by secondary vibration, before 15~20 millimeters of building stones are by secondary vibration sieve and 15~20 mm sieves Electro-hydraulic dynamic three-way chute is reprinted again by belt conveyor by 10~20 millimeters of finished product belt conveyors and is transported to 10~20 millis Rice finished bin storage；15~20 millimeters of building stones can also be sieved by secondary vibration and be slipped with electro-hydraulic dynamic three-way before 15~20 mm sieves Slot enters in abrasive belt conveyer processed, and building stones are transported in sand surge bunker processed by sand feeding bucket elevator processed；

H, the screening sieved by secondary vibration, before 10~15 millimeters of building stones are by secondary vibration sieve and 10~15 mm sieves Electro-hydraulic dynamic three-way chute is reprinted again by belt conveyor by 10~20 millimeters of finished product belt conveyors and is transported to 10~20 millis Rice finished bin storage；10~15 millimeters of building stones can also be sieved by secondary vibration and be slipped with electro-hydraulic dynamic three-way before 10~15 mm sieves Slot enters in abrasive belt conveyer processed, and 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 electricity before secondary vibration sieve and 5~10 mm sieves Hydraulic dynamic three-way chute by 5~10 millimeters of finished product belt conveyors by belt conveyor reprint again be transported to 5~10 millimeters at The storage of product storehouse；5~10 millimeters of building stones can also be sieved by secondary vibration to be entered with electro-hydraulic dynamic three-way chute before 5~10 mm sieves In abrasive belt conveyer processed, 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 electro-hydraulic before secondary vibration sieve and 3~5 mm sieves Dynamic three-way chute is transported to 3~5 millimeters of finished bin storages by 3~5 millimeters of finished product belt conveyors；3~5 millimeters of building stones can also To be entered in abrasive belt conveyer processed by electro-hydraulic dynamic three-way chute before secondary vibration sieve and 3~5 mm sieves, by sand feeding processed Building stones are transported in sand surge bunker processed by bucket elevator；

K, the screening sieved by secondary vibration, 0~3 millimeter of building stones pass through funnel under secondary vibration sieve and 0~3 mm sieve It is reprinted once or twice by 0~3 millimeter of finished product belt conveyor by belt conveyor and is transported to 0~3 millimeter of finished bin and deposits It puts.

Wherein: the building stones for 45~80 millimeters of partial sizes produced are used for iron and steel enterprise, the stone of 30~45 millimeters of partial sizes Material is 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, the stone of 20~30 millimeters of partial sizes Material is used for business concrete mixing plant, and the building stones of 10~20 millimeters of partial sizes are used for Highway Construction Project Based, the stone of 5~10 millimeters of partial sizes Material is 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 whitewashed for tunnel.

The utility model uses two 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.

Detailed description of the invention:

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the enlarged structure schematic diagram of a vibrating screen in Fig. 1；

Fig. 3 is the enlarged structure schematic diagram of secondary vibration sieve in Fig. 1.

Specific embodiment:

The utility model is made further explanation with reference to the accompanying drawing:

Referring to Fig. 1, each serial number is indicated in figure parts title are as follows: 1 is feeding belt conveyor, and 2 be the first cloth Device, 3 be a vibrating screen, 4 be chute before returning charge is sieved, 5 be electro-hydraulic dynamic three-way chute before 45~80 mm sieves, 6 be 30~45 millis Electro-hydraulic dynamic three-way chute, 7 are that funnel, 9 are under 0~20 mm sieve for electro-hydraulic dynamic three-way chute, 8 before 20~30 mm sieves before rice huller screen Returning charge belt conveyor, 10 be 45~80 millimeters of finished product belt conveyors, 11 be that 20~30 millimeters of finished product belt conveyors, 12 are Abrasive belt conveyer processed, 13 be 0~20 millimeter of belt conveyor, 14 second distributing devices, 15 secondary vibrations sieve, 16 be 15~20 millis Electro-hydraulic dynamic three-way chute before rice huller screen, 17 be electro-hydraulic dynamic three-way chute before 10~15 mm sieves, 18 be electro-hydraulic dynamic before 5~10 mm sieves Three-way 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 at Product belt conveyor, 22 be 5~10 millimeters of finished product belt conveyors, 23 be 3~5 millimeters of finished product belt conveyors, 24 be 0~3 Millimeter finished product belt conveyor, 25 are sand feeding bucket elevator processed, and 26 be sand surge bunker processed, and 27 be elevator chute.

Referring to figs. 2 and 3, the parts title that each serial number is indicated in figure are as follows: 3-1 is 80 millimeter aperture sieve plates, 3-2 is 45 millimeter aperture sieve plates, 3-3 are 30 millimeter aperture sieve plates, 3-4 is 20 millimeter aperture sieve plates, 15-1 be 15 millimeter aperture sieve plates, 15-2 is 10 millimeter aperture sieve plates, 15-3 is 5 millimeter aperture sieve plates, 15-4 is 3 millimeter aperture sieve plates.

Embodiment: a kind of building stones produce two sections of sieve classification systems, including feeding belt conveyor 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 are sieved Funnel 8, returning charge belt conveyor 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 belt conveyors 11 of~80 millimeters of finished product belt conveyors, 12,0~20 milli of abrasive belt conveyer processed Rice belt conveyor 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 belt conveyor 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 belt conveyor finished product belt conveyor 24, sand feeding bucket elevator 25 processed, Sand surge bunker 26 and elevator chute 27 processed.

Wherein: a vibrating screen 3 uses four layers of sieve-plate structure, and the hole diameter of sieve (perforated) plate first layer 3-1 is 80 millimeters, second layer 3-2 Hole diameter of sieve (perforated) plate is 45 millimeters, and the hole diameter of sieve (perforated) plate third layer 3-3 is 30 millimeters, and the 4th layer of hole diameter of sieve (perforated) plate 3-4 is 20 millimeters；Secondary vibration Sieve 15 also uses four layers of sieve-plate structure, and the hole diameter of sieve (perforated) plate first layer 5-1 is 15 millimeters, and the hole diameter of sieve (perforated) plate second layer 5-2 is 10 millimeters, the Three layers of hole 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 belt conveyor 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 flange 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, 5 feed inlet of electro-hydraulic dynamic three-way chute before the discharge port of 45 millimeters of sieve plate 3-2 of the second layer of vibrating screen 3 and 45~80 mm sieves It is corresponding, electro-hydraulic dynamic three-way chute 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 6 feed inlets are corresponding, electro-hydraulic dynamic 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 three-way chute 7 is corresponding；It is corresponding under a vibrating screen 3 that funnel 8 under 0~20 mm sieve, a vibrating screen 3 are installed Under be equipped with the 3-6 that is flexible coupling between funnel 8 under 0~20 mm sieve corresponding thereto, the 3-6 or more that is flexible coupling is by flange difference It is connect with 8 upper flange of funnel under 3 lower flange of vibrating screen and 0~20 mm sieve；

Deflector chute before returning charge is sieved on 4 discharge port of chute and returning charge belt conveyor 9 passes through flanged joint, 45~80 millis Before rice huller screen 5 liang of discharge ports of electro-hydraulic dynamic three-way chute respectively with returning charge belt conveyor 9 and 45~80 millimeter finished product belt conveyor Deflector chute on 10 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 Deflector chute on conveyer 9 and abrasive belt conveyer 12 processed passes through flanged joint, electro-hydraulic dynamic three-way chute before 20~30 mm sieves 7 two discharge ports pass through method with the deflector chute on 20~30 millimeters of finished product belt conveyors 11 and abrasive belt conveyer 12 processed respectively Orchid connection；Deflector chute under 0~20 mm sieve on 8 discharge port of funnel and 0~20 millimeter of belt conveyor 13 is connected by flange It connects；

0~20 millimeter of 13 head funnel of belt conveyor is connect by flange with the feed inlet of the second distributing device 14, and second 14 lower flange of distributing device is connect with the second seal closure 15-5 feed opening flange on secondary vibration sieve 15, under the second seal closure 15-5 The flange that is flexible coupling sieves 15 upper flanges with secondary vibration and connect, and two mouthful 15- that gather dust are arranged on the second seal closure 15-5 7；

It is electro-hydraulic dynamic 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 three-way chute 16 is corresponding, the discharge port and 10 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~15 mm sieves, 5 millimeters of sieve plates of third layer of the secondary vibration sieve 15 The discharge port of 15-3 is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute 18 before 5~10 mm sieves, the secondary vibration sieve 15 The discharge port of 4th layer of 3 millimeters of sieve plate 15-4 is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute 19 before 3~5 mm sieves；

Funnel 20 under 15 0~3 mm sieves of lower corresponding installation of secondary vibration sieve, the secondary vibration sieve 15 with it is corresponding 0~3 mm sieve under the 15-6 that is flexible coupling is equipped between funnel 20, be flexible coupling 15-6 or more by flange respectively with secondary vibration 20 upper flange of funnel under 15 lower flanges and 0~3 mm sieve is sieved to connect；

16 liang of discharge ports of electro-hydraulic dynamic three-way chute are defeated with 10~20 millimeters of finished product belts respectively before 15~20 mm sieve The deflector chute on machine 21 and abrasive belt conveyer 12 processed is sent to pass through flanged joint, electro-hydraulic dynamic three-way slips before 10~15 mm sieve Two discharge ports of slot 17 are logical with the deflector chute on 10~20 millimeters of finished product belt conveyors 21 and abrasive belt conveyer 12 processed respectively Flanged joint is crossed, 18 liang of discharge ports of electro-hydraulic dynamic three-way chute are defeated with 5~10 millimeters of finished product belts respectively before 5~10 mm sieve The deflector chute on machine 22 and abrasive belt conveyer 12 processed is sent to pass through flanged joint, electro-hydraulic dynamic three-way chute before 3~5 mm sieve 19 liang of discharge ports pass through flange with the deflector chute on 3~5 millimeters of finished product belt conveyors 23 and abrasive belt conveyer 12 processed respectively Connection；

20 discharge port of funnel passes through with the deflector chute on 0~3 millimeter of finished product belt conveyor 24 under 0~3 mm sieve Flanged joint, 12 head funnel of abrasive belt conveyer processed are connected by the feed inlet of flange and sand feeding bucket elevator 25 processed It connects, the sand feeding bucket elevator 25 processed is connected by elevator chute 27 with sand surge bunker 26 processed；The primary vibration The discharge port of sieve 3 and secondary vibration sieve 15, which is equipped with to be flexible coupling, passes through flanged joint with corresponding chute.

The building stones produce two sections of sieve classification systems according to production needs can be 2 sets or more arranged side by side along finished product belt conveyor Set.

Claims (3)

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 belt conveyor (1), the first distributing device (2), a vibrating screen (3), returning charge sieve preceding chute (4), 45~80 mm sieves Electro-hydraulic dynamic three-way before electro-hydraulic dynamic three-way chute (6), 20~30 mm sieves before preceding electro-hydraulic dynamic three-way chute (5), 30~45 mm sieves Funnel (8) under chute (7), 0~20 mm sieve, returning charge belt conveyor (9), 45~80 millimeters of finished product belt conveyors (10), 20~30 millimeters of finished product belt conveyors (11), abrasive belt conveyer processed (12), 0~20 millimeter of belt conveyor (13), second It is electro-hydraulic before electro-hydraulic dynamic three-way chute (16), 10~15 mm sieves before distributing device (14), secondary vibration sieve (15), 15~20 mm sieves Electro-hydraulic dynamic three-way chute before electro-hydraulic dynamic three-way chute (18), 3~5 mm sieves before dynamic three-way chute (17), 5~10 mm sieves (19), funnel (20), 10~20 millimeters of finished product belt conveyors (21), 5~10 millimeters of finished product belt conveyings under 0~3 mm sieve Machine (22), 3~5 millimeters of finished product belt conveyors (23), 0~3 millimeter of finished product belt conveyor (24), sand feeding bucket lifting processed Machine (25), sand surge bunker processed (26) and elevator chute (27)；Vibrating screen (3) use four layers of sieve-plate structure, first The layer sieve plate aperture (3-1) is 80 millimeters, and the second layer sieve plate aperture (3-2) is 45 millimeters, and the third layer sieve plate aperture (3-3) is 30 millis Rice, the 4th layer of sieve plate aperture (3-4) are 20 millimeters；The secondary vibration sieve (15) also uses four layers of sieve-plate structure, first layer sieve plate The aperture (15-1) is 15 millimeters, and the second layer sieve plate aperture (15-2) is 10 millimeters, and the third layer sieve plate aperture (15-3) is 5 millimeters, The 4th layer of sieve plate aperture (15-4) 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 is connect by flange with the first distributing device (2) upper flange, the first distributing device (2) lower flange with it is described The first seal closure (3-5) feed opening flange connection on vibrating screen (3), be flexible coupling under the first seal closure (3-5) flange with One time vibrating screen (3) upper flange connects, and two mouths that gather dust (3-7) are arranged on first seal closure (3-5)；

Chute (4) feed inlet phase before the discharge port of 80 millimeters of sieve plates (3-1) of first layer of vibrating screen (3) is sieved with returning charge It is corresponding, electro-hydraulic dynamic three before the discharge port of 45 millimeters of sieve plates (3-2) of the second layer of a vibrating screen (3) and 45~80 mm sieves Logical chute (5) feed inlet is corresponding, and the discharge port of 30 millimeters of sieve plates (3-3) of third layer of a vibrating screen (3) and 30~ Electro-hydraulic dynamic three-way chute (6) feed inlet is corresponding before 45 mm sieves, the 4th layer of 20 millimeters of sieve plate of a vibrating screen (3) The discharge port of (3-4) is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute (7) before 20~30 mm sieves；Vibrating screen (3) it is corresponded under and funnel (8) under 0~20 mm sieve is installed, under a vibrating screen (3) and under corresponding 0~20 mm sieve It is equipped with and is flexible coupling (3-6) between funnel (8), it is described to be flexible coupling (3-6) up and down by flange respectively and under a vibrating screen (3) Funnel (8) upper flange connects under flange and 0~20 mm sieve；

Deflector chute before the returning charge is sieved on chute (4) discharge port and returning charge belt conveyor (9) is by flanged joint, and described 45 Before~80 mm sieves (5) two discharge port of electro-hydraulic dynamic three-way chute respectively with returning charge belt conveyor (9) and 45~80 millimeters of finished products Deflector chute on belt conveyor (10) passes through flanged joint, and electro-hydraulic dynamic three-way chute (6) two goes out before 30~45 mm sieve Material mouth is respectively with the deflector chute on returning charge belt conveyor (9) and abrasive belt conveyer processed (12) by flanged joint, and described 20 Before~30 mm sieves two discharge ports of electro-hydraulic dynamic three-way chute (7) respectively with 20~30 millimeters of finished product belt conveyors (11) and system Deflector chute on abrasive belt conveyer (12) passes through flanged joint；Funnel (8) discharge port and 0~20 under 0~20 mm sieve Deflector chute on millimeter belt conveyor (13) passes through flanged joint；

0~20 millimeter of belt conveyor (13) head funnel is connect by flange with the feed inlet of the second distributing device (14), Second distributing device (14) lower flange is connect with the second seal closure (15-5) feed opening flange on secondary vibration sieve (15), the The flange that is flexible coupling under two seal closures (15-5) is connect with secondary vibration sieve (15) upper flange, in second seal closure (15-5) Two mouths that gather dust (15-7) of upper setting；

It is electro-hydraulic dynamic before the discharge port of 15 millimeters of sieve plates (15-1) of first layer of the secondary vibration sieve (15) and 15~20 mm sieves The feed inlet of three-way chute (16) is corresponding, the discharge port of 10 millimeters of sieve plates (15-2) of the second layer of the secondary vibration sieve (15) It is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute (17) before 10~15 mm sieves, the third layer 5 of the secondary vibration sieve (15) The discharge port of millimeter sieve plate (15-3) is corresponding with the feed inlet of electro-hydraulic dynamic three-way chute (18) before 5~10 mm sieves, and described two Electro-hydraulic dynamic three-way chute (19) before the discharge port of the 4th layer of 3 millimeters of sieve plate (15-4) of secondary vibrating screen (15) and 3~5 mm sieves Feed inlet is corresponding；

Funnel (20) under 0~3 mm sieve of corresponding installation, the secondary vibration sieve (15) and opposite under the secondary vibration sieve (15) Under 0~3 mm sieve answered between funnel (20) be equipped be flexible coupling (15-6), be flexible coupling (15-6) up and down by flange respectively with Secondary vibration sieves funnel (20) upper flange under (15) lower flange and 0~3 mm sieve and connects；

Before 15~20 mm sieve (16) two discharge port of electro-hydraulic dynamic three-way chute respectively with 10~20 millimeters of finished product belt conveyings Deflector chute on machine (21) and abrasive belt conveyer processed (12) passes through flanged joint, electro-hydraulic dynamic three-way before 10~15 mm sieve (17) two discharge port of chute respectively with leading on 10~20 millimeters of finished product belt conveyors (21) and abrasive belt conveyer processed (12) Hopper by flanged joint, before 5~10 mm sieve (18) two discharge port of electro-hydraulic dynamic three-way chute respectively with 5~10 millimeters at Deflector chute on product belt conveyor (22) and abrasive belt conveyer processed (12) passes through flanged joint, electricity before 3~5 mm sieve (19) two discharge port of hydraulic dynamic three-way chute respectively with 3~5 millimeters of finished product belt conveyors (23) and abrasive belt conveyer processed (12) On deflector chute pass through flanged joint；

Funnel (20) discharge port passes through with the deflector chute on 0~3 millimeter of finished product belt conveyor (24) under 0~3 mm sieve Flanged joint, abrasive belt conveyer (12) head funnel processed pass through the charging of flange and sand feeding bucket elevator (25) processed Mouth connection, the sand feeding bucket elevator (25) processed are connected by elevator chute (27) with sand surge bunker (26) processed；Institute State a vibrating screen (3) and secondary vibration sieve (15) discharge port be equipped be flexible coupling with corresponding chute by flange company 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 according to production needs can be along finished product belt conveyor 2 sets or more sets arranged side by side.