CN208757760U - Machine-made Sand production system - Google Patents

Abstract

The utility model discloses a kind of Machine-made Sand production systems, including sand feeding belt conveyor processed, sand surge bunker processed, frequency control feeding belt conveyor, feeding bucket elevator, feeding chute, sand making machine, the lower chute of sand making machine first, the lower chute of sand making machine second, vibration material distributor, vibration material distributor chute, vibrating screen seal closure, vibrating screen, chute before sieving, sieve lower funnel, belt conveyor before sieving, sieve lower belt conveyor, finished product bucket elevator, electro-hydraulic dynamic three-way chute, powder concentrator, finished sand chute, finished sand discharger, finished sand scrapper conveyor, ashes chute, ashes discharger, grey filler bin, finished sand feed bin, sand deduster processed, entrucking deduster, ashes bulk machine and finished sand bulk machine.The utility model is arranged using building formula, is reduced occupied area, is gathered dust convenient for deduster, energy conservation and environmental protection reduces cost, entire Machine-made Sand production system is controlled by using intellectualizing system, the performance of sand making machine can be given full play to, improves the quality of production capacity and finished sand.

Description

Machine-made Sand production system

Technical field:

The utility model relates to a kind of Machine-made Sand production systems, belong to building stones production technical field.

Background technique:

Machine-made Sand is the rock, mill tailings or Industry Waste by Mechanical Crushing, the partial size being sieved into less than 4.75 millimeters Solid impurity particle is commonly called as Machine-made Sand.Machine-made Sand production line is divided into two kinds of techniques of dry-method sand manufacturing and wet process sand by technique.Wet process sand is raw Producing line is limited using mud powder and mountain flour in sand washer cleaning sand by water resource, and mountain flour wash off after destroy mechanism The rational gradation composition of sand, results in waste of resources.Dry-method sand manufacturing production line capital equipment includes sand making machine, vibrating screen, powder concentrator, dedusting Device etc. gets rid of the limitation of environment compared to wet process sand, and gradation is more preferable, more environmentally-friendly.Currently, because dry-method sand manufacturing gets rid of ring Border limits, the grade of Machine-made Sand prepares, is more favorable for environmental protection, and is not limited by water source and environment, and mechanism sandstone production line is It comes into operation extensively throughout the country.

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.

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 Machine-made Sand production System is arranged using building formula and intellectualizing system is used to control entire Machine-made Sand production system, can produced according to needed for gradation The Machine-made Sand of high-quality.

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

A kind of Machine-made Sand production system, including sand feeding belt conveyor processed, sand surge bunker processed, material belt type in frequency control The lower chute of the lower chute of conveyer, feeding bucket elevator, feeding chute, sand making machine, sand making machine first, sand making machine second, vibration Chute, sieve descend belt conveyor, sieve before funnel, sieve before material distributing machine, vibration material distributor chute, vibrating screen seal closure, vibrating screen, sieve Lower belt conveyor, finished product bucket elevator, electro-hydraulic dynamic three-way chute, powder concentrator, finished sand chute, finished sand discharger, at Product sand scrapper conveyor, ashes chute, ashes discharger, grey filler bin, finished sand feed bin, sand deduster processed, entrucking deduster, ashes Bulk machine and finished sand bulk machine；The head funnel of the sand feeding belt conveyor processed and the feed inlet of sand surge bunker processed pass through Frequency control feeding belt conveyor, material belt type in the frequency control is provided below in flanged joint, the sand surge bunker processed The head funnel of conveyer and the feed inlet of feeding bucket elevator pass through flanged joint, the discharging of the feeding bucket elevator For mouth with feeding chute by flanged joint, the feed opening of the feeding chute and the feed inlet of sand making machine pass through flanged joint；Institute Two discharge ports for stating sand making machine pass through chute and the lower chute of sand making machine second under flanged joint sand making machine first separately below, described The discharge port of the lower chute of sand making machine first and the lower chute of sand making machine second passes through two chargings being flexible coupling with vibration material distributor respectively Mouth is connected, and the discharge port of the vibration material distributor is connect by being flexible coupling with vibration material distributor chute, and the vibration material distributor slips Slot discharge port is connect by flange with the feed inlet on vibrating screen seal closure, and the vibrating screen seal closure setting is on the vibrating Side, it is connected by being flexible coupling between vibrating screen seal closure and vibrating screen, the discharge port of the vibrating screen is corresponding be provided with sieve before Chute, the discharge port of chute and deflector chute before sieving on belt conveyor are by flanged joint before the sieve, belt before the sieve The head funnel of conveyer is connect by flange with the feed inlet of feeding bucket elevator；It is correspondingly arranged below the vibrating screen There is the lower funnel of sieve, connected by being flexible coupling between the vibrating screen and the lower funnel of sieve, the discharge port of funnel passes through method under the sieve The blue deflector chute on belt conveyor under the sieve is connect, under the sieve head funnel of belt conveyor by flange at The first charging aperture of product bucket elevator connects, and the discharge port of the finished product bucket elevator is slipped by flange and electro-hydraulic dynamic three-way The feed inlet of slot is connected, two discharge ports of the electro-hydraulic dynamic three-way chute respectively with the feed inlet of powder concentrator and grey filler bin Feed inlet passes through flanged joint；The discharge port of the finished sand chute of the powder concentrator and the feed inlet of finished sand discharger pass through method Orchid connection, the discharge port of the finished sand discharger and the feed inlet of finished sand scrapper conveyor pass through flanged joint, the finished sand The discharge port of scrapper conveyor is connect by flange with the feed inlet of finished sand feed bin, the ash discharge of the ashes chute of the powder concentrator lower end The feed inlet of mouth and ashes discharger passes through flanged joint, and the discharge port of the ashes discharger passes through flange and grey filler bin Feed inlet connection；

The air inlet of the sand deduster processed by air hose respectively with gather dust mouth and the upper material belt type on vibrating screen seal closure Shield before conveyer, frequency control feeding belt conveyor, sieve in the head funnel of the lower belt conveyor of belt conveyor, sieve It is connected with deflector chute；The ash hole of two flue-dust retainers of the sand deduster processed is connected with the feed inlet of three-way chute by flange respectively It connects, the discharge port of the three-way chute is connected by flange with the feed inlet of unloading valve, and the discharge port of the unloading valve is by slipping Slot is connect with the deflector chute sieved on lower belt conveyor；

The air inlet of the entrucking deduster passes through the air hose mouth that gathers dust with ashes bulk machine and finished sand bulk machine respectively It is connected；The ash hole of the flue-dust retainer of the entrucking deduster and the feed inlet of chute pass through flanged joint, the discharging of the chute Mouth is connected by flange with the feed inlet of unloading valve, the discharge port of the unloading valve and the second charging on finished product bucket elevator Mouth passes through flanged joint.

Feedstock transportation of the sand feeding belt conveyor processed by partial size less than 50 millimeters passes through sand processed to sand surge bunker processed Frequency control feeding belt conveyor below surge bunker into feeding bucket elevator, mentions feedstock transportation by feeding bucket type Feedstock transportation is crushed by the discharge port feeding chute of the machine of liter into sand making machine；Pass through system by the building stones that sand making machine was crushed The lower chute of sand machine first and the lower chute of sand making machine second enter in vibration material distributor, then pass through vibrating distributor chute and vibration Building stones are evenly arranged on the vibrating by the feed inlet of sieve seal closure；Sieved by vibrating screen, the building stones greater than 4.75 millimeters into Enter before sieving in chute, be then transported in feeding bucket elevator by the preceding belt conveyor of sieve, be again introduced into sand making machine into Row is broken；It is sieved by vibrating screen, the building stones less than 4.75 millimeters enter in the lower funnel of sieve, then by sieving lower belt conveying Machine is transported in finished product bucket elevator, then is entered powder concentrator by electro-hydraulic dynamic three-way chute and carried out selecting powder；

Select powder by powder concentrator, meet the finished sand of gradation requirement by the finished sand discharger under finished sand chute by Product sand scrapper conveyor, which is transported in finished sand feed bin, to be stored；The ashes for not meeting gradation requirement passes through the ashes discharging under ashes chute Device, which enters in grey filler bin, to be stored.

The ashes of collection is discharged into two flue-dust retainers by the sand deduster processed when running, and is unloaded by what is be connected with three-way chute Ashes is transported in the deflector chute for sieving lower belt conveyor by grey valve, then is transported to finished product bucket lifting by sieving lower belt conveyor In the first charging aperture of machine, electro-hydraulic dynamic three-way chute is transported to by the promotion of finished product bucket elevator, when powder concentrator operation, electricity Ashes is transported in powder concentrator by hydraulic dynamic three-way chute, and when powder concentrator is out of service, electro-hydraulic dynamic three-way chute conveys ashes In grey filler bin；

The ashes of collection is discharged into flue-dust retainer by the entrucking deduster when running, by unloading with what chute discharge port was connected Ashes is transported in the second charging aperture of finished product bucket elevator by grey valve, is transported to by the promotion of finished product bucket elevator electro-hydraulic Dynamic three-way chute, when powder concentrator operation, ashes is transported in powder concentrator by electro-hydraulic dynamic three-way chute, when powder concentrator is out of service When, electro-hydraulic dynamic three-way chute conveys ashes in grey filler bin.

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

Be provided with belted electronic balance on belt conveyor before the sieve, according to the returning charge before sieving on belt conveyor how much, The signal exported by belted electronic balance automatically controls the speed of frequency control feeding belt conveyor to control doses on raw material； When the returning charge amount on the preceding belt conveyor of sieve reaches the set upper limit, the output signal for passing through belted electronic balance, which automatically controls, to be become Frequency modulation speed feeding belt conveyor reduces speed to reduce upper doses, and the returning charge amount before sieving on belt conveyor reaches set When lower limit, frequency control feeding belt conveyor raising speed is automatically controlled by the signal of belted electronic balance to increase feeding Amount.

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.

Detailed description of the invention:

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

Fig. 2 is the A-A view in Fig. 1；

Fig. 3 is the K direction view in Fig. 1.

Specific embodiment:

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

Referring to figure 1, figure 2 and figure 3, the parts title that each serial number is indicated in figure are as follows: 1 is sand feeding belt conveying processed Machine, 2 be sand surge bunker processed, 3 be frequency control feeding belt conveyor, 4 be feeding bucket elevator, 5 be feeding chute, 6 be Sand making machine, 7 be chute under sand making machine first, 8 be chute under sand making machine second, 9 be vibration material distributor, 10 be that vibration material distributor slips Slot, 11 be vibrating screen seal closure, 11-1 is the mouth that gathers dust on vibrating screen seal closure, 12 is vibrating screen, 13 is to sieve preceding chute, 14 be Sieve lower funnel, 15 be the preceding belt conveyor of sieve, 16 be sieve lower belt conveyor, 17 be finished product bucket elevator, 17-1 is finished product The first charging aperture of bucket elevator, 17-2 are the second charging aperture of finished product bucket elevator, 18 are electro-hydraulic dynamic three-way chute, 19 For powder concentrator, 20 be finished sand chute, 21 be finished sand discharger, 22 be finished sand scrapper conveyor, 23 be ashes chute, 24 be ash Powder discharger, 25 be grey filler bin, 26 be finished sand feed bin, 27 be sand deduster processed, the air inlet that 27-1 is sand deduster processed Mouth, three-way chute, the 27-4 that two flue-dust retainers, the 27-3 that 27-2 is sand deduster processed are sand deduster processed are unloading for sand deduster processed Grey valve, 28 be entrucking deduster, 28-1 is the air inlet of entrucking deduster, 28-2 is the flue-dust retainer of entrucking deduster, 28-3 is Chute, the 28-4 of entrucking deduster are the unloading valve of entrucking deduster, 29 are ashes bulk machine, 30 are finished sand bulk machine.

Embodiment: a kind of Machine-made Sand production system, including sand feeding belt conveyor 1 processed, sand surge bunker 2 processed, frequency conversion tune Fast feeding belt conveyor 3, feeding bucket elevator 4, feeding chute 5, sand making machine 6, sand making machine first lower chute 7, sand making machine The preceding chute 13 of second time chute 8, vibration material distributor 9, vibration material distributor chute 10, vibrating screen seal closure 11, vibrating screen 12, sieve, Belt conveyor 15, sieve lower belt conveyor 16, finished product bucket elevator 17, electro-hydraulic dynamic three-way chute before sieving lower funnel 14, sieving 18, powder concentrator 19, finished sand chute 20, finished sand discharger 21, finished sand scrapper conveyor 22, ashes chute 23, ashes discharger 24, grey filler bin 25, finished sand feed bin 26, sand deduster 27 processed, entrucking deduster 28, ashes bulk machine 29 and finished sand are in bulk Machine 30；Wherein: the head funnel of sand feeding belt conveyor 1 processed and the feed inlet of sand surge bunker 2 processed are being made by flanged joint Frequency control feeding belt conveyor 3, the head funnel of frequency control feeding belt conveyor 3 is provided below in sand surge bunker 2 By flanged joint, discharge port and the feeding chute 5 of feeding bucket elevator 4 pass through feed inlet with feeding bucket elevator 4 Flanged joint, the feed opening of feeding chute 5 and the feed inlet of sand making machine 6 pass through flanged joint；Below two discharge ports of sand making machine 6 Pass through chute 8, the lower chute 7 of sand making machine first and sand processed under the lower chute 7 of flanged joint sand making machine first and sand making machine second respectively The discharge port of the lower chute 8 of machine second passes through to be flexible coupling respectively to be connected with two feed inlets of vibration material distributor 9, vibration material distributor 9 Discharge port is connect by being flexible coupling with vibration material distributor chute 10, and 10 discharge port of vibration material distributor chute passes through flange and vibrating screen Feed inlet connection on seal closure 11, vibrating screen seal closure 11 are arranged above vibrating screen 12, vibrating screen seal closure 11 and vibration Connected by being flexible coupling between sieve 12, the corresponding chute 13 before being provided with sieve of the discharge port of vibrating screen 12, chute 13 goes out before sieving Material mouth and the deflector chute sieved on preceding belt conveyor 15 pass through flanged joint, and the head funnel of belt conveyor 15 passes through method before sieving Orchid connect with the feed inlet of feeding bucket elevator 4；The lower section of vibrating screen 12 is correspondingly arranged on the lower funnel 14 of sieve, 12 He of vibrating screen Connected by being flexible coupling between funnel 14 under sieving, the discharge port for sieving lower funnel 14 passes through belt conveyor 16 under flange and the sieve On deflector chute connection, the head funnel for sieving lower belt conveyor 16 passes through the first charging of flange and finished product bucket elevator 17 Mouth 17-1 connection, the discharge port of finished product bucket elevator 17 are connected by flange with the feed inlet of electro-hydraulic dynamic three-way chute 18, Feed inlet of two discharge ports of electro-hydraulic dynamic three-way chute 18 respectively with the feed inlet of powder concentrator 19 and grey filler bin 25 passes through flange Connection；The discharge port of the finished sand chute 20 of powder concentrator 19 and the feed inlet of finished sand discharger 21 pass through flanged joint, finished product The discharge port of sand discharger 21 and the feed inlet of finished sand scrapper conveyor 22 pass through flanged joint, the discharge port of finished sand scrapper conveyor 22 It is connect by flange with the feed inlet of finished sand feed bin 26, the ash hole of the ashes chute 23 of 19 lower end of powder concentrator and ashes discharging The feed inlet of device 24 is connected by flanged joint, the discharge port of ashes discharger 24 by the feed inlet of flange and grey filler bin 25 It connects；

The air inlet 27-1 of sand deduster 27 processed by air hose respectively on vibrating screen seal closure 11 gather dust mouthful 11-1 and Feeding belt conveyor 1, the head for frequency control feeding belt conveyor 3, sieving preceding belt conveyor 15, sieving lower belt conveyor 16 Shield on portion's funnel is connected with deflector chute；The ash hole of two flue-dust retainer 27-2 of sand deduster 27 processed respectively with three-way chute For the feed inlet of 27-3 by flanged joint, the discharge port of three-way chute 27-3 passes through the feed inlet phase of flange and unloading valve 27-4 Even, the discharge port of unloading valve 27-4 is connect by chute with the deflector chute sieved on lower belt conveyor 16；

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 (4)

1. a kind of Machine-made Sand production system, it is characterised in that: the Machine-made Sand production system includes sand feeding belt conveyor processed (1), sand surge bunker (2) processed, frequency control feeding belt conveyor (3), feeding bucket elevator (4), feeding chute (5), system Sand machine (6), sand making machine first lower chute (7), sand making machine second lower chute (8), vibration material distributor (9), vibration material distributor chute (10), chute (13), sieve lower funnel (14), the preceding belt conveyor of sieve before vibrating screen seal closure (11), vibrating screen (12), sieve (15), lower belt conveyor (16), finished product bucket elevator (17), electro-hydraulic dynamic three-way chute (18), powder concentrator (19), finished product are sieved Sand chute (20), finished sand discharger (21), finished sand scrapper conveyor (22), ashes chute (23), ashes discharger (24), ashes Feed bin (25), finished sand feed bin (26), sand deduster processed (27), entrucking deduster (28), ashes bulk machine (29) and finished sand Bulk machine (30)；The head funnel of the sand feeding belt conveyor (1) processed and the feed inlet of sand surge bunker (2) processed pass through flange Frequency control feeding belt conveyor (3), material strip in the frequency control is provided below in connection, the sand surge bunker (2) processed The head funnel of formula conveyer (3) and the feed inlet of feeding bucket elevator (4) pass through flanged joint, the feeding bucket lifting The discharge port of machine (4) and feeding chute (5) by flanged joint, the feed opening of the feeding chute (5) and sand making machine (6) into Material mouth passes through flanged joint；Two discharge ports of the sand making machine (6) pass through chute under flanged joint sand making machine first separately below (7) and sand making machine second is lower chute (8), the discharge port of the sand making machine first lower chute (7) and sand making machine second lower chute (8) It is connected respectively by being flexible coupling with two feed inlets of vibration material distributor (9), the discharge port of the vibration material distributor (9) passes through soft company It connects and is connect with vibration material distributor chute (10), vibration material distributor chute (10) discharge port passes through flange and vibrating screen seal closure (11) the feed inlet connection on, vibrating screen seal closure (11) setting is above vibrating screen (12), vibrating screen seal closure (11) It is connected by being flexible coupling between vibrating screen (12), the corresponding chute before being provided with sieve of the discharge port of the vibrating screen (12) (13), the discharge port of chute (13) and the deflector chute sieved on preceding belt conveyor (15) pass through flanged joint before the sieve, described The head funnel of belt conveyor (15) is connect by flange with the feed inlet of feeding bucket elevator (4) before sieving；The vibration It is lower funnel (14) that sieve is correspondingly arranged below sieve (12), by being flexible coupling between the vibrating screen (12) and sieve lower funnel (14) It is connected, the discharge port of funnel (14) is connect by flange with the deflector chute under the sieve on belt conveyor (16) under the sieve, The head funnel of belt conveyor (16) passes through the first charging aperture (17- of flange and finished product bucket elevator (17) under the sieve 1) it connects, the discharge port of the finished product bucket elevator (17) is connected by flange with the feed inlet of electro-hydraulic dynamic three-way chute (18) Connect, two discharge ports of the electro-hydraulic dynamic three-way chute (18) respectively with the feed inlet of powder concentrator (19) and grey filler bin (25) into Material mouth passes through flanged joint；The discharge port of the finished sand chute (20) of the powder concentrator (19) and finished sand discharger (21) into Material mouth passes through method by flanged joint, the discharge port of the finished sand discharger (21) and the feed inlet of finished sand scrapper conveyor (22) The discharge port of orchid connection, the finished sand scrapper conveyor (22) is connect by flange with the feed inlet of finished sand feed bin (26), described The ash hole of the ashes chute (23) of powder concentrator (19) lower end and the feed inlet of ashes discharger (24) are described by flanged joint The discharge port of ashes discharger (24) is connect by flange with the feed inlet of grey filler bin (25)；

The air inlet (27-1) of the sand deduster (27) processed by air hose respectively with the mouth that gathers dust on vibrating screen seal closure (11) (11-1) and feeding belt conveyor (1), frequency control feeding belt conveyor (3) sieve preceding belt conveyor (15), sieve lower band Shield in the head funnel of formula conveyer (16) is connected with deflector chute；Two flue-dust retainers (27-2) of the sand deduster (27) processed Ash hole respectively with the feed inlet of three-way chute (27-3) by flanged joint, the discharge port of the three-way chute (27-3) is logical It crosses flange to be connected with the feed inlet of unloading valve (27-4), the discharge port of the unloading valve (27-4) is defeated by chute and the lower belt of sieve The deflector chute on machine (16) is sent to connect；

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

2. Machine-made Sand production system according to claim 1, it is characterised in that: the sand feeding belt conveyor (1) processed Feedstock transportation by partial size less than 50 millimeters passes through the frequency control feeding of sand surge bunker (2) processed below to sand surge bunker (2) processed Belt conveyor (3) by feedstock transportation in feeding bucket elevator (4), on the discharge port by feeding bucket elevator (4) Material chute (5) will be crushed in feedstock transportation to sand making machine (6)；Pass through sand making machine by the building stones that sand making machine (6) was crushed First lower chute (7) and sand making machine second lower chute (8) enter in vibration material distributor (9), then pass through vibrating distributor chute (10) and building stones are evenly arranged on vibrating screen (12) by the feed inlet of vibrating screen seal closure (11)；It is sieved by vibrating screen (12) Point, the building stones greater than 4.75 millimeters enter in the preceding chute (13) of sieve, are then transported to feeding by belt conveyor (15) before sieving In bucket elevator (4), it is again introduced into sand making machine (6) and is crushed；It is sieved by vibrating screen (12), less than 4.75 millimeters Building stones enter in sieve lower funnel (14), are then transported to finished product bucket elevator (17) by sieving lower belt conveyor (16) In, then enter powder concentrator (19) by electro-hydraulic dynamic three-way chute (18) and carry out selecting powder；

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) storage in finished sand feed bin (26) is transported to by finished sand scrapper conveyor (22)；The ashes for not meeting gradation requirement passes through ashes Ashes discharger (24) under chute (23) enters storage in grey filler bin (25).

3. Machine-made Sand production system according to claim 1, it is characterised in that: will when the sand deduster (27) processed runs The ashes of collection is discharged into two flue-dust retainers (27-2), by the unloading valve (27-4) being connected with three-way chute (27-3) that ashes is defeated It is sent in the deflector chute for sieving lower belt conveyor (16), then be transported to finished product bucket elevator by sieving lower belt conveyor (16) (17) it in first charging aperture (17-1), is promoted by finished product bucket elevator (17) and is transported to electro-hydraulic dynamic three-way chute (18), When powder concentrator (19) operation, ashes is transported in powder concentrator (19) by electro-hydraulic dynamic three-way chute (18), when powder concentrator (19) stops When only running, electro-hydraulic dynamic three-way chute (18) conveys ashes in grey filler bin (25)；

The ashes of collection is discharged into flue-dust retainer (28-2) by the entrucking deduster (28) when running, by going out with chute (28-3) Ashes is transported in the second charging aperture (17-2) of finished product bucket elevator (17) by the connected unloading valve (28-4) of material mouth, is passed through Finished product bucket elevator (17) promotion is transported to electro-hydraulic dynamic three-way chute (18), when powder concentrator (19) operation, electro-hydraulic dynamic three-way Ashes is transported in powder concentrator (19) by chute (18), and when powder concentrator (19) is out of service, electro-hydraulic dynamic three-way chute (18) will Ashes conveys in grey filler bin (25).

4. Machine-made Sand production system according to claim 1, it is characterised in that: be provided on the sand surge bunker (2) processed Level sensor controls the start and stop of the sand feeding belt conveyor (1) processed by level sensor, reaches set when useless When material position, starts sand feeding belt conveyor (1) transferring raw material processed into sand surge bunker (2) processed, when reaching set material position, stop Only start sand feeding belt conveyor (1) processed；

It is provided with belted electronic balance on belt conveyor (15) before the 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 raw material Upper doses；When the returning charge amount on the preceding belt conveyor (15) of sieve reaches the set upper limit, the output for passing through belted electronic balance is believed It number automatically controls frequency control feeding belt conveyor (3) and reduces speed and reduce upper doses, the belt conveyor (15) before sieving On returning charge amount when reaching set lower limit, the signal for passing through belted electronic balance automatically controls frequency control feeding belt conveyor (3) speed is improved to increase upper doses.