CN205217099U - Piece mechanism sand production system - Google Patents

Abstract

The utility model relates to a piece mechanism sand production system. Including feed bin, vibrating feeder, coarse crushing machine, transfer feed bin, fine crushing machine, shale shaker, screw sand washer, sand slurry treatment machine etc. In this system. The system still includes mud powder processing apparatus, and the mud powder processing apparatus set up between screw sand washer and finished product area, by first conveyer belt, dewatering screen, second conveyer belt, feed divider, a sedimentation tank, the import of the lateral wall of sedimentation tank upper end through the pipeline be connected to screw sand washer, dewatering screen, slurry treatment machine respectively, a little sludge wastewater discharge port gathers materials, a confined mixing box, mixing box lead to pipe connects the sedimentation tank, and the mixing box still through the duct connections chemical tank, is connected with the water valve on the water pipe, be connected with the medicament valve on the conveyer pipe, the mixing box is still through output tube connected to the shower that has the shower nozzle, be connected with delivery valve on the output tube, this water valve, medicament valve and delivery valve are by PLC connection control. It can reduce off -the -shelf mud powder content to can synthesize and collect taking sludge wastewater and carrying out cyclic utilization of producing among the piece mechanism sand production system.

Description

Chip Machine-made Sand production system

Technical field

The utility model relates to Machine-made Sand production equipment, particularly a kind of chip Machine-made Sand production system.

Background technology

According to statistics, the road surface of the highway more than 95% of China is bitumen concrete or modified pitch concrete topping, along with the continuous growth of the volume of traffic, a lot of asphalt pavement of highway all presents certain early damage, as phenomenons such as shattered crack, passing, bellding, ruts, some highways are open to traffic even then and namely there occurs disease, and the normal maintenance interval (3 years) shifts to an earlier date greatly, not only have impact on vehicle operating, further increase the input of maintenance management fund.

One of common reason of bituminous paving shattered crack is that aggregate grading is uneven, and the building stones of median diameter are too many, and the building stones of fine grain very little.Processing method: change fine aggregate grating, reduces the voidage of compound.Bituminous paving is passed because compound is unstable or compound is more weak to be caused, these unstability, result from the same factor causing shattered crack, solution be improve inner frictional resistance between aggregate particle, change aggregate grading or improve the content of gravel particle (artificial sand) polygonal in compound at all.In a word, in order to prevent bituminous paving from producing the defects such as shattered crack, passing, bellding, must to the improvement that asphalt mixture design improves and pitch factory compound is produced.And at present in compound quality do not pass a test also only have fine aggregate.

Fine aggregate: in asphalt, fine aggregate refers to that particle diameter is less than the natural sand of 2.36mm, artificial sand and aggregate chips; In cement concrete, fine aggregate refers to that particle diameter is less than natural sand, the artificial sand of 5mm.And fine aggregate that is qualified, high-quality should have good grating, modulus of fineness (about 2.78), robustness, clay content, sand equivalent, corner angle etc.Natural sand, aggregate chips quality are uneven, unstable again, almost cannot be up to standard, only have the building stones with high-quality, the artificial sand of the rationally production technology manufacture of advanced person just can meet above requirement simultaneously.

For this reason, we need a kind of can manufacturing badly and meet above-mentioned requirements, fine aggregate production technology that is qualified, high-quality and equipment.

In order to solve the problem, Chinese utility model patent description (CN202037066U) discloses a kind of environmental protection wet method and to gather materials Machine-made Sand production system (being also a kind of chip Machine-made Sand production system).It comprises feed bin, the discharging opening of this feed bin is positioned at the top of oscillating feeder, the discharge end of this oscillating feeder is positioned at above the thick broken charging aperture of primary mill, the thick broken discharging opening of this primary mill is connected to the charging aperture of the first transfer feed bin by the first coarse fodder conveyer belt, the discharging opening of this first transfer feed bin is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the second coarse fodder conveyer belt, first thin broken discharging opening of this first type fine disintegrating machine is connected to charging place of the first vibratory sieve by the first compound conveyer belt, first vibratory sieve discharging opening of this first vibratory sieve is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the first apronbelt, first vibratory sieve feed opening of this first vibratory sieve is connected to the charging aperture of the second transfer feed bin by the second compound conveyer belt, the discharging opening of the second transfer feed bin is connected to the charging aperture of the second type fine disintegrating machine by the 3rd compound conveyer belt, second thin broken discharging opening of the second type fine disintegrating machine is connected to charging place of the second vibratory sieve by the 4th compound conveyer belt, second vibratory sieve feed opening of this second vibratory sieve is connected to charging place of screw sand washer by the first finished product material conveyer belt, discharging place of this screw sand washer is connected to by the second finished product material conveyer belt gathers materials a little, the sewage mouth of this screw sand washer is connected to the charging aperture of sand slurry treating machine by water pipe, the discharging opening of this sand slurry treating machine is connected to by the 3rd finished product material conveyer belt and gathers materials a little, this the second vibratory sieve discharging opening is leaded up to the second apronbelt according to stock grading situation and is connected to the charging aperture of the second transfer feed bin, the 5th compound conveyer belt of separately leading up to is connected to charging place of the 3rd vibratory sieve, 3rd vibratory sieve feed opening is connected to by the 4th finished product material conveyer belt and gathers materials a little, each stage material is connected each stage material of conveyer belt according to stock grading situation respectively by finished product material conveyer belt and gathers materials a little by this 3rd vibratory sieve discharging opening.

Above-mentioned environmental protection wet method gather materials screw sand washer in Machine-made Sand production system, slurry treating machine, to gather materials be all some the production station of easy generating strap mud waste water, if appoint these waste water arbitrarily to discharge, not only easily pollute production environment, the also rear as easy as rolling off a log generation airborne dust problem of moisture evaporation of easy perilesional natural environment, particularly these mud waste waters.

Moreover, above-mentioned environmental protection wet method gather materials Machine-made Sand production system mainly outdoor sports in the open produce, wherein, the station of oscillating feeder, primary mill, type fine disintegrating machine, vibratory sieve and conveyer belt all unavoidably produces industrial dust, these dust wave under the action of the forces of the wind everywhere, all cause great infringement to the natural environment of production environment and surrounding.In addition, screw sand washer in system, slurry treating machine, to gather materials be all some the production station of easy generating strap mud waste water, if appoint these waste water arbitrarily to discharge, not only easily pollute production environment, also the moisture of easy perilesional natural environment, particularly these mud waste waters also easily produces airborne dust problem after evaporating.

Further, the finished product Machine-made Sand produced by screw sand washer, its clay powder content is too high, and according to standard, the clay powder content of Machine-made Sand should control below 4%.

Utility model content

The purpose of this utility model is to provide a kind of chip Machine-made Sand production system, it mainly solves the technical problem existing for above-mentioned prior art, it can reduce the clay powder content of finished product, improve the quality of Machine-made Sand finished product, and the band mud waste water produced in energy comprehensive collection chip Machine-made Sand production system, these waste water are processed and recycled simultaneously, and taken into account chip Machine-made Sand production system environmental issue in use.

The utility model solves the problems of the technologies described above adopted technical scheme.

A kind of chip Machine-made Sand production system, it comprises feed bin, the discharging opening of this feed bin is positioned at the top of oscillating feeder, the discharge end of this oscillating feeder is positioned at above the thick broken charging aperture of primary mill, the thick broken discharging opening of this primary mill is connected to the charging aperture of the first transfer feed bin by the first coarse fodder conveyer belt, the discharging opening of this first transfer feed bin is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the second coarse fodder conveyer belt, first thin broken discharging opening of this first type fine disintegrating machine is connected to charging place of the first vibratory sieve by the first compound conveyer belt, first vibratory sieve discharging opening of this first vibratory sieve is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the first apronbelt, first vibratory sieve feed opening of this first vibratory sieve is connected to the charging aperture of the second transfer feed bin by the second compound conveyer belt, the discharging opening of the second transfer feed bin is connected to the charging aperture of the second type fine disintegrating machine by the 3rd compound conveyer belt, second thin broken discharging opening of the second type fine disintegrating machine is connected to charging place of the second vibratory sieve by the 4th compound conveyer belt, second vibratory sieve feed opening of this second vibratory sieve is connected to charging place of screw sand washer by the first finished product material conveyer belt, discharging place of this screw sand washer is connected to by the second finished product material conveyer belt gathers materials a little, the sewage mouth of this screw sand washer is connected to the charging aperture of sand slurry treating machine by water pipe, the discharging opening of this sand slurry treating machine is connected to by the 3rd finished product material conveyer belt and gathers materials a little, this the second vibratory sieve discharging opening is leaded up to the second apronbelt according to stock grading situation and is connected to the charging aperture of the second transfer feed bin, the 5th compound conveyer belt of separately leading up to is connected to charging place of the 3rd vibratory sieve, 3rd vibratory sieve feed opening is connected to by the 4th finished product material conveyer belt and gathers materials a little, each stage material is connected each stage material of conveyer belt according to stock grading situation respectively by finished product material conveyer belt and gathers materials a little by this 3rd vibratory sieve discharging opening, it is characterized in that:

It also comprises mud powder treating apparatus, and this mud powder treating apparatus is arranged between screw sand washer and completed belt, and it comprises the first conveyer belt, dewatering screen, the second conveyer belt; This first conveyer belt one end is arranged on below screw sand washer discharging opening, the other end is arranged on above the charging aperture of dewatering screen, and this second conveyer belt one end is arranged on below dewatering screen discharging opening, the other end is connected with completed belt; The discharging opening of this screw sand washer is also connected with feeding-distribution device, and the discharging opening of this feeding-distribution device is positioned at the top of the first conveyer belt;

It also comprises a sedimentation basin, and the sidewall upper import of this sedimentation basin is connected respectively to screw sand washer, dewatering screen, slurry treating machine, the mud waste water floss hole that gathers materials a little by pipeline; Arrange mud sieve below import in this sedimentation basin, this mud sieve is made up of screen frame and screen cloth, and screen frame internal fixtion buries LOAD CELLS underground, and this LOAD CELLS connects screen cloth by its hook; This LOAD CELLS is connected to PLC by A/D converter, and this PLC connects alarm appliance; Have discharge outlet at the bottom of the pond of this sedimentation basin, this discharge outlet connects the drainpipe with draining valve, and this draining valve is also connected to PLC; Also comprise a blending bin closed, this blending bin connects sedimentation basin by water pipe, and this blending bin also connects chemical tank by carrier pipe, and this water pipe is connected with water valve, this carrier pipe is connected with medicament valve; This blending bin is also connected to shower by efferent duct, and this shower to be distributed in above chip Machine-made Sand production system and to have some shower nozzles; This efferent duct is connected with delivery valve; This water valve, medicament valve and delivery valve are by PLC connection control.

Described chip Machine-made Sand production system, it is characterized in that: this feeding-distribution device comprises one point of hopper, it is duckbill discharging opening below this point of hopper, have in this point of hopper by motor-driven screw conveyor shaft, this point of hopper upper inlet place has a horizontal guide rail, this horizontal guide rail is arranged a magnetic movable slider, this magnetic movable slider connects a pipe support; This screw sand washer discharging opening connects one end of discharge nozzle, the other end of this discharge nozzle to be then connected on pipe support and outlet downwards.

Described chip Machine-made Sand production system, is characterized in that: this water pipe is positioned at water valve front end and is provided with filter.

Described chip Machine-made Sand production system, is characterized in that: the screen frame of this mud sieve is connected to sedimentation basin by a upset cylinder, and this upset cylinder is also connected to PLC.

Described chip Machine-made Sand production system, is characterized in that: this sedimentation basin upper end is provided with an openable Chi Gai.

The beneficial effects of the utility model are.

1, the utility model band mud waste water that can produce in comprehensive collection chip Machine-made Sand production system, and suppress carry out repetition in structure and recycle at airborne dust, reach the object of saving water resource.

2, the utility model carries out mud after can carrying out mud-water separation to mud waste water and quantitatively discharges, and be separated reach a certain amount of after can carry out sludge removal warning.

3, the utility model can avoid the airborne dust problem of chip Machine-made Sand production system and production site by spraying Fugitive dust inhibiting agent, is conducive to environmental protection.

4, the utility model accurately can be diluted with water Fugitive dust inhibiting agent, improves service efficiency, avoids waste.

5, the utility model by arranging dewatering screen between screw sand washer and completed belt, and the Machine-made Sand making clay powder content too high removes its mud powder muddy water, improves the quality of product.

6, be also provided with feeding-distribution device in the utility model, its effect is the service efficiency improving dewatering screen further.

Accompanying drawing explanation

Fig. 1 is the structural representation of mud powder treating apparatus in the utility model.

Fig. 2 is the structural representation of feeding-distribution device in the utility model.

Fig. 3 is the structural representation of comprehensive utilization system for waste water in the utility model.

Fig. 4 is the structural representation of mud sieve in the utility model.

Fig. 5 is control section electrical diagram of the present utility model.

Detailed description of the invention

The utility model discloses a kind of chip Machine-made Sand production system, it comprises feed bin, the discharging opening of this feed bin is positioned at the top of oscillating feeder, the discharge end of this oscillating feeder is positioned at above the thick broken charging aperture of primary mill, the thick broken discharging opening of this primary mill is connected to the charging aperture of the first transfer feed bin by the first coarse fodder conveyer belt, the discharging opening of this first transfer feed bin is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the second coarse fodder conveyer belt, first thin broken discharging opening of this first type fine disintegrating machine is connected to charging place of the first vibratory sieve by the first compound conveyer belt, first vibratory sieve discharging opening of this first vibratory sieve is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the first apronbelt, first vibratory sieve feed opening of this first vibratory sieve is connected to the charging aperture of the second transfer feed bin by the second compound conveyer belt, the discharging opening of the second transfer feed bin is connected to the charging aperture of the second type fine disintegrating machine by the 3rd compound conveyer belt, second thin broken discharging opening of the second type fine disintegrating machine is connected to charging place of the second vibratory sieve by the 4th compound conveyer belt, second vibratory sieve feed opening of this second vibratory sieve is connected to charging place of screw sand washer by the first finished product material conveyer belt, discharging place of this screw sand washer is connected to by the second finished product material conveyer belt gathers materials a little, the sewage mouth of this screw sand washer is connected to the charging aperture of sand slurry treating machine by water pipe, the discharging opening of this sand slurry treating machine is connected to by the 3rd finished product material conveyer belt and gathers materials a little, this the second vibratory sieve discharging opening is leaded up to the second apronbelt according to stock grading situation and is connected to the charging aperture of the second transfer feed bin, the 5th compound conveyer belt of separately leading up to is connected to charging place of the 3rd vibratory sieve, 3rd vibratory sieve feed opening is connected to by the 4th finished product material conveyer belt and gathers materials a little, each stage material is connected each stage material of conveyer belt according to stock grading situation respectively by finished product material conveyer belt and gathers materials a little by this 3rd vibratory sieve discharging opening.Said structure is consistent with prior art, therefore repeats no more.

Improvements of the present utility model are:

As Fig. 1,2, add the mud powder treating apparatus in chip Machine-made Sand production system.As shown in the figure: it is arranged between screw sand washer 41 and completed belt 42, it comprises the first conveyer belt 51, dewatering screen 52, second conveyer belt 53; This first conveyer belt 51 one end is arranged on below screw sand washer 41 discharging opening, the other end is arranged on above the charging aperture of dewatering screen 52, and this second conveyer belt 53 one end is arranged on below dewatering screen 52 discharging opening, the other end is connected with completed belt 42; The discharging opening of this screw sand washer 41 is also connected with feeding-distribution device 54, and the discharging opening of this feeding-distribution device 54 is positioned at the top of the first conveyer belt 51.The utility model by arranging dewatering screen 52 between screw sand washer 41 and completed belt 42, and the Machine-made Sand making clay powder content too high removes its mud powder muddy water, improves the quality of product.

As Fig. 2, be also provided with feeding-distribution device 54 in the utility model, its effect is the service efficiency improving dewatering screen 52 further.This feeding-distribution device 54 comprises one point of hopper 541, be duckbill discharging opening below this point of hopper 541, there is in this point of hopper 541 screw conveyor shaft 542 driven by motor 543, this point of hopper 541 upper inlet place has a horizontal guide rail 544, this horizontal guide rail 544 is arranged a magnetic movable slider 545, this magnetic movable slider 545 connects a pipe support 546; This screw sand washer 41 discharging opening connects one end of discharge nozzle 411, the other end of this discharge nozzle 411 to be then connected on pipe support 546 and outlet downwards.

During use, the other end of discharge nozzle 411 to be then connected on pipe support 546 and outlet downwards, discharge nozzle 411 is moved left and right by magnetic movable slider 545 and material is evenly inputted feeding-distribution device 54 on horizontal guide rail 544, material is evenly broken up by screw conveyor shaft 542 again that driven by motor 543 in point hopper 541 and the duckbill discharging opening continuous print pass through below point hopper 541 tiles and outputs to above the first conveyer belt 51, and be evenly transported to dewatering screen 52 by the first conveyer belt 51, which improves the service efficiency of dewatering screen 52.

As Fig. 3-5, it is that a set of water circulation comprehensive increased in the utility model chip Machine-made Sand production system utilizes device.As shown in the figure: it comprises a sedimentation basin 11, this sedimentation basin 11 sidewall upper import by pipeline 12 be connected respectively to screw sand washer 21, dewatering screen 52, slurry treating machine 22, gather materials a little 23 mud waste water floss hole; Arrange mud sieve 13 below import in this sedimentation basin 11, this mud sieve 13 is made up of screen frame 131 and screen cloth 132, and screen frame 131 internal fixtion buries LOAD CELLS 133 underground, and this LOAD CELLS 133 connects screen cloth 132 by its hook; This LOAD CELLS 133 is connected to PLC15 by A/D converter 14, and this PLC15 connects alarm appliance 16; Have discharge outlet at the bottom of the pond of this sedimentation basin 11, this discharge outlet connects the drainpipe 17 with draining valve 171, and this draining valve 171 is also connected to PLC15; Also comprise a blending bin 31 closed, this blending bin 31 connects sedimentation basin 11 by water pipe 32, and this blending bin 31 also connects chemical tank 34 by carrier pipe 33, and this water pipe 32 is connected with water valve 321, and this carrier pipe 33 is connected with medicament valve 331; This blending bin 31 is also connected to shower 36 by efferent duct 35, and this shower 36 to be distributed in above chip Machine-made Sand production system and to have some shower nozzles 37; This efferent duct 35 is connected with delivery valve 351; This water valve 321, medicament valve 331 and delivery valve 351 are by PLC15 connection control.

During use, from screw sand washer 21, slurry treating machine 22, gather materials a little 23 enter sedimentation basin 11 containing mud waste water, waste water has retained by mud sieve 13 mud environment being had to pollution, other moisture then down permeate through mud sieve 13 further and gather in the pond prodelta clay of sedimentation basin 11, if waste water reaches a certain amount of, control draining valve 171 opening water discharge by PLC15.This mud sieve 13 has LOAD CELLS 133, when the mud that mud sieve 13 retains reaches constant weight, then makes alarm appliance 16 carry out alarm operation by PLC15, turn off pipeline 12 simultaneously, so just can remove mud.

For depositing dilutable Fugitive dust inhibiting agent in chemical tank 34 in the utility model, the weight portion of this Fugitive dust inhibiting agent is composed as follows: colloid 3-7 part, flocculant 1-3 part, sodium carboxymethylcellulose 10-18 part, thiocarbamide 0.5-1.5 part, starch 40-50 part, sodium chloride 0.5-1.5 part, NaOH 28-36 part.The ratio of concrete dilution, can determine according to operating mode, therefore repeat no more.

During use, PLC15 controls water valve 321 respectively and medicament valve 331 is opened, and the Fugitive dust inhibiting agent of corresponding proportion and thinned water are mixed in blending bin 31.In order to make to mix, can arrange further and motor-driven stirring vane in blending bin 31.After reinforced and mixing, PLC15 controls delivery valve 351 further and opens, and enters shower 36 and be sprayed onto in production site further by shower nozzle 37 to make the Fugitive dust inhibiting agent after dilution.Consider that production site is comparatively large and transport path is comparatively far away, efferent duct 35 and shower 36 suitably can increase booster pump.

Water source in the utility model airborne dust suppression structure is the sedimentation basin for gathering screw sand washer, slurry treating machine, the mud waste water a little that gathers materials, and can recycle like this to waste water.

As a kind of preferred embodiment, this water pipe 32 is positioned at water valve 321 front end and is provided with filter 38, be used for the impurity in filtering water source by this fore filter.

In the utility model, the screen frame 131 of this mud sieve 13 is connected to sedimentation basin 11 by a upset cylinder 18, and this upset cylinder 18 is also connected to PLC15.When needs removing mud, it is that rotating shaft also overturns in vertical state that upset cylinder 18 makes mud sieve 13 to overturn cylinder 18, and like this, it is outer that the mud on mud sieve 13 just can pour out sludge-tank 11.

In the utility model, this sedimentation basin 11 upper end is provided with an openable pond lid 111, mainly uses under the weather of precipitation.

In sum, be only preferred embodiment of the present utility model, be not used for limiting practical range of the present utility model, namely all equivalences done according to the content of the utility model claim change and modify, and all should be technology category of the present utility model.

Claims (5)

1. a chip Machine-made Sand production system, it comprises feed bin, the discharging opening of this feed bin is positioned at the top of oscillating feeder, the discharge end of this oscillating feeder is positioned at above the thick broken charging aperture of primary mill, the thick broken discharging opening of this primary mill is connected to the charging aperture of the first transfer feed bin by the first coarse fodder conveyer belt, the discharging opening of this first transfer feed bin is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the second coarse fodder conveyer belt, first thin broken discharging opening of this first type fine disintegrating machine is connected to charging place of the first vibratory sieve by the first compound conveyer belt, first vibratory sieve discharging opening of this first vibratory sieve is connected to the first thin broken charging aperture of the first type fine disintegrating machine by the first apronbelt, first vibratory sieve feed opening of this first vibratory sieve is connected to the charging aperture of the second transfer feed bin by the second compound conveyer belt, the discharging opening of the second transfer feed bin is connected to the charging aperture of the second type fine disintegrating machine by the 3rd compound conveyer belt, second thin broken discharging opening of the second type fine disintegrating machine is connected to charging place of the second vibratory sieve by the 4th compound conveyer belt, second vibratory sieve feed opening of this second vibratory sieve is connected to charging place of screw sand washer by the first finished product material conveyer belt, discharging place of this screw sand washer is connected to by the second finished product material conveyer belt gathers materials a little, the sewage mouth of this screw sand washer is connected to the charging aperture of sand slurry treating machine by water pipe, the discharging opening of this sand slurry treating machine is connected to by the 3rd finished product material conveyer belt and gathers materials a little, this the second vibratory sieve discharging opening is leaded up to the second apronbelt according to stock grading situation and is connected to the charging aperture of the second transfer feed bin, the 5th compound conveyer belt of separately leading up to is connected to charging place of the 3rd vibratory sieve, 3rd vibratory sieve feed opening is connected to by the 4th finished product material conveyer belt and gathers materials a little, each stage material is connected each stage material of conveyer belt according to stock grading situation respectively by finished product material conveyer belt and gathers materials a little by this 3rd vibratory sieve discharging opening, it is characterized in that:

It also comprises mud powder treating apparatus, this mud powder treating apparatus is arranged between screw sand washer (41) and completed belt (42), and it comprises the first conveyer belt (51), dewatering screen (52), the second conveyer belt (53); This first conveyer belt (51) one end is arranged on below screw sand washer (41) discharging opening, the other end is arranged on above the charging aperture of dewatering screen (52), and this second conveyer belt (53) one end is arranged on below dewatering screen (52) discharging opening, the other end is connected with completed belt (42); The discharging opening of this screw sand washer (41) is also connected with feeding-distribution device (54), and the discharging opening of this feeding-distribution device (54) is positioned at the top of the first conveyer belt (51);

It also comprises a sedimentation basin (11), and the sidewall upper import of this sedimentation basin (11) is connected respectively to the mud waste water floss hole of screw sand washer (21), dewatering screen (52), slurry treating machine (22), the point (23) that gathers materials by pipeline (12); Mud sieve (13) is set below the import in this sedimentation basin (11), this mud sieve (13) is made up of screen frame (131) and screen cloth (132), screen frame (131) internal fixtion buries LOAD CELLS (133) underground, and this LOAD CELLS (133) connects screen cloth (132) by its hook; This LOAD CELLS (133) is connected to PLC (15) by A/D converter (14), and this PLC (15) connects alarm appliance (16); Have discharge outlet at the bottom of the pond of this sedimentation basin (11), this discharge outlet connects the drainpipe (17) with draining valve (171), and this draining valve (171) is also connected to PLC (15); Also comprise a blending bin (31) closed, this blending bin (31) connects sedimentation basin (11) by water pipe (32), this blending bin (31) also connects chemical tank (34) by carrier pipe (33), this water pipe (32) is connected with water valve (321), this carrier pipe (33) is connected with medicament valve (331); This blending bin (31) is also connected to shower (36) by efferent duct (35), and this shower (36) to be distributed in above chip Machine-made Sand production system and to have some shower nozzles (37); This efferent duct (35) is connected with delivery valve (351); This water valve (321), medicament valve (331) and delivery valve (351) are by PLC (15) connection control.

2. chip Machine-made Sand production system according to claim 1, it is characterized in that: this feeding-distribution device (54) comprises one point of hopper (541), this point of hopper (541) below is duckbill discharging opening, there is in this point of hopper (541) screw conveyor shaft (542) driven by motor (543), this point of hopper (541) upper inlet place has a horizontal guide rail (544), this horizontal guide rail (544) is arranged a magnetic movable slider (545), this magnetic movable slider (545) connects a pipe support (546); This screw sand washer (41) discharging opening connects one end of discharge nozzle (411), and the other end of this discharge nozzle (411) is then connected to pipe support (546) and goes up and export downwards.

3. chip Machine-made Sand production system according to claim 1, is characterized in that: this water pipe (32) is positioned at water valve (321) front end and is provided with filter (38).

4. the chip Machine-made Sand production system according to claim 1 or 2 or 3, it is characterized in that: the screen frame (131) of this mud sieve (13) is connected to sedimentation basin (11) by upset cylinder (18), and this upset cylinder (18) is also connected to PLC (15).

5. the chip Machine-made Sand production system according to claim 1 or 2 or 3, is characterized in that: this sedimentation basin (11) upper end is provided with an openable Chi Gai (111).