Stone material cuts sewage recycling processing system
Technical field
The utility model is related to technical field of sewage treatment equipment, more particularly to a kind of cutting sewage recycling processing of stone material
System.
Background technology
The saw dirt water process in stone industries garden is always the environmentally friendly focus of attention problem of each manufacturing enterprise and government, market
On also engendered set of stone material cutting integrated wastewater processing equipment.But due to existing comprehensive treatment equipment cost compared with
Greatly, and running expense is higher, some enterprises do not have this comprehensive sewage treating device, but by a variety of methods to saw mud
Sewage is precipitated, and waste water and saw silt can not be recycled, and environmental pollution is larger;And the sand dealt, it is
Best purification water resource in river course.In these years many river courses cause very big harm to environment all without sand.
River sand is all washed in a pan away.What only remaining some mud and stone were in neat formation destroys our environment, and stone industries garden is annual
Hundreds of ten thousand side's sand and millions of tons of reduced iron powders can be produced, can be 1 year for whole industry park if can be recycled
Create several hundred million profit.If administering river course with these sands, our underground water also will be limpid quickly.
Therefore, the investment cost and operating cost of equipment how are reduced, while improving the resource that stone material cuts sewage
Change processing is the most important thing.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of reasonable in design, equipment investment expense and operating
Expense is low, while the stone material cutting sewage recycling processing that iron powder in sewage, coarse sand and fine sand classification are recycled can be realized
System.
In order to solve the above technical problems, the technical solution of the utility model is:Stone material cuts sewage recycling processing system,
Including:
Sewage ore-dressing plant, including cloth water resistance ore deposit device, the rotated down of the cloth water resistance ore deposit device are provided with absorption dirt
The magnetic picking belt of miberal powder in water, the magnetic picking belt tilts down turn of setting and the magnetic picking belt along water (flow) direction
Dynamic direction is opposite with water (flow) direction;It is provided with below the magnetic picking belt and scrapes ore deposit device and miberal powder collecting bin;
Coarse sand precipitates discharging device, including is arranged at the coarse sand sedimentation basin below the sewage ore-dressing plant, the coarse sand
The bottom of sedimentation basin is provided with exports the spiral coarse sand conveying device to outside coarse sand sedimentation basin by precipitation coarse sand;The coarse sand sinks
Resistance sand cutoff board is provided with the pond of shallow lake, fine sand sewage is formed between the resistance sand cutoff board and the pool wall of the coarse sand sedimentation basin and is gone out
Fine sand sewage delivery device is provided with hydroecium, the fine sand sewage water-supplying chamber;
Fine deposition shakes out device, including is arranged at the fine deposition in the conveying exit of the fine sand sewage delivery device
Pond, fine deposition pond internal upper part is provided with fine sand sewage water-distributing device and fine deposition baffle means, the fine deposition
Pond inner bottom part is provided with exports the spiral fine sand conveying device to outside fine deposition pond by precipitation fine sand.
As preferred technical scheme, the cloth water resistance ore deposit device is respectively arranged at the magnetic picking belt including two
Between the side shield of edge, two side shields cloth water resistance ore deposit is arranged at intervals with along the upper surface of the magnetic picking belt
Plate, sand gap was formed between the bottom face of the cloth water resistance ore deposit plate and the upper zone face of the magnetic picking belt.
As preferred technical scheme, the spiral coarse sand conveying device includes the coarse sand conveying housing being obliquely installed,
One end of the coarse sand conveying housing is stretched into the coarse sand sedimentation basin and provided with precipitation coarse sand import, and the coarse sand conveys housing
The other end stretch out the coarse sand sedimentation basin and provided with the outlet of precipitation coarse sand;Rotate defeated provided with coarse sand in the coarse sand conveying housing
Auger is sent, the coarse sand conveying auger is connected with coarse sand conveying auger motor.
As preferred technical scheme, the fine sand sewage delivery device includes what is connected with the fine sand sewage water-supplying chamber
Fine sand sewage transport pump is provided with fine sand water storage tank for sewage water, the fine sand water storage tank for sewage water, the fine sand sewage transport pump will
At fine sand sewage transport to the fine sand sewage water-distributing device.
As preferred technical scheme, the fine sand sewage water-distributing device includes cloth tank, the bottom edge of the cloth tank
Circumferentially offer some water distributing pores.
As preferred technical scheme, the fine deposition baffle means include the deflection plate that some height are arranged alternately.
As preferred technical scheme, the spiral fine sand conveying device includes horizontally disposed fine sand and conveys housing,
One end of the fine sand conveying housing is stretched into the fine deposition pond and provided with precipitation fine sand import, and the fine sand conveys housing
The other end stretch out the fine deposition pond and provided with the precipitation fine sand outlet;The precipitation fine sand outlet, which is provided with, to shake out out
Opening device;Rotated in the fine sand conveying housing and be provided with fine sand conveying auger, the fine sand conveying auger is connected with fine sand conveying
Auger motor.
As preferred technical scheme, it is described shake out opening device include be used for close it is described precipitation fine sand outlet and with institute
The precipitation fine sand outlet cap that fine sand conveys housing hinge is stated, the precipitation fine sand outlet cap is connected with driving leading screw, the driving
Leading screw is connected with leading screw motor.
As the improvement to above-mentioned technical proposal, fine deposition pond top sinks provided with clean water overflow mouthful, the fine sand
Shallow lake pond upper outside, which is located at the clean water overflow mouthful, is provided with fresh watertank;The disconnected section in the bottom in the fine deposition pond is in
Vibration motor is provided with the bottom outside inclined plane in triangle and the fine deposition pond.
As the improvement to above-mentioned technical proposal, circulation and stress pond, the clear water storage are provided with outside the coarse sand sedimentation basin
Clear water in water tank is back to described be recycled back in receives pond.
By adopting the above-described technical solution, the utility model has the advantages that:
(1) it can realize that miberal powder in sewage (iron powder), coarse sand and fine sand classification are recycled, both avoid environmental pollution,
It is beneficial to improve the recycling treatment that stone material cuts sewage again, system structure design is simple, convenient for installation and maintenance, equipment operation expense
It is small with investment cost.
(2) handling process efficiently, stably, fault rate it is low;The recycling of stone material cutting wastewater can be realized, is beneficial to
Energy-saving and emission-reduction.
Brief description of the drawings
The following drawings is only intended to, in doing the utility model schematic illustration and explanation, not limit model of the present utility model
Enclose.Wherein:
Fig. 1 is the main structure diagram that coarse sand precipitates discharging device;
Fig. 2 is the cross-sectional view that coarse sand precipitates discharging device;
Fig. 3 is the structural representation of sewage ore-dressing plant;
Fig. 4 is that fine deposition shakes out the main structure diagram of device;
Fig. 5 is that fine deposition shakes out the backsight structural representation of device;
Fig. 6 is that fine deposition shakes out the side structure schematic view of device;
Fig. 7 is that fine deposition shakes out the part section structural representation of device;
Fig. 8 is state reference schematic diagram when shaking out opening device unlatching;
Fig. 9 is the system structure diagram of the utility model embodiment.
In figure:
100- sewage ore-dressing plants;110- cloth water resistance ore deposit devices;111- side shields;112- cloth water resistance ore deposit plates;120- magnetic
Picking belt;130- scrapes ore deposit device;140- miberal powder collecting bins;150- iron powders;
200- coarse sands precipitate discharging device;210- coarse sand sedimentation basins;220- coarse sands;The spiral coarse sand conveying devices of 230-;
231- coarse sands convey housing;232- precipitates coarse sand import;The outlet of 233- precipitation coarse sands;234- coarse sand conveying augers;235- coarse sands
Conveying auger motor;240- hinders sand cutoff board;250- fine sand sewage water-supplying chamber;260- fine sand sewage delivery devices;261-
Fine sand water storage tank for sewage water;262- fine sand sewage transport pumps;270- is recycled back to receives pond;
300- fine depositions shake out device;310- fine depositions pond;311- clean water overflows mouthful;320- fine sand sewage water distribution is filled
Put;321- cloth tanks;322- water distributing pores;330- fine deposition baffle means;331- deflection plates;340- fine sands;350- is spiral
Fine sand conveying device;351- fine sands convey housing;352- precipitates fine sand import;The outlet of 353- precipitation fine sands;354- precipitates fine sand
Outlet cap;355- drives leading screw;356- leading screw motors;357- fine sand conveying augers;358- fine sands conveying auger driving electricity
Machine;360- vibration motors;370- fresh watertanks.
Embodiment
With reference to the accompanying drawings and examples, the utility model is expanded on further.In the following detailed description, only by saying
Bright mode describes some one exemplary embodiments of the present utility model.Undoubtedly, one of ordinary skill in the art can be with
Recognize, can be with a variety of modes to described in the case of without departing from spirit and scope of the present utility model
Embodiment is modified.Therefore, accompanying drawing and description are inherently illustrative, rather than for limiting the protection of claim
Scope.
As shown in Figures 1 to 9, stone material cutting sewage recycling processing system, including:
Sewage ore-dressing plant 100, including cloth water resistance ore deposit device 110, the rotated down of the cloth water resistance ore deposit device 110 are set
There is a magnetic picking belt 120 (Magnetic Conveyor Belt can be used) of miberal powder in absorption effluent, the magnetic picking belt 120 is along current side
It is opposite with water (flow) direction to the rotation direction for tilting down setting and the magnetic picking belt 120;The magnetic picking belt 120
Lower section, which is provided with, scrapes ore deposit device 130 and miberal powder collecting bin 140;Scraping ore deposit device 130 can realize that stone material is cut using structures such as scraper plates
Sewage is cut after water distribution uniformity, barrier, the iron powder 150 in sewage is adsorbed by magnetic picking belt 120, with magnetic picking belt
120 backwards rotations are scraped ore deposit device 130 and scraped in miberal powder collecting bin 140, so as to realize the recycling of iron powder 150 in sewage;
Coarse sand precipitates discharging device 200, including is arranged at the coarse sand sedimentation basin 210 of the lower section of the sewage ore-dressing plant 100,
It is defeated that the bottom of the coarse sand sedimentation basin 210 is provided with the spiral coarse sand for exporting precipitation coarse sand 220 to outside coarse sand sedimentation basin 210
Send device 230;Resistance sand cutoff board 240, the resistance sand cutoff board 240 and the coarse sand are provided with the coarse sand sedimentation basin 210
Formed between the pool wall of sedimentation basin 210 and fine sand dirt is provided with fine sand sewage water-supplying chamber 250, the fine sand sewage water-supplying chamber 250
Water conveying device 260;Stone material cuts sewage after ore dressing, and the coarse sand in sewage is precipitated into the bottom of coarse sand sedimentation basin 210, in resistance
Under the further iris action of sand cutoff board 240, it is delivered to outside pond and recycles through spiral coarse sand conveying device 230;
Fine deposition shakes out device 300, including be arranged at the fine sand sewage delivery device 260 conveying exit it is thin
Sand sedimentation basin 310, the internal upper part of fine deposition pond 310 is provided with fine sand sewage water-distributing device 320 and fine deposition baffling dress
330 are put, the inner bottom part of fine deposition pond 310 is provided with exports spiral to outside fine deposition pond 310 by precipitation fine sand 340
Fine sand conveying device 350;Stone material cuts sewage after ore dressing, coarse sand precipitation, and the sewage containing fine sand is precipitated into carefully through water distribution, baffling
The bottom of sand sedimentation basin 310, is delivered to outside pond through spiral fine sand conveying device 350 and recycles, so far complete iron in sewage
The classification of powder, coarse sand and fine sand is recycled.
With reference to Fig. 3, in the present embodiment, the cloth water resistance ore deposit device 110 is respectively arranged at the magnetic ore dressing including two
Set between side shield 111 with 120 edge, two side shields 111 along the upper surface interval of the magnetic picking belt
Cloth water resistance ore deposit plate 112 is equipped with, the cloth water resistance ore deposit plate 112 is obliquely installed along water (flow) direction, the bottom of the cloth water resistance ore deposit plate 112
Sand gap was formed between the upper zone face of face and the magnetic picking belt 120, gap sets reasonable, had both been easy to magnetic picking belt
Iron powder in 120 abundant absorption effluents, avoids the iron powder during rotation of magnetic picking belt 120 on zone face from being rubbed with cloth water resistance ore deposit plate again
Wipe and bring into coarse sand sedimentation basin.
With reference to Fig. 2, in the present embodiment, the spiral coarse sand conveying device 230 includes the coarse sand conveying shell being obliquely installed
Body 231, one end of the coarse sand conveying housing 231 is stretched into the coarse sand sedimentation basin 210 and provided with precipitation coarse sand import 232,
The other end of the coarse sand conveying housing 231 stretches out the coarse sand sedimentation basin 210 and provided with precipitation coarse sand outlet 233;It is described thick
Rotated in sand conveying housing 231 and be provided with coarse sand conveying auger 234, the coarse sand conveying auger 234 is connected with coarse sand conveying auger
Motor 235, device structure is simple, and easy to maintenance, operating cost is low.
With reference to Fig. 1 and Fig. 9, in the present embodiment, the fine sand sewage delivery device 260 includes and the fine sand sewage water outlet
Fine sand sewage transport pump 262 is provided with the fine sand water storage tank for sewage water 261 that room 250 is connected, the fine sand water storage tank for sewage water 261,
The fine sand sewage transport pump 262 is by fine sand sewage transport to the fine sand sewage water-distributing device 320.The fine sand sewage cloth
Water installations 320 include cloth tank 321, and the bottom of the cloth tank 321 circumferentially offers some water distributing pores 322.The fine sand
Precipitation baffle means 330 include the deflection plate 331 that some height are arranged alternately, the fine sand being beneficial to by water distribution, baffling in sewage
Rapid precipitation, structure design advantages of simple, beneficial to raising wastewater treatment efficiency.
With reference to Fig. 4 to Fig. 8, the spiral fine sand conveying device 350 includes horizontally disposed fine sand and conveys housing 351,
One end of the fine sand conveying housing 351 is stretched into the fine deposition pond 310 and provided with precipitation fine sand import 352, described thin
The other end of sand conveying housing 351 stretches out the fine deposition pond 310 and provided with the precipitation fine sand outlet 353;The precipitation
Fine sand outlet 353 is provided with the opening device that shakes out;The opening device that shakes out includes being used to close the precipitation fine sand outlet 353
And the precipitation fine sand outlet cap 354 that housing 351 is hinged is conveyed with the fine sand, the precipitation fine sand outlet cap 354 is connected with drive
Dynamic leading screw 355, the driving leading screw 355 is connected with leading screw motor 356;Rotate and be provided with the fine sand conveying housing 351
Fine sand conveying auger 357, the fine sand conveying auger 357 is connected with fine sand conveying auger motor 358.In the present embodiment,
The disconnected section in the bottom in the fine deposition pond 310 is triangular in shape, can be made using stainless steel or highstrenghtpiston and be processed into pond,
Vibration motor 360 is respectively arranged with the bottom outside inclined plane in the fine deposition pond 310, is quickly sunk beneficial to sewage medium-fine sand
Drop to pond body bottom.
Utilized for the ease of the effluent cycle after processing, the top of fine deposition pond 310 is provided with clean water overflow mouthful 311,
The upper outside of fine deposition pond 310, which is located at the clean water overflow mouthful 311, is provided with fresh watertank 370;The coarse sand
The clear water being provided with outside sedimentation basin 210 in circulation and stress pond 270, the fresh watertank 370 is recycled back to receives pond described in being back to
In 270, it may then return to and recycled at pit saw processing.
In summary, the system structure design is simple, and convenient for installation and maintenance, equipment operation expense and investment cost are small, energy
Enough realize that the classification of miberal powder in sewage (iron powder), coarse sand and fine sand is recycled, both avoid environmental pollution, be beneficial to improve stone again
Material cuts the recycling treatment of sewage.
The schematical embodiment of the utility model is the foregoing is only, model of the present utility model is not limited to
Enclose.Any those skilled in the art, the made equivalent change on the premise of design of the present utility model and principle is not departed from
Change and change, the scope of the utility model protection all should be belonged to.