CN105729678A - Recycling and reusing washing and purifying system for film type waste plastics - Google Patents

Recycling and reusing washing and purifying system for film type waste plastics Download PDF

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Publication number
CN105729678A
CN105729678A CN201610201993.8A CN201610201993A CN105729678A CN 105729678 A CN105729678 A CN 105729678A CN 201610201993 A CN201610201993 A CN 201610201993A CN 105729678 A CN105729678 A CN 105729678A
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CN
China
Prior art keywords
washing
screw
charging aperture
discharging opening
spiral
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Pending
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CN201610201993.8A
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Chinese (zh)
Inventor
曹堪洲
范刚华
徐涛
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JIANGSU JINWO MACHINERY CO Ltd
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JIANGSU JINWO MACHINERY CO Ltd
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Priority to CN201610201993.8A priority Critical patent/CN105729678A/en
Publication of CN105729678A publication Critical patent/CN105729678A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29BPREPARATION OR PRETREATMENT OF THE MATERIAL TO BE SHAPED; MAKING GRANULES OR PREFORMS; RECOVERY OF PLASTICS OR OTHER CONSTITUENTS OF WASTE MATERIAL CONTAINING PLASTICS
    • B29B17/00Recovery of plastics or other constituents of waste material containing plastics
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29BPREPARATION OR PRETREATMENT OF THE MATERIAL TO BE SHAPED; MAKING GRANULES OR PREFORMS; RECOVERY OF PLASTICS OR OTHER CONSTITUENTS OF WASTE MATERIAL CONTAINING PLASTICS
    • B29B17/00Recovery of plastics or other constituents of waste material containing plastics
    • B29B2017/001Pretreating the materials before recovery
    • B29B2017/0015Washing, rinsing
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

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  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Separation, Recovery Or Treatment Of Waste Materials Containing Plastics (AREA)

Abstract

The invention discloses a recycling and reusing washing and purifying system and a washing and purifying method for film type waste plastics. A shredding machine is adopted; after waste materials are cut by using a mechanical shear, dregs are washed preliminarily and heavy impurities are removed; then in a multi-drum type washing separation device, washing is carried out through multiple stages of drums; besides, the ascending flow velocity of washing water injected from all lower water inlets is controlled; light impurities mixed in the materials are removed effectively or different materials with proportion differences are washed and separated; furthermore, a twin-screw impregnator is used for cutting and rubbing obtained plastic sheets uniformly into small pieces and granular particles; and the pieces and the particles are dried and stored for use. The method and the system can achieve comprehensive utilization of solid wastes of a paper mill, recycling and reusing of waste paper fiber and waste plastics and automatic and large-scale industrial production; the comprehensive utilization rate can reach more than 90%; the water consumption can be reduced by 50-80% through recycling of the washing water; the environmental pollution is reduced; the continuity in production is guaranteed; the production space is saved; and remarkable significance is achieved.

Description

Thin film class technics of reclaim of plastic waste recycling washing, purifying system
Technical field
The present invention relates to a kind of technics of reclaim of plastic waste washing, purifying system and washing and purifying method, be specifically related to a kind of thin film class technics of reclaim of plastic waste recycling washing, purifying system and washing and purifying method.
Background technology
The development of plastics industry, brings big advantages to the mankind, but stays infinite future trouble i.e. " white pollution ".Since there being plastic, being just inevitably generated old plastics, and elapsed over time, more new raw materials come into operation so that waste or used plastics is in significantly rising.Due to waste or used plastics not easily degradation with aging at normal temperatures, thus forming the white pollution that grows with each passing day, make ecological environment subject to severe risks of damage.
China's plastic yield, consumption all occupy the whole world first, per capita year consumer plastic about three kilograms (developed country's year per capita consumes eight kilograms), and white pollution degree occupies the whole world the 4th.Well sold and in short supply with the regenerated granule market that discarded plastic is Raw material processing, it may be achieved the benign cycle of the utilization of resources, of far-reaching significance.The thin film class waste or used plastics such as agricultural film, convenient bag, bag of cement, food pack, woven bag, are all the raw material sources of regenerated granule.In particular with the waste paper paper mill as raw material, waste paper per ton can produce the solid gurry of 5~8%, wherein based on polypropylene, polyethylene film class waste or used plastics, accounting 80~90%, by the paper mill producing 1000000 tons of lateral moulds per year, produce solid gurry 5~80,000 tons year, containing waste or used plastics 4~70,000 tons, recycling can produce huge economic benefit, reduces environmental pollution simultaneously.
Owing to thin film class waste or used plastics unit weight is low, volume is big, complicated component, particularly broken difficult with washing, purifying, substantial amounts of water resource need to be expended, existing reclaiming field mainly produces with casual household, small workshop mode, it is simply equipped, small scale, very easily causes secondary environmental pollution.
Summary of the invention
Goal of the invention: in order to overcome the deficiencies in the prior art, the present invention provides a kind of thin film class technics of reclaim of plastic waste recycling washing, purifying system, and then provides a kind of thin film class technics of reclaim of plastic waste recycling washing and purifying method.
Technical scheme: for solving above-mentioned technical problem, thin film class technics of reclaim of plastic waste provided by the invention recycling washing, purifying system, by material operation traffic direction, including the first conveying equipment, shredder, the second conveying equipment, tumbler-type washing machine, many rotary drums washing separation device, tablet pump, inclined helix dehydrator, buffer bin, the 3rd conveying worm, double-screw impregnator, drying machine, the 4th conveying equipment and storage bin;nullThe discharging opening of described first conveying equipment just charging aperture to shredder,The discharging opening of described shredder just charging aperture to the second conveying equipment,The discharging opening of described second conveying equipment just charging aperture to tumbler-type washing machine,The discharging opening of described tumbler-type washing machine connects with the charging aperture in many rotary drums washing separation device,The discharging opening of described many rotary drums washing separation device is connected with container,Described tablet pump is located between this container and inclined helix dehydrator,The input of tablet pump is arranged in the cavity volume of this container,Tablet delivery side of pump connects with the charging aperture of inclined helix dehydrator,The discharging opening of described inclined helix dehydrator connects with the charging aperture of buffer bin,The discharging opening of described buffer bin and the charging aperture connection of the 3rd conveying worm,The discharging opening of described 3rd conveying worm connects with the charging aperture of double-screw impregnator,The discharging opening of described double-screw impregnator connects with the charging aperture of drying machine,The discharging opening of described drying machine and the charging aperture connection of the 4th conveying equipment,The discharging opening of described 4th conveying equipment connects with the charging aperture of storage bin.
Preferably, described first conveying equipment and the second conveying equipment and the 4th conveying equipment are chain scraper conveyor or belt conveyor.
Preferably, tumbler-type washing machine therein includes body, rotary drum, rotary drum driving device;Described body one upper lateral part is provided with charging aperture, and its opposite side is provided with discharging opening, is provided with washing cavities in body, and described rotary drum is located in washing cavities and is driven by rotary drum driving device and rotates;Organism bottom shape below described rotary drum position is inversed taper platform shape;One end of the contiguous charging aperture of described body is provided with water inlet, and the body being connected with connecting with lower frustum mouth of the lower frustum mouth of the inversed taper platform shape of described organism bottom, tube wall is provided with lower water inlet;Described body be connected with sediment pipe, the upper end of described sediment pipe is provided with blow valve, and lower end is provided with lower blow valve.The tumbler-type washing machine adopting this structure can pass through the water inlet of lower water inlet and form up current, the material effectively reducing proportion lighter is precipitated downwards by the thrust of up current, the heavy seeds such as metal object, the stone etc. that only make proportion heavier sink to sediment pipe, can effectively remove the heavy seeds in material, and greatly reduce the loss that material easily causes in the process of washing separation impurity.
Preferably, many rotary drums washing separation device therein includes body, and top, described body one end is provided with charging aperture, its other end is provided with discharging opening, it is provided with washing cavities in body, in described washing cavities, is provided with rotary drum, between charging aperture and discharging opening, set gradually two or more rotary drum;Described organism bottom shape is multiple inversed taper platform shape arranged side by side, the position of inversed taper platform shape and rotary drum position one_to_one corresponding, and is positioned at the lower section of corresponding rotary drum position;One end of the contiguous charging aperture of described body is provided with water inlet, and the lower section of the lower frustum mouth of described organism bottom each inversed taper platform shape is all correspondingly provided with the body connected with lower frustum mouth, and each tube wall is all correspondingly provided with lower water inlet;The lower section of each body is all correspondingly provided with jetsam pipe, and the upper end of each jetsam pipe is all correspondingly provided with loading and unloading material valve, and lower end is all correspondingly provided with lower discharge valve.As this preferred version it is preferred that: each lower water inlet of described many rotary drums washing separation device is all correspondingly provided with current velocity controller, all being correspondingly provided with current meter, described loading and unloading material valve and corresponding lower discharge valve in described each body is the automatic valve that interval alternately opens and closes.This many rotary drums washing separation device can be injected simultaneously into washings by upper and lower water inlet, with the method alternately opening and closing upper and lower discharge valve, the proportion utilizing different material in mixed material is different, control the up flow velocity of the washings that each lower water inlet injects, effectively wash and isolate the different material that there is difference of specific gravity.Can pass through to configure the up flow velocity of the washings that each the lower water inlet successively decreased successively injects further, it is thus achieved that the laddering separation of mixed material and incrementally deposition effect.Simultaneously can pass through current velocity controller, current meter, more accurately control flow rate of water flow, by the automatic buildup discharging of automatic valve, the effective guarantee seriality of production.
Preferably, described inclined helix dehydrator includes spiral case, it is provided with in spiral case and is driven, by driving device for slow-run, the spiral rotated, the spiral of described spiral case and inside thereof is obliquely installed from low to high along material conveying direction, the oblique lower end of respectively shell, the two ends of described spiral case and the oblique upper end of shell, described shell is positioned at the top of the oblique lower end of shell and is provided with charging aperture, the bottom being positioned at the oblique lower end of shell is provided with discharge outlet, the bottom being positioned at the oblique upper end of shell is provided with discharging opening, and the lower parallel being positioned at spiral in described spiral case is provided with sieve plate.
Buffer bin therein can be selected for popular response storehouse, this area, as a further improvement on the present invention, it is preferable that uniformly blanking type buffer bin.Described uniform blanking type buffer bin, including warehouse and uniform doffer, warehouse top is provided with charging aperture, is provided with blanking port bottom warehouse;Described uniform doffer, including housing, is provided with load displacing screw in housing, housing one side lower part is provided with the discharging opening of reaction warehouse, and the charging aperture of this uniform doffer is the blanking port bottom reaction warehouse warehouse;Described load displacing screw includes helical axis and the helical blade being arranged on helical axis, and described helical axis is positioned at the position above discharging opening and is fixed with uniform blanking ring, and described uniform blanking ring is consistent with the central axis of described helical axis;Described uniform blanking ring includes body and multi start thread blade, described multi start thread blade is fixedly connected on the outer wall of body, described body retainer ring is around being socketed on helical axis, and the rotation direction of described multi start thread blade is consistent with the helical blade rotation direction on described load displacing screw.As a further improvement on the present invention, the warehouse of this uniform blanking type reaction warehouse is trapezoidal side storehouse;Described uniform doffer includes the load displacing screw of more than two, and every load displacing screw all includes helical axis and helical blade, and described helical blade is the variable-pitch auger blade changed from small to big gradually along conveying direction pitch;The helical axis of every load displacing screw is positioned at the position above discharging opening and is all fixed with uniform blanking ring, the corresponding helical axis central axis of each uniform blanking ring is consistent, and the helical blade rotation direction on load displacing screw that multi start thread blade on each uniform blanking ring is corresponding is consistent;The load displacing screw of described more than two independently drives, and the helical axis of adjacent load displacing screw reversely rotates.This uniform blanking type reaction warehouse can realize uniform blanking by uniform blanking ring, being conducive to downstream pulping equipment steady production, fluctuation of load amplitude is reduced within 10~15% by original more than one times, reduces equipment failure rate, improve equipment dependability, stabilize stock quality.On this basis, the load displacing screw reverse rotation of more than two can be passed through further, in making the material two reverse rotations on vicinity load displacing screw especially anti-under the common promotion of the helical blade rotated, more balanced passage forward, then breaing up through the stirring of uniform blanking ring, continuous uniform must fall to upstream device from discharging opening.On load displacing screw, the varying pitch of helical blade can be designed so that material is gradually transitions loose condition (of surface) along helical axis conveying direction by full state in course of conveying, improves efficiency, reduces spiral operating load and abrasion.
Preferably, double-screw impregnator in native system, application number as submitted to for 11st JIUYUE in 2012 is 201210332112.8, publication number be CN102864669A " a kind of double-screw impregnator " by name Chinese patent application described in, its full content is incorporated herein by reference.Can also the grant number as JIUYUE in 2012 are submitted on the 11st be ZL201220458032.2 " a kind of double-screw impregnator " by name Chinese patent application described in, its full content is incorporated herein by reference.Above-mentioned double-screw impregnator includes frame and the motor being arranged in frame, speed-changing gear box, movable crown gear coupling, machine barrel and two screw rods, described motor is connected by speed-changing gear box and movable crown gear coupling and two screw drive, described two screw rods are parallel to each other and are rotatably arranged in described machine barrel, described machine barrel one end is provided with charging aperture, and the other end is provided with discharging opening;Described screw rod is arranged with the first conveyor screw set, the first extrusion spiral set, the second conveyor screw set, the second extrusion spiral set, the 3rd conveyor screw set and the 3rd extrusion spiral set successively along conveying direction, the hand of spiral of described first, second, third conveyor screw set is contrary with the hand of spiral of described first, second, third extrusion spiral set, and the pitch of described first conveyor screw set is gradually reduced along conveying direction;Described machine barrel bottom is provided with waste liquid hole;The spiral shell rib of described first, second, third extrusion spiral set has slot;Described machine barrel is upper and lower dissection type machine barrel, including the symmetrical upper half machine barrel being fixedly installed in frame connected and the able to turn on or off lower half machine barrel being connected in frame.Preferably, described machine barrel top is provided with and adds hand-hole with the 3rd conveyor screw liquid corresponding to set.
Drying machine therein can be selected for this area conventional dryers, it is preferable that mesh-belt drier.Described mesh-belt drier includes cabinet and multi-level dryer mesh belt device;The top of described cabinet is provided with charging aperture, and bottom is provided with discharging opening;Described multi-level dryer mesh belt device includes the conveyer belt of multilamellar horizontally set, and described in the vertical direction, multilamellar conveyer belt head and the tail section is crisscross arranged, and along material conveying direction, the head end of next layer of conveyer belt stretches out the tail end of last layer conveyer belt;Described charging aperture is positioned at above the head end of top conveyer belt, and described discharging opening is positioned at below the tail end of lowermost layer conveyer belt;Described cabinet is provided around some air-heaters and some wet-emitting blowers, described air-heater is connected with the air inlet arranged on multi-level dryer mesh belt device, air outlet by air channel and guide duct, and described wet-emitting blower is connected with the moisture exhausting port arranged on multi-level dryer mesh belt device by dehumidifying pipelines.
For solving above-mentioned technical problem, a kind of thin film class technics of reclaim of plastic waste recycling washing and purifying method provided by the invention, it uses above-mentioned thin film class technics of reclaim of plastic waste recycling washing, purifying system, and the method includes:
1. material papering section:
Material is delivered to after shredder is broken into tablet by the first conveying equipment;Then by the second conveying equipment be delivered to tumbler-type washing machine add washings adjust concentration be 3~5% carry out washing, sediment, remove the heavy seeds being mingled in material;
2. centrifugal station is washed:
Water-containing materials after the washing export material papering section is delivered to many rotary drums washing separation device, utilize the difference of specific gravity of the moisture scraps of paper, plastics tablet and the water that mix in thin film class waste or used plastics, the moisture scraps of paper and plastics tablet are isolated in washing, the moisture scraps of paper go out from each jetsam bank of tubes, plastics tablet is pulled over and is moved forward to discharging opening, then it is pumped to inclined helix dehydrator by tablet pump remove residual impurity further and carry out dehydration, residual impurity and water and discharged by the screen cloth mesh of inclined helix dehydrator;
3. machinery rubs neat and well spaced section:
Plastics tablet after washing the dehydration that centrifugal station exports again is delivered to buffer bin;The material of the load displacing screw metering output of buffered feed bin is delivered to double-screw impregnator by the 3rd conveying worm, is sheared and rubs into small pieces and group's granular solid matter, simultaneously the free water in extruded material in double-screw impregnator;
4. dry storage section:
The plastics tablet that machinery is rubbed neat and well spaced section of output is delivered to drying machine hot air drying, is then delivered to storage bin storage by the 4th conveying equipment.
Preferably, described 2. washing centrifugal station is: the rear film class waste or used plastics of washing mixing the moisture scraps of paper, plastics tablet and water that 1. material papering section exports is delivered to many rotary drums washing separation device, from each water inlet injection washings while injecting washings from the upper water inlet of many rotary drums washing separation device, up flow velocity of the washings that water inlet injects from each, it is set to the difference less than the gravity of the scraps of paper in washings Yu buoyancy of the impulse force so that current up in each body, the difference of the gravity being simultaneously greater than in washings plastics tablet and buoyancy;Wash by homodromal multiple rotary drums, separate, break up material, alternately open and close each loading and unloading material valve and the moisture scraps of paper being deposited in each jetsam pipe discharged by each lower discharge valve;Being pulled over by plastics tablet by homodromal multiple rotary drums and move forward to discharging opening, be then sent to inclined helix dehydrator and remove residual impurity further and complete dehydration, residual impurity and water are discharged by the screen cloth mesh of inclined helix dehydrator.Preferably, in described 2. washing centrifugal station, it is the washings of 0.01m/s~0.3m/s from each water inlet up flow velocity of injection of many rotary drums washing separation device.Above-mentioned preferred method can remove the light impurity being mingled in material further, current as slowly up in each body of many rotary drums washing separation device in the proportion moisture scraps of paper more than 1 sink gradually, the plastics tablet that proportion is lighter swims in rotate with rotary drum in washings and pulls over to outbound course, and under the effect of up current, plastics tablet seldom enters in body from each lower frustum mouth, also can by the washing cavities of slowly up current refunds body even if falling into;Final plastics tablet is pulled over by rotary drum and is moved forward to discharging opening, and the sedimentation accumulation of the moisture scraps of paper is in each jetsam pipe, alternately opens and closes discharge by loading and unloading material valve and lower discharge valve.
After entering washing cavities in order to avoid mixed material, not yet obtain fully water suction profit, also not yet obtain washing fully to break up, just a large amount of fall into jetsam pipe by coming lower frustum mouth above and body deposition, the deposition so obtained separate material is more or meromict state, cleannes do not reach requirement yet.Thus as the further improvement of present method invention, in described 2. washing centrifugal station, along the mixed material horizontal feed direction of many rotary drums washing separation device, from each, the up flow velocity of the washings that water inlet injects successively decreases successively.Because the up flow velocity of first lower water inlet is relatively large, so the impulse force of up current is bigger, enter washing cavities in the mixed material that the first rotary drum washing is broken up, small part is opened through water suction profit, break up, is separated the comparatively sufficient moisture scraps of paper, slowly up current in first body could be passed through sink gradually, and the material of meromict state cannot sink;The mixed material mixing fully not moistening the moisture scraps of paper opened containing the plastics tablet Buddhist monk that proportion is lighter swims in washings, continued washing by the washing control zone pulled over to follow-up rotary drum, break up, water suction profit further is disperseed more abundant, the material of meromict state gradually decreases, the up flow velocity of the washings that each lower water inlet injects successively decreases successively, the profit progressively increased can be made to open, break up, separate the comparatively sufficient moisture scraps of paper, sunk gradually by each follow-up body successively, thus obtaining better laddering separating effect and incrementally deposition effect.
Preferably, the hot blast of the drying machine of described 4. dry storage section adopts jet chimney indirectly to heat, and steam pressure is 0.4~0.6MPa.Another kind is preferably, and the hot blast of the drying machine of described 4. dry storage section adopts electrical heating.
Preferably, the sediment impurity obtained after tumbler-type washing machine washing in described 1. material papering section enters fixed-end forces system, described 2. wash the moisture scraps of paper in centrifugal station again and be discharged into waste paper repulping recovery system through the jetsam pipe of many rotary drums washing separation device, the residual impurity discharged by the sieve plate mesh of inclined helix dehydrator and water enter water treatment system, purify Posterior circle through precipitation and are back to washing process;Described 3. machinery is rubbed the free water discharged by draining filter screen in neat and well spaced section and is entered water treatment system, purifies Posterior circle through precipitation and is back to washing process.
Beneficial effect: in thin film class technics of reclaim of plastic waste provided by the invention recycling washing, purifying system and washing and purifying method, after adopting shredder to shear waste materials by mechanical shear, primary wash sediment removes heavy seeds, then washed by multistage rotary drum in many rotary drums washing separation device, and control the up flow velocity of the washings that each lower water inlet injects, effectively remove the light impurity being mingled in material or the different material that there is difference of specific gravity is isolated in washing, and then utilize double-screw impregnator that the plastics tablet obtained shearing is rubbed neat and well spaced one-tenth small pieces and group's granular solid matter, dry storage is standby.This method and system can realize the solid gurry comprehensive utilization in paper mill, waste paper fibre and waste or used plastics and be separately recovered recycling; and automatization, large-scale industrial production can be realized; radical cure small workshop mode dispersion processing secondary environmental pollution problem; comprehensive utilization ratio is up to more than 90%; and washings consumption 50~80% can be reduced by recycling of washings, while reducing environmental pollution, it is ensured that the seriality of production; save production space, there is significant meaning.
Further, washing, purifying system provided by the invention, tumbler-type washing machine can be adopted to pass through the water inlet of lower water inlet and to form up current, the material effectively reducing proportion lighter precipitates downwards, the heavy seeds such as metal object, the stone etc. that only make proportion heavier sink to sediment pipe, can effectively remove the heavy seeds in material, and greatly reduce the loss that material easily causes in the process of washing separation impurity.
Further, washing, purifying system provided by the invention, uniform blanking type buffer bin can be adopted to realize uniform blanking by uniform blanking ring, be conducive to downstream pulping equipment steady production, fluctuation of load amplitude is reduced within 10~15% by original more than one times, reduce equipment failure rate, improve equipment dependability, stabilize stock quality;
Further, washing, purifying system provided by the invention, mesh-belt drier hot air drying plastics tablet can be adopted, save and produce space, improve efficiency.
Further, washing, purifying system and method provided by the invention, can in the many rotary drums washing separation device adopted, by configuring the up flow velocity of the washings that each the lower water inlet successively decreased successively injects, it is thus achieved that the laddering separation of mixed material and incrementally deposition effect.Flow rate of water flow is more accurately controlled also by current velocity controller, current meter, by the automatic buildup discharging of automatic valve, the seriality that produces of effective guarantee.
Accompanying drawing explanation
Fig. 1 is the structural representation of thin film class technics of reclaim of plastic waste recycling washing, purifying system;
Fig. 2 is the structural representation of tumbler-type washing machine;
Fig. 3 is the left view of Fig. 2;
Fig. 4 is the structural representation of many rotary drums washing separation device;
Fig. 5 is the left view of Fig. 4;
Fig. 6 is the structural representation of rotary drum in many rotary drums washing separation device;
Fig. 7 is the structural representation of inclined helix dehydrator;
Fig. 8 is the structural representation of uniform blanking type buffer bin;
Fig. 9 is the structural representation of uniform blanking ring in uniform blanking type buffer bin;
Figure 10 is the structural representation of uniform doffer two load displacing screws of configuration in uniform blanking type buffer bin;
Figure 11 is the structural representation of mesh-belt drier;
Figure 12 is the top view of Figure 11.
Detailed description of the invention
Below in conjunction with accompanying drawing, the embodiment of system and the embodiment of method, the present invention is further described.
As shown in Figure 1, this thin film class technics of reclaim of plastic waste recycling washing, purifying system, by material operation traffic direction, including the first conveying equipment 1, shredder the 2, second conveying equipment 3, tumbler-type washing machine 4, many rotary drums washing separation device 5, tablet pump 6, inclined helix dehydrator 7, buffer bin the 8, the 3rd conveying worm 9, double-screw impregnator 10, drying machine the 11, the 4th conveying equipment 12 and storage bin 13;nullThe discharging opening of described first conveying equipment 1 just charging aperture to shredder 2,The discharging opening of described shredder 2 just charging aperture to the second conveying equipment 3,The discharging opening of described second conveying equipment 3 just charging aperture to tumbler-type washing machine 4,The discharging opening of described tumbler-type washing machine 4 connects with the charging aperture in many rotary drums washing separation device 5,The discharging opening of described many rotary drums washing separation device 5 is connected with container,Described tablet pump 6 is located between this container and inclined helix dehydrator 7,The input of tablet pump 6 is arranged in the cavity volume of this container,The outfan of tablet pump 6 connects with the charging aperture of inclined helix dehydrator 7,The discharging opening of described inclined helix dehydrator 7 connects with the charging aperture of buffer bin 8,The discharging opening of described buffer bin 8 and the charging aperture connection of the 3rd conveying worm 9,The described discharging opening of the 3rd conveying worm 9 connects with the charging aperture of double-screw impregnator 10,The discharging opening of described double-screw impregnator 10 connects with the charging aperture of drying machine 11,The discharging opening of described drying machine 11 and the charging aperture connection of the 4th conveying equipment 12,The described discharging opening of the 4th conveying equipment 12 connects with the charging aperture of storage bin 13.
Wherein, the first conveying equipment 1 and the second conveying equipment 3 and the 4th conveying equipment 12 are chain scraper conveyor or belt conveyor.The crushing mechanism structure of shredder 2 therein is made up of the rotor of the stationary knife being fixed in casing and two relative counter-rotatings, after material enters shredder, rely on the shearing of composition between some cutterheads and cutterhead and the stationary knife between two rotors secondary, material cutting is broken into the tablet of certain size, rotor is made up of the axle that centre is spline or hexagon section and the cutterhead on axle in tandem, it is possible to adjust the size of material after shearing by adjusting cutterhead thickness;Shredder can configure hilted broadsword roll structure as required, it would however also be possible to employ double knife roller or many knife roller structures.
Tumbler-type washing machine 4 therein can be selected for this area conventional rotary drum formula washing machine, provides a kind of specific implementation herein, and as shown in Figures 2 and 3, this tumbler-type washing machine includes body, rotary drum 402, rotary drum driving device 404;Described body one upper lateral part is provided with charging aperture 401, and its opposite side is provided with discharging opening 403, is provided with washing cavities in body, and described rotary drum 402 is located in washing cavities and is driven by rotary drum driving device 404 and rotates;Organism bottom shape below described rotary drum 402 position is inversed taper platform shape;One end of the contiguous charging aperture 401 of described body is provided with water inlet 406, and the body being connected with connecting with lower frustum mouth of the lower frustum mouth of the inversed taper platform shape of described organism bottom, tube wall is provided with lower water inlet 407;Described body be connected with sediment pipe 405, the upper end of described sediment pipe 405 is provided with blow valve 408, and lower end is provided with lower blow valve 409.During work, the charging aperture 401 of the material entrance tumbler-type washing machine of tablet is cracked into through shredder, washings are added by upper water inlet 406 and lower water inlet 407, rotary drum 402 is driven by rotary drum driving device 404 and slowly rotates continuously, after tablet enters scrubbing section, to be washed rear tablet continuously to be transferred to by discharging opening 403 by the rotation of rotary drum 402, heavy seeds such as metal object, stone etc. sink to sediment pipe 405;It is upper during normal operation that blow valve 408 is opened, lower blow valve 409 cuts out, it is beneficial to slag charge and is precipitated into sediment pipe 405, when needs deslagging, upper blow valve 408 cuts out, lower blow valve 409 is opened, discharging sediment, then go up blow valve 408 and be again turned on, lower blow valve 409 is again switched off, upper and lower blow valve alternately cuts out and opens and realizes sediment, and sediment enters fixed-end forces system after discharging.In the structure shown here, because the water inlet of lower water inlet 407 can form up current, the material that the thrust of up current can effectively reduce proportion lighter precipitates downwards, but heavier heavy seeds such as metal object, the stone etc. of proportion still can sink to sediment pipe, can effectively remove the heavy seeds in material, and greatly reduce the loss that material easily causes in the process of washing separation impurity.
As shown in Figure 4, many rotary drums washing separation device 5 therein includes body 520, top, described body 520 one end is provided with charging aperture 510, its other end is provided with discharging opening 530, it is provided with washing cavities in body 520, it is provided with rotary drum in described washing cavities, between charging aperture and discharging opening, sets gradually three rotary drums, respectively the first rotary drum the 541, second rotary drum 542 and the 3rd rotary drum 543;Described body 520 bottom shape is three inversed taper platform shapes arranged side by side, the position of inversed taper platform shape and rotary drum position one_to_one corresponding, and is positioned at the lower section of corresponding rotary drum position;Described inversed taper platform shape is the taper type that big end opening suitable for reading is little.One end of the contiguous charging aperture 510 of described body 520 is provided with water inlet 550, bottom described body 520, the lower section of the lower frustum mouth of each inversed taper platform shape is all correspondingly provided with the body connected with lower frustum mouth, respectively the first body the 561, second body 562 and the 3rd body 563;First body 561 sidewall is provided with first time water inlet 571, the first body 561 be connected with the first jetsam pipe 581, the upper end of the first jetsam pipe 581 is correspondingly provided with the first loading and unloading material valve 591, and lower end is correspondingly provided with first time discharge valve 599;Second body 562 sidewall is provided with second time water inlet 572, the second body 562 be connected with the second jetsam pipe 582, the upper end of the second jetsam pipe 582 is correspondingly provided with the second loading and unloading material valve 592, and lower end is correspondingly provided with second time discharge valve 598;3rd body 563 sidewall is provided with the 3rd time water inlet 573, the 3rd body 563 be connected with the 3rd jetsam pipe 583, the upper end of the 3rd jetsam pipe 583 is correspondingly provided with the 3rd loading and unloading material valve 593, and lower end is correspondingly provided with the 3rd time discharge valve 597.It is of course also possible to be configured to the rotary drum of 4 rotary drums, 5 rotary drums or other quantity as required, corresponding body, lower water inlet, jetsam pipe, loading and unloading material valve, lower discharge valve are also identical quantity and position relationship.
Described each lower water inlet is all correspondingly provided with current velocity controller, and being all correspondingly provided with current meter, described loading and unloading material valve and corresponding lower discharge valve in described each body is the automatic valve that interval alternately opens and closes.Described lower discharge valve replaces keying and may be configured as, first open each loading and unloading material valve and close each lower discharge valve a period of time, to deposit first kind material in jetsam pipe, it is then shut off each loading and unloading material valve and opens each lower discharge valve, to discharge first kind material from jetsam pipe, then open each loading and unloading material valve again and close deposition material of each lower discharge valve a period of time, then turn off each loading and unloading material valve and open each lower discharge valve discharge material, ..., such interval is alternately repeated.Described body 520 is bolted together with spiral-lock by discerptible upper shell with lower house, each rotary drum is installed in the washing cavities within upper shell and lower house, being supported by bearings, toothed gearing electric motor is connected with the power shaft of each rotary drum and drives it to rotate respectively.Described each rotary drum is driven rotating Vortex by toothed gearing electric motor, and described toothed gearing electric motor adopts frequency control motor, as it is shown in figure 5, the first rotary drum 541 is supported by bearings 547 and bearings 548, and is driven rotation by toothed gearing electric motor 549.
As shown in Figure 6, wherein each rotary drum includes runner 306 and the 5 groups of vane group arranged along runner axial direction order, respectively first vane group the 301, second vane group 302, third blade group 303, quaterfoil group 304 and the 5th vane group 305, often group vane group comprises along the uniform some blades of runner circumferencial direction, and toothed gearing electric motor drives the runner 306 being fixedly connected on power shaft to rotate by power shaft 307.These 5 groups of vane group are consistent along the material toggling direction of runner tangential direction;It is positioned at runner shaft the first vane group 301 laterally relative along the material toggling direction of runner axial direction with the 5th vane group 305;It is positioned at runner shaft the second vane group 302 to the inside relative along the material toggling direction of runner axial direction with the first vane group 301 being adjacent;The second vane group 302 being positioned at runner shaft third blade group 303 to the inside and be adjacent is identical along the material toggling direction of runner axial direction;It is positioned at runner shaft quaterfoil group 304 to the inside in opposite direction along the material toggling of runner axial direction with the third blade group 303 being adjacent;It is positioned at runner shaft the 5th vane group 305 to the inside relative along the material toggling direction of runner axial direction with the quaterfoil group 304 being adjacent.Can certainly the setting direction of flexible configuration each vane group blade as required to obtain required material toggling direction.Such first aspect adds the washing of rotary drum and breaks up effective coverage; second aspect is gathered mixed material and is broken up effective coverage to washing; the third aspect can make the washing that current turbulization is more abundant, balanced break up mixed material; fourth aspect rotates cancelling out each other of the centrifugal force of generation by each vane group on runner; play the effect of axial force self-balancing; improve the Energy Efficiency Ratio of device operating, stability, extend the life-span of device.
Inclined helix dehydrator 7 therein can be selected for this area routine inclined helix dehydrator, provide one herein and implement form, as shown in Figure 7, this inclined helix dehydrator includes spiral case 602, it is provided with in spiral case 602 and is driven, by driving device for slow-run 604, the spiral 603 rotated, the spiral 603 of described spiral case 602 and inside thereof is obliquely installed from low to high along material conveying direction, the oblique lower end of respectively shell, two ends of described spiral case 602 and the oblique upper end of shell, described shell is positioned at the top of the oblique lower end of shell and is provided with charging aperture 601, the bottom being positioned at the oblique lower end of shell is provided with discharge outlet 607, the bottom being positioned at the oblique upper end of shell is provided with discharging opening 605, the lower parallel being positioned at spiral 603 in described spiral case 602 is provided with sieve plate 606.During work, material and water after tumbler-type washing machine washs are pumped to the charging aperture 601 of inclined helix dehydrator by tablet pump, and spiral 603 is driven rotation by driving device 604, and material is delivered to discharging opening 605 by spiral 603 lifting and discharges.Washings and residual impurity are discharged by the mesh of sieve plate 606 and enter water treatment system through discharge outlet 607, purify Posterior circle through precipitation and are back to washing process.
Buffer bin 8 therein can be selected for this area routine feed bin, it is preferable that uniformly blanking type buffer bin.As shown in Figure 8, the uniform blanking type buffer bin selected in present embodiment includes warehouse 1010 and uniform doffer, and warehouse 1010 is trapezoidal side storehouse, and warehouse top is provided with the charging aperture 1020 of reaction warehouse, is provided with blanking port bottom warehouse 1010;This uniform doffer includes housing, is provided with load displacing screw in housing, and described load displacing screw includes helical axis 1040 and the helical blade 1050 being arranged on helical axis;The helical axis 1040 of this load displacing screw is connected with the motor-driven being located at housing side, and housing opposite side bottom is provided with the discharging opening 1030 of reaction warehouse, the blanking port bottom the charging aperture of this uniform doffer and warehouse 1010;Described helical axis 1040 is positioned at the position above discharging opening 1030 and is fixed with uniform blanking ring 1060;The structural representation of uniform blanking ring 1060 is as it is shown in figure 9, include body 1061, and the outer wall of body 1061 is fixedly connected with multi start thread blade 1062;The body 1061 of described uniform blanking ring is fastenedly connected on described helical axis 1040 by welding or bolt, and uniform blanking ring 1060 is consistent with the central axis of helical axis 1040;The rotation direction of described multi start thread blade 1062 is consistent with helical blade 1050 rotation direction on described load displacing screw.The uniform doffer of this reaction warehouse can also include two such independent load displacing screws driven certainly, as shown in Figure 10, every load displacing screw all includes helical axis and helical blade, and described helical blade is the variable-pitch auger blade changed from small to big gradually along conveying direction pitch;The helical axis of every load displacing screw is positioned at the position above discharging opening and is all fixed with uniform blanking ring, the corresponding helical axis central axis of each uniform blanking ring is consistent, and the helical blade rotation direction on load displacing screw that multi start thread blade on each uniform blanking ring is corresponding is consistent;The helical axis of these two load displacing screws reversely rotates.In this configuration, in the material two reverse rotations on vicinity load displacing screw are especially anti-under the common promotion of the helical blade rotated, more balanced passage forward, then breaks up through the stirring of uniform blanking ring, and continuous uniform must fall to upstream device from discharging opening;On load displacing screw, the varying pitch of helical blade can be designed so that material is gradually transitions loose condition (of surface) along helical axis conveying direction by full state in course of conveying, improves efficiency, reduces spiral operating load and abrasion.During work, slurry is continuously introduced in reaction warehouse warehouse 1010 by the reaction warehouse feeding mouth 1020 at top, conveying equipment autoreaction storehouse, upstream, after meeting the requirement of the technological design time of staying, in warehouse, material fullness rate is 70~80%, now load displacing screw fill material is in being full of compaction state, in being full of block bulk in slurry helicla flute between load displacing screw helical blade 1050;When being positioned at the load displacing screw bottom reaction warehouse and starting and rotate, in helicla flute, transferred to load displacing screw one end close to discharging opening 1030 continuously in the material being full of block bulk;Slurry first passes through uniform blanking ring 1060 close to load displacing screw tail end before whereabouts, and after the multi start thread blade 1062 on uniform blanking ring 1060 stirs and breaks up, continuous uniform falls to upstream device.
Double-screw impregnator therein, application number as submitted to for 11st JIUYUE in 2012 is 201210332112.8, publication number be CN102864669A " a kind of double-screw impregnator " by name Chinese patent application described in, it is incorporated herein by reference that its full content comprises accompanying drawing.Can also the grant number as JIUYUE in 2012 are submitted on the 11st be ZL201220458032.2 " a kind of double-screw impregnator " by name Chinese patent application described in, it is incorporated herein by reference that its full content comprises accompanying drawing.This double-screw impregnator includes frame and the motor being arranged in frame, speed-changing gear box, movable crown gear coupling, machine barrel and two screw rods, described motor is connected by speed-changing gear box and movable crown gear coupling and two screw drive, described two screw rods are parallel to each other and are rotatably arranged in described machine barrel, described machine barrel one end is provided with charging aperture, and the other end is provided with discharging opening;Described screw rod is arranged with the first conveyor screw set, the first extrusion spiral set, the second conveyor screw set, the second extrusion spiral set, the 3rd conveyor screw set and the 3rd extrusion spiral set successively along conveying direction, the hand of spiral of described first, second, third conveyor screw set is contrary with the hand of spiral of described first, second, third extrusion spiral set, and the pitch of described first conveyor screw set is gradually reduced along conveying direction;It is designed with homogenizing ring between each conveyor screw set and extrusion spiral set;Described machine barrel bottom is provided with the waste liquid hole corresponding with the outfan of first, second conveyor screw set, and waste liquid hole place is provided with filtration castor, i.e. draining filter screen;The spiral shell rib of described first, second, third extrusion spiral set has slot;Described machine barrel can be upper and lower dissection type machine barrel, including the symmetrical upper half machine barrel being fixedly installed in frame connected and the able to turn on or off lower half machine barrel being connected in frame.Further, described upper half machine barrel top is provided with and adds hand-hole with the 3rd conveyor screw liquid corresponding to set.During work, material is advanced to discharging opening direction by two engagements homodromal screw rod, owing to the pitch of the first conveyor screw set is gradually reduced in course of conveying, material is gradually compressed and is full of screw channel, it is the first homogenizing ring place before entering reverse crush zone extrusion spiral set, extruding force reaches maximum, material is extruded strongly, under the effect of forward extrusion power, material is forced through the slot on the first extrusion spiral set spiral shell rib, and material is squeezed in this process, shear, crumple and neat and well spaced physical dimension is diminished;Same, after the second conveyor screw set and the second extrusion spiral set, the 3rd conveyor screw set and the extruding of the 3rd extrusion spiral set, shearing, rubbing homogenizing, material is sheared rubs into small pieces and group's granular solid matter is discharged, simultaneously the free water in extruded material by filtering castor discharge.
Drying machine therein can be selected for this area conventional dryers, it is preferable that mesh-belt drier.As is illustrated by figs. 11 and 12, the mesh-belt drier selected in present embodiment, including cabinet and multi-level dryer mesh belt device 603;The top of described cabinet is provided with charging aperture, and bottom is provided with discharging opening;Described multi-level dryer mesh belt device 603 includes the conveyer belt of multilamellar horizontally set, and described in the vertical direction, multilamellar conveyer belt head and the tail section is crisscross arranged, and along material conveying direction, the head end of next layer of conveyer belt stretches out the tail end of last layer conveyer belt;Described charging aperture is positioned at above the head end of top conveyer belt, and described discharging opening is positioned at below the tail end of lowermost layer conveyer belt;Described cabinet is provided around some air-heaters 601 and some wet-emitting blowers 602, described air-heater 601 is connected with the air inlet arranged on multi-level dryer mesh belt device 603, air outlet by air channel and guide duct, and described wet-emitting blower 602 is connected with the moisture exhausting port arranged on multi-level dryer mesh belt device 603 by dehumidifying pipelines.
Using the thin film class technics of reclaim of plastic waste recycling washing and purifying method of above-mentioned thin film class technics of reclaim of plastic waste recycling washing, purifying system, its detailed description of the invention is:
Embodiment 1: farm-oriented mulch waste plastic regeneration reclaims
Material based on farm-oriented mulch waste or used plastics is delivered to shredder 2 by the first conveying equipment 1, is fractured into the tablet of the length of side 20~50mm;Then by the second conveying equipment 3, tablet after broken being delivered to tumbler-type washing machine 4 and carry out washing and remove through sediment pipe the objectionable impurities such as the metal object, stone and the grains of sand that are mingled in tablet, sediment enters fixed-end forces system, wash concentration 3%;After washing, tablet flows into many rotary drums washing separation device 5 together with water, while injecting washings from the upper water inlet of many rotary drums washing separation device, from each, water inlet injects up flow velocity is the washings of 0.3m/s, again washs and isolates the light impurity contained in material, such as the scraps of paper etc..Then plastics tablet is pumped to inclined helix dehydrator 7 dehydration through tablet pump 6 together with water, the fine impurities such as silt are discharged by the screen cloth mesh that inclined screw is peripheral together with water, deliver to water treatment system, water circulating and recovering after precipitation purifies is in washing process, plastics tablet after dehydration is elevated is delivered to buffer bin 7, and in buffer bin, tablet moisture content is lower than 25%;The load displacing screw washing the buffered feed bin 8 of rear plastics tablet is released outside storehouse and is delivered to double-screw impregnator 10 by the 3rd conveying worm 9, in double-screw impregnator 10, material is concentrated by two engagements homodromal screw extruding, pass sequentially through three sections of extrusion shearings and crumple neat and well spaced section, it is sheared and rubs neat and well spaced one-tenth small pieces and group's granular solid matter, simultaneously, in tablet containing free water concentrated extrusion by force, being discharged into water treatment system by draining filter screen, the water circulating and recovering after precipitation purifies is in washing process.Material can produce substantial amounts of frictional heat when being extruded shearing and rub, and temperature of charge is up to 80~90 DEG C, and tablet moisture content is down to less than 15%;Plastics material slabbing after and granule neat and well spaced by double-screw impregnator 10 enters drying machine 11 hot air drying of net belt type, and dry air adopts electrical heating;Dried tablet delivers to storage bin 13 through the 4th conveying equipment 12, sells as commodity packing or enters upstream device mixing granulator.The present embodiment resource reclaim comprehensive utilization ratio is about 90%, and consumes about 50~80% by the reduction washings that recycle of washings.
In said process, again wash through too much rotary drum washing separation device and separate the light impurity such as moisture scraps of paper that obtain and may be output to waste paper repulping recovery system and recycle.
Embodiment 2: woven bag class waste plastic regeneration reclaims
Material based on woven bag class waste or used plastics is delivered to shredder 2 by the first conveying equipment 1, is fractured into the tablet of the length of side 20~50mm;Then by the second conveying equipment 3, tablet after broken being delivered to tumbler-type washing machine 4 and carry out washing and remove through sediment pipe the objectionable impurities such as the metal object, stone and the grains of sand that are mingled in tablet, sediment enters fixed-end forces system, wash concentration 4%;After washing, tablet flows into many rotary drums washing separation device 5 together with water, while injecting washings from the upper water inlet of many rotary drums washing separation device, from each, water inlet injects up flow velocity is the washings of 0.2m/s, again washs and isolates the light impurity contained in material, such as the scraps of paper etc..Then plastics tablet is pumped to inclined helix dehydrator 7 dehydration through tablet pump 6 together with water, the fine impurities such as silt are discharged by the screen cloth mesh that inclined screw is peripheral together with water, deliver to water treatment system, water circulating and recovering after precipitation purifies is in washing process, plastics tablet after dehydration is elevated is delivered to buffer bin 7, and in buffer bin, tablet moisture content is lower than 20%;The load displacing screw washing the buffered feed bin 8 of rear plastics tablet is released outside storehouse and is delivered to double-screw impregnator 10 by the 3rd conveying worm 9, in double-screw impregnator 10, material is concentrated by two engagements homodromal screw extruding, pass sequentially through three sections of extrusion shearings and crumple neat and well spaced section, it is sheared and rubs neat and well spaced one-tenth small pieces and group's granular solid matter, simultaneously, in tablet containing free water concentrated extrusion by force, being discharged into water treatment system by draining filter screen, the water circulating and recovering after precipitation purifies is in washing process.Material can produce substantial amounts of frictional heat when being extruded shearing and rub, and temperature of charge is up to 80~90 DEG C, and tablet moisture content is down to less than 10%;Plastics material slabbing after and granule neat and well spaced by double-screw impregnator 10 enters drying machine 11 hot air drying of net belt type, and dry air adopts jet chimney indirectly to heat, and steam pressure is 0.4~0.6MPa;Dried tablet delivers to storage bin 13 through the 4th conveying equipment 12, sells as commodity packing or enters upstream device mixing granulator.The present embodiment resource reclaim comprehensive utilization ratio is about 93%, and consumes about 50~80% by the reduction washings that recycle of washings.
In said process, again wash through too much rotary drum washing separation device and separate the light impurity such as moisture scraps of paper that obtain and may be output to waste paper repulping recovery system and recycle.
Embodiment 3: the solid gurry regeneration comprehensive in paper mill utilizes
The solid gurry material in paper mill based on thin film class waste or used plastics such as waste paper, polypropylene, polyethylene is delivered to shredder 2 by the first conveying equipment 1, is fractured into the tablet of the length of side 20~50mm;Then by the second conveying equipment 3, tablet after broken being delivered to tumbler-type washing machine 4 and carry out washing and remove through sediment pipe the objectionable impurities such as the metal object, stone and the grains of sand that are mingled in tablet, sediment enters fixed-end forces system, wash concentration 5%;After washing, tablet flows into many rotary drums washing separation device 5 together with water, from the upper water inlet of many rotary drums washing separation device and each, water inlet is injected simultaneously into washings, mixed material horizontal feed direction along many rotary drums washing separation device, from each, the up flow velocity of the washings that water inlet injects successively decreases successively, it is the washings of 0.3m/s that first time water inlet injects up flow velocity, it is the washings of 0.2m/s that second time water inlet injects up flow velocity, it is the washings of 0.15m/s that 3rd time water inlet injects up flow velocity, utilize the moisture scraps of paper, plastics tablet separates the moisture scraps of paper and plastics tablet with the difference of specific gravity of water, the moisture scraps of paper enter each jetsam pipe and escape and enter waste paper fibre repulping recovery system;The plastics tablet discharged from many rotary drums washing separation device discharging opening is pumped to inclined helix dehydrator 7 dehydration through tablet pump 6 together with water, the fine impurities such as silt are discharged by the screen cloth mesh that inclined screw is peripheral together with water, delivering to water treatment system, the water circulating and recovering after precipitation purifies is in washing process;Plastics tablet after dehydration is elevated is delivered to buffer bin 7, and in buffer bin, tablet moisture content is lower than 35%;The load displacing screw washing the buffered feed bin 8 of rear plastics tablet is released outside storehouse and is delivered to double-screw impregnator 10 by the 3rd conveying worm 9, in double-screw impregnator 10, material is concentrated by two engagements homodromal screw extruding, pass sequentially through three sections of extrusion shearings and crumple neat and well spaced section, it is sheared and rubs neat and well spaced one-tenth small pieces and group's granular solid matter, simultaneously, in tablet containing free water concentrated extrusion by force, being discharged into water treatment system by draining filter screen, the water circulating and recovering after precipitation purifies is in washing process.Material can produce substantial amounts of frictional heat when being extruded shearing and rub, and temperature of charge is up to 80~90 DEG C, and tablet moisture content is down to less than 25%;Plastics material slabbing after and granule neat and well spaced by double-screw impregnator 10 enters drying machine 11 hot air drying of net belt type, and dry air adopts jet chimney indirectly to heat, and steam pressure is 0.5MPa, and air consumption is 350kg/t tablet;Dried tablet delivers to storage bin 13 through the 4th conveying equipment 12, sells as commodity packing or enters upstream device mixing granulator.The present embodiment resource reclaim comprehensive utilization ratio is about 96%, and consumes about 50~80% by the reduction washings that recycle of washings.
Embodiment 3 is preferred embodiment, for embodiment 3, the feed separation carried out in many rotary drums washing separation device is described: because the proportion of the scraps of paper is more than 1, and the proportion of polypropylene, polyethylene film class waste or used plastics sheet is less than the proportion of the scraps of paper, the up flow velocity of the washings injected from each lower water inlet is set within 0.01m/s~0.3m/s (containing 0.01m/s and 0.3m/s), so that the impulse force of up current is less than the difference of scraps of paper gravity in water with buoyancy in each body, the difference of thin film class waste or used plastics sheet gravity in water and buoyancy can be simultaneously greater than.The scraps of paper so mixed and waste or used plastics sheet, wash through homodromal multiple rotary drums, break up, be gradually disengaged out in washing cavities;The scraps of paper, due to water suction profit, sink down into jetsam pipe gradually in current slowly up in each body, and thin film class waste or used plastics tablet is not because absorbing water and proportion gentlier floats on the water surface, and being pulled over by homodromal multiple rotary drums moves forward to discharging opening.Embodiment 1 and embodiment 2 wash and isolate, by many rotary drums washing separation device, the light impurity such as scraps of paper contained in material, is also identical principle.
External circe speed at rotary drum is 1m/s, over dry mixed material and washings weight ratio are 3:97, namely wash concentration be 3% wash conditions under test, experiment proves, the up flow velocity of the washings that each lower water inlet injects is set within 0.01m/s~0.3m/s, can be appropriate realize efficiently separating of the moisture scraps of paper and film plastic tablet, otherwise up flow velocity is excessive, the moisture scraps of paper of sedimentation can be formed too high impulse force and affect separating effect;And under the effect of up current, the thin film class waste or used plastics tablet of washing is rotated seldom from each frustum mouth entrance body with rotary drum, also can by the washing cavities of slowly up current refunds body even if falling into, so there is no up flow velocity or up flow velocity is too small, can not effectively counter for the film plastic tablet being strayed into body with current sending back in washing cavities be pulled over toward outbound course.Take full advantage of the difference of specific gravity of the moisture scraps of paper, plastics tablet and water, it is achieved that the high-efficient washing of the scraps of paper and plastic film chip and separation.
The present invention is not constituted restriction by above example, and relevant staff is in the scope not necessarily departing from the technology of the present invention thought, and what carry out various changes and modifications, and all falls within protection scope of the present invention.

Claims (10)

1. a thin film class technics of reclaim of plastic waste recycling washing, purifying system, it is characterised in that: this system includes the first conveying equipment (1), shredder (2), the second conveying equipment (3), tumbler-type washing machine (4), many rotary drums washing separation device (5), inclined helix dehydrator (7), buffer bin (8), the 3rd conveying worm (9), double-screw impregnator (10), drying machine (11), the 4th conveying equipment (12) and the storage bin (13) that set gradually by material operation traffic direction.
2. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system, it is characterized in that: also include tablet pump (6), the discharging opening of described many rotary drums washing separation device (5) is connected with container, described tablet pump (6) is located between this container and inclined helix dehydrator (7), the input of tablet pump (6) is arranged in the cavity volume of this container, and the outfan of tablet pump (6) connects with the charging aperture of inclined helix dehydrator (7);Described first conveying equipment (1) and the second conveying equipment (3) and the 4th conveying equipment (12) are chain scraper conveyor or belt conveyor.
3. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system, it is characterised in that: tumbler-type washing machine therein includes body, rotary drum (402), rotary drum driving device (404);Described body one upper lateral part is provided with charging aperture (401), its opposite side is provided with discharging opening (403), being provided with washing cavities in body, described rotary drum (402) is located in washing cavities and is driven by rotary drum driving device (404) and rotates;Organism bottom shape below described rotary drum (402) position is inversed taper platform shape;One end of the contiguous charging aperture (401) of described body is provided with water inlet (406), the body being connected with connecting with lower frustum mouth of the lower frustum mouth of the inversed taper platform shape of described organism bottom, tube wall is provided with lower water inlet (407);Described body be connected with sediment pipe (405), the upper end of described sediment pipe (405) is provided with blow valve (408), and lower end is provided with lower blow valve (409).
4. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system, it is characterized in that: many rotary drums washing separation device therein includes body (520), described body (520) top, one end is provided with charging aperture (510), its other end is provided with discharging opening (530), body is provided with washing cavities in (520), it is provided with rotary drum in described washing cavities, between charging aperture (510) and discharging opening (530), sets gradually two or more rotary drum;Described body (520) bottom shape is multiple inversed taper platform shape arranged side by side, the position of inversed taper platform shape and rotary drum position one_to_one corresponding, and is positioned at the lower section of corresponding rotary drum position;One end of the contiguous charging aperture (510) of described body is provided with water inlet (550), the lower section of the lower frustum mouth of each inversed taper platform shape in described body (520) bottom is all correspondingly provided with the body connected with lower frustum mouth, and each tube wall is all correspondingly provided with lower water inlet;The lower section of each body is all correspondingly provided with jetsam pipe, and the upper end of each jetsam pipe is all correspondingly provided with loading and unloading material valve, and lower end is all correspondingly provided with lower discharge valve.
5. thin film class technics of reclaim of plastic waste according to claim 4 recycling washing, purifying system, it is characterized in that: each lower water inlet of described many rotary drums washing separation device is all correspondingly provided with current velocity controller, all being correspondingly provided with current meter, described loading and unloading material valve and corresponding lower discharge valve in described each body is the automatic valve that interval alternately opens and closes.
null6. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system,It is characterized in that: described inclined helix dehydrator (7) includes spiral case (602),It is provided with in spiral case (602) and is driven, by driving device for slow-run (604), the spiral (603) rotated,The spiral (603) of described spiral case (602) and inside thereof is obliquely installed from low to high along material conveying direction,The oblique lower end of respectively shell, two ends of described spiral case (602) and the oblique upper end of shell,Described shell is positioned at the top of the oblique lower end of shell and is provided with charging aperture (601),The bottom being positioned at the oblique lower end of shell is provided with discharge outlet (607),The bottom being positioned at the oblique upper end of shell is provided with discharging opening (605),The lower parallel being positioned at spiral (603) in described spiral case (602) is provided with sieve plate (606).
7. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system, it is characterized in that: described buffer bin is uniform blanking type buffer bin, including warehouse (1010) and uniform doffer, warehouse top is provided with charging aperture (1020), is provided with blanking port bottom warehouse;Described uniform doffer, including housing, is provided with load displacing screw in housing, housing one side lower part is provided with the discharging opening (1030) of buffer bin, and the charging aperture of this uniform doffer is the blanking port bottom warehouse;Described load displacing screw includes helical axis (1040) and the helical blade (1050) being arranged on helical axis, described helical axis (1040) is positioned at the position of discharging opening (1030) top and is fixed with uniform blanking ring (1060), and described uniform blanking ring (1060) is consistent with the central axis of described helical axis (1040);Described uniform blanking ring (1060) includes body (1061) and multi start thread blade (1062), described multi start thread blade (1062) is fixedly connected on the outer wall of body, described body (1061) retainer ring is around being socketed on helical axis (1040), and the rotation direction of described multi start thread blade (1062) is consistent with helical blade (1050) rotation direction on described load displacing screw.
8. thin film class technics of reclaim of plastic waste according to claim 7 recycling washing, purifying system, it is characterised in that: the warehouse (1010) of described uniform blanking type buffer bin is trapezoidal side storehouse;Described uniform doffer includes the load displacing screw of more than two, and every load displacing screw all includes helical axis and helical blade, and described helical blade is the variable-pitch auger blade changed from small to big gradually along conveying direction pitch;The helical axis of every load displacing screw is positioned at the position above discharging opening and is all fixed with uniform blanking ring, the corresponding helical axis central axis of each uniform blanking ring is consistent, and the helical blade rotation direction on load displacing screw that multi start thread blade on each uniform blanking ring is corresponding is consistent;The load displacing screw of described more than two independently drives, and the helical axis of adjacent load displacing screw reversely rotates.
9. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system, it is characterized in that: double-screw impregnator therein, including frame and be arranged on the motor in frame, speed-changing gear box, movable crown gear coupling, machine barrel and two screw rods, described motor is connected by speed-changing gear box and movable crown gear coupling and two screw drive, described two screw rods are parallel to each other and are rotatably arranged in described machine barrel, described machine barrel one end is provided with charging aperture, and the other end is provided with discharging opening;Described screw rod is arranged with the first conveyor screw set, the first extrusion spiral set, the second conveyor screw set, the second extrusion spiral set, the 3rd conveyor screw set and the 3rd extrusion spiral set successively along conveying direction, the hand of spiral of described first, second, third conveyor screw set is contrary with the hand of spiral of described first, second, third extrusion spiral set, and the pitch of described first conveyor screw set is gradually reduced along conveying direction;Described machine barrel bottom is provided with waste liquid hole;The spiral shell rib of described first, second, third extrusion spiral set has slot;Described machine barrel is upper and lower dissection type machine barrel, including the symmetrical upper half machine barrel being fixedly installed in frame connected and the able to turn on or off lower half machine barrel being connected in frame.
10. thin film class technics of reclaim of plastic waste according to claim 1 recycling washing, purifying system, it is characterised in that: described drying machine is mesh-belt drier, including cabinet and multi-level dryer mesh belt device (603);The top of described cabinet is provided with charging aperture (601), and bottom is provided with discharging opening (602);Described multi-level dryer mesh belt device (603) includes the conveyer belt of multilamellar horizontally set, and described in the vertical direction, multilamellar conveyer belt head and the tail section is crisscross arranged, and along material conveying direction, the head end of next layer of conveyer belt stretches out the tail end of last layer conveyer belt;Described charging aperture (601) is positioned at above the head end of top conveyer belt, and described discharging opening (602) is positioned at below the tail end of lowermost layer conveyer belt;Described cabinet is provided around some air-heaters (604) and some wet-emitting blowers (605), described air-heater (604) is connected with the air inlet of the upper setting of multi-level dryer mesh belt device (603), air outlet by air channel and guide duct, and described wet-emitting blower (605) is connected by the upper moisture exhausting port arranged of dehumidifying pipelines and multi-level dryer mesh belt device (603).
CN201610201993.8A 2014-07-21 2014-07-21 Recycling and reusing washing and purifying system for film type waste plastics Pending CN105729678A (en)

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