CN104815835A - Recovery treatment complete device for soft sheet materials - Google Patents

Abstract

The invention discloses a recovery treatment complete device for soft sheet materials. The recovery treatment complete device comprises a crushing portion, an impurity separating portion, a cleaning portion and a dehydration briquetting portion which are respectively connected, the crushing portion comprises a shredding machine and a crushing machine which are sequentially connected together through a material conveying mechanism, the impurity separating portion comprises an air conveying device, a separating cylinder, a separating cylinder driving device and a soft sheet gas separating device, the separating cylinder driving device drives the separating cylinder to rotate, the air conveying device comprises a fan and an air pipe connected with the fan, sieve holes are formed in the wall of the separating cylinder, two ends of the separating cylinder are open, an air outlet of the air pipe is arranged at a feeding end of the separating cylinder, the cleaning portion comprises a washing cage, a vibrating sieve device and a cleaning water tank which are sequentially connected, and the dehydration briquetting portion comprises a dehydrator, an aggregating machine and a material storage tank which are sequentially connected. The recovery treatment device has the advantages of high production efficiency, low labor cost, small occupied area, no secondary pollution and the like.

Description

A kind of recycling complete set of equipments of soft chip material

Technical field

The present invention relates to a kind of material recovery process for producing line, be specifically related to a kind of recycling complete set of equipments of soft chip material.

Background technology

The material (such as cloth, plastic sheeting etc.) with soft characteristic has a wide range of applications in daily life, production.These materials, after finishing using, in order to the waste of preventing pollution environment and resources, recycle and reuse these materials usually.The recovery of these materials is mainly divided into the processing steps such as fragmentation, magazins' layout, cleaning, dehydration, in prior art, corresponding treatment facility is divided into multiple treatment facility by different process step usually, need by artificial or conveying arrangement handling material between each treatment facility in production process, there is production efficiency ground, cost of labor is high, occupation of land space is large, may the deficiencies such as secondary pollution be produced.

Summary of the invention

In view of above shortcomings in prior art, the object of the present invention is to provide a kind of recycling complete set of equipments of soft chip material, this recycling equipment automatically can complete all techniques in soft chip material recycling process, the operation of form continuous-flow type, have that production efficiency is high, cost of labor is low, take up an area space little, there is no the advantages such as secondary pollution.

The technical scheme that the present invention solves the problems of the technologies described above is:

A recycling complete set of equipments for soft chip material, is characterized in that, comprise connect successively broken segment, magazins' layout part, cleaning part and dehydration pressure regiment headquarters divide, wherein:

Described broken segment comprises the shredder and disintegrating machine that are connected in turn by material conveying mechanism;

Described magazins' layout part comprises the cylinder drive unit and soft thin slice gas fractionation unit that wind send device, cylinder, driving cylinder rotates, wherein, and the airduct that described wind send device to comprise blower fan and be connected with blower fan; The wall of described cylinder is provided with sieve aperture, the open at both ends of cylinder, and wherein the uncovered of one end is feed end, and the uncovered of the other end is discharge end, and the air outlet of described airduct is arranged on the feed end of cylinder; Described soft thin slice gas fractionation unit comprises cyclone separator, the charging aperture of this cyclone separator is connected with the discharge end of cylinder, top exhaust outlet and the wind of this cyclone separator send the airduct in device to be connected, and the discharge gate of this cyclone separator is connected with the feed end of cleaning part;

Described cleaning part comprise connect successively wash cage, vibrating screen device and cleaning sink;

Described dehydration pressure regiment headquarters divides the dewaterer, granule machine and the storage tank that comprise and connecting successively.

A preferred version of the present invention, wherein, in magazins' layout part, soft thin slice secondary separation device is provided with between described cylinder and cyclone separator, this soft thin slice secondary separation device comprises the separator box of the discharge end being connected to cylinder, large density soft flake collection case and the soft flake collection case of little density is provided with in this separator box, this large density soft flake collection case and the soft flake collection case of little density set gradually along discharging direction, and both are all arranged at the below of the discharge end of cylinder; The bottom of the soft flake collection case of described little density is connected with the charging aperture of cyclone separator by feed pipe, and described feed pipe is provided with wind and send blower fan in device; The top exhaust outlet of described cyclone separator is connected with sack cleaner, and air outlet and the wind of this sack cleaner send the airduct in device to be connected.

The object of above-mentioned preferred version is adopted to be: in the soft thin slice flown out from the discharge end of cylinder, also partial impurities may can be stained with in the soft thin slice of part, the soft thin slice of this part is usually heavy, the soft thin slice of remainder is then purer soft thin slice, in actual production, usual needs are by the separately process of these two parts in soft thin slice, such as, for plastic sheeting, the soft thin slice of these two parts is the non-renewable plastic sheeting and the recyclable plastic film that are stained with partial impurities respectively, wherein, non-renewable plastic sheeting is usually by landfill or burning disposal, recyclable plastic film then recycles and reuses.In order to realize the separation of the soft thin slice of above-mentioned two parts, the discharge end of cylinder is provided with soft thin slice secondary separation device, utilize the principle that the soft chip density of two parts is different, the soft thin slice making density larger drops in the soft flake collection case of large density, and the less soft thin slice of density drops to the soft flake collection case of little density, the classification of both realizations collects.In addition, by arranging described sack cleaner, the impurity in the gas of discharge cyclone separator filters, and avoids these impurity again to enter cylinder.

A preferred version of the present invention, wherein, the top on the top of described cylinder is provided with air pulse device, this air pulse device comprises air compressor, air reservoir, pulse ajutage, pulse valve and pulse wind-distributing pipe, described pulse wind-distributing pipe is provided with tuyere, and this tuyere is right against described cylinder and arranges.

The effect of above-mentioned preferred version is adopted to be: 1, to prevent sieve pore blockade.In the course of work, be separated the impurity that drops and do not have separative soft thin slice and impurity assembly to drop on the bottom of cylinder, likely sieve aperture can be blocked, impurity is made to be difficult to drop, after above-mentioned air pulse device is set, tuyere sprays air pulse by the frequency of setting to cylinder, thus is blown out downwards by the material be blocked in sieve aperture, dredging sieve aperture.2, soft thin slice and impurity is separated further.Blow proal treating material by airduct and be rotating the treating material upwards taken up by cylinder, under the effect of the air pulse sprayed at described tuyere, soft thin slice wherein and impurity are subject to air pulse and impact, thus play the effect that accelerating impurity is separated (can the treating material of disposable separation by the effect that blows of airduct for those) and raising separating effect (being blowed the treating material that can not disposablely be separated by airduct for those).During above-mentioned air pulse device work, tuyere works in the form of a pulse, its object is to, the air-flow of pulsed can not cause too much obstruction to proal treating material on the one hand, on the other hand, pulsed gas flow has larger instant impact, is more conducive to the treating material dredged sieve aperture and dispel conglomeration.

Preferably, described pulse wind-distributing pipe comprises air main and a point airduct, and wherein, described point of airduct is arc-shaped and circumferencial direction along cylinder extends, and the quantity of this point of airduct is multiple, and these point of airduct distributes along the axis direction of cylinder; Described air main extends along the axis direction of cylinder, and described multiple points of airducts are connected on this air main, and described tuyere is arranged on point airduct.

By above-mentioned preferred version, the position of cylinder within the scope of whole axis all can obtain the air pulse effect of tuyere, all have an opportunity in the process that treating material is moved in cylinder to obtain the air pulse effect of tuyere, further increase preventing sieve pore blockade and dispelling the effect for the treatment of material of air pulse.

Preferably, described pulse wind-distributing pipe is divided into many groups, every group pulse wind-distributing pipe comprises an air main and multiple points of airducts, and the air main in every group pulse wind-distributing pipe extends along the axis direction of cylinder, and point airduct in many group pulses wind-distributing pipe arranges along the axis direction of cylinder.

The object of above-mentioned preferred version is adopted to be to improve the separating effect to impurity.Because pulse wind-distributing pipe is divided into many groups, and point airduct in many group pulses wind-distributing pipe arranges along the axis direction of cylinder, air main in every group pulse wind-distributing pipe is corresponding point airduct transport pulse gas, point airduct in each group pulse wind-distributing pipe can by certain regularly arranged in cylinder, and the tuyere of point airduct in each group pulse wind-distributing pipe can be arranged to different spray angles, a point airduct in each group pulse wind-distributing pipe can take turns to operate according to certain rules, thus make the wind speed and direction acting on material more complicated and changeable, further raising separating effect, be embodied in: (1) carries out shake repeatedly to soft chip material, (2) soft chip material is constantly opened repeatedly, (3) utilize the specific area difference of soft thin slice and impurity, make both under airflow function, obtain the action effect of larger contrast and realize being separated.

A preferred version of the present invention, wherein, the inwall of described cylinder is provided with the many groups of chainings along the distribution of cylinder axis direction, often organizes chaining and comprises many chainings that the circumferencial direction along cylinder distributes; In each group chaining, the air line distance between the hitch point of adjacent two chainings is greater than two chaining length sums.

Adopt the treating material that the object of above-mentioned preferred version is to prevent sieve pore blockade and breaks up conglomeration, its operation principle is: when cylinder remains static, the chaining being positioned at cylinder top naturally droops, and the chaining be positioned at bottom cylinder crouches and lies on cylinder; During work, cylinder rotates continuously, rotate in the process of a week at cylinder, the course of work of each chaining is: when chaining is positioned at the bottom of cylinder, sleeping the lying in bottom cylinder of this chaining is also constantly moved about, travelling chaining is dialed the treating material bottom cylinder, is stirred, thus preventing treating material from blocking sieve aperture, simultaneously travelling chaining can also be broken up the treating material of conglomeration, and the treating material of conglomeration is separated further; And chaining upwards turns to gradually the process of peak bottom cylinder, the wall body that chaining leaves cylinder gradually forms hanging like, enter into the inner space of cylinder, the inertia simultaneously had owing to rotating with cylinder, makes chaining can to the contrary direction beat of cylinder rotation direction; And chaining turns to the process of bottom from the top of cylinder, chaining little by little near cylinder inwall, finally on the completely sleeping inwall lain in bottom cylinder, and repeats travelling action from hanging like; As can be seen here, chaining moves to the process that peak returns bottom cylinder bottom cylinder, chaining enters into the inner space of cylinder, thus the treating material blowed before subtend carries out dialing, clashing into, accelerate the separation for the treatment of material, and the treating material of conglomeration is broken up.Due to adjacent two chainings hitch point between air line distance be greater than two chaining length sums, chaining can be prevented mutually to be wound around in the course of the work, to guarantee that every bar chaining can work freely.

Preferably, the inwall of described cylinder is provided with multiple axis direction along cylinder and distributes circular reinforcement, and described chaining is suspended on this reinforcement, and each reinforcement arranges one group of chaining.By arranging described reinforcement, not only can improve the rigidity of cylinder, being also convenient to the setting of chaining simultaneously.

A preferred version of the present invention, wherein, described cylinder tilts upward setting, and the lower end of this cylinder is feed end, and described air outlet is positioned at the centre of feed end, and air-out direction is parallel with cylinder axis direction.

The effect of this preferred version is adopted to be, because cylinder tilts upward setting, weight in treating material is tilted upward by airduct at the feed end place of cylinder and blows, under gravity, these weights slow down and move downward gradually, because the original state of these weights is for move obliquely, compared with the duty of cylinder horizontal positioned, these weights were more difficult to from cylinder by (material that in weight, quality is lighter in other words is also difficult to pass through from cylinder), make the amount of the weight dropped in cylinder more, separating effect is better.

A preferred version of the present invention, wherein, the below of described cylinder is provided with Material collecting box for harvesting, for collecting the impurity dropped from sieve aperture; Be provided with material delivering mechanism in Material collecting box for harvesting, this material delivering mechanism is made up of belt conveyor, can be discharged by the impurity fallen in time like this.

A preferred version of the present invention, wherein, is provided with sand shaker between described broken segment and magazins' layout part.

A preferred version of the present invention, wherein, described vibrating screen device comprise be obliquely installed screen cloth, be located at water tank below screen cloth, drive the vibration actuating unit of screen cloth vibration and impact water pipe, one end of described screen cloth is arranged on the below of the discharge end washing cage, and the other end extends to the feed end of cleaning sink; The delivery port of described impact water pipe is arranged on one end corresponding with the discharge end washing cage in screen cloth.

The operation principle of above-mentioned vibrating screen device is: from washing the material of discharging cage and water drops in screen cloth downwards, soft chip material wherein rests on screen cloth, and the rinse water containing impurity drops in water tank; Meanwhile, impact the clear water sprayed in water pipe and the soft chip material on screen cloth is rushed at cleaning sink, realize cleaning and conveying, impact the water sprayed in water pipe and finally fall into water tank.By arranging above-mentioned vibrating screen device, the material that the discharge end washing cage is discharged being separated with water, preventing the water with impurity from entering into cleaning sink.

A preferred version of the present invention, wherein, described cleaning sink comprises first paragraph cleaning sink and second segment cleaning sink, and described first paragraph cleaning sink is U-shaped, and described second segment cleaning sink is straight trough; Dewaterer is connected with between the discharge end of described first paragraph cleaning sink and the feed end of second segment cleaning sink;

Pulse tracheae is provided with in described first paragraph cleaning sink and second segment cleaning sink; The end of this first paragraph cleaning sink and second segment cleaning sink is provided with heavy water material output mechanism; The top of this first paragraph cleaning sink and second segment cleaning sink is provided with beating device, and this beating device comprises the rotating shaft of band blade and the actuating unit of drive shaft rotation.

In above-mentioned preferred version, material carries out first time cleaning in first paragraph cleaning sink, by U-shaped flumes extending flow path; Material after the cleaning of first paragraph cleaning sink enters dewaterer dehydration, the rinse water containing impurity is departed from, prevents from entering second segment cleaning sink; Material after dehydration enters second segment cleaning sink and carries out second time cleaning, guarantees that material is thoroughly cleaned up.The effect of described pulse tracheae is to impact material, and the soft chip material circumnutated is stretched, and allows the impurity be originally wrapped in soft chip material be able to be cleaned; The close large impurity that described heavy water material output mechanism is used for being deposited by bottom of gullet is discharged outside tank, the collector groove to middle shrinkage is arranged in the bottom of usual tank, in this collector groove, conveying screw rod is set, impurity is transported to the end of tank, discharged by heavy water material output mechanism, this heavy water material output mechanism is formed primarily of urceolus, the actuating unit that is arranged on conveying screw rod in urceolus and drive screw turns; Described beating device is used for driveing material flow forward, pats material simultaneously, thus is conducive to the cleaning of material.

A preferred version of the present invention, wherein, in dehydration pressure regiment headquarters divides, described granule machine is multiple, and parallel setting; The discharge end of dewaterer is connected with material distribution device, and this material distribution device has two material outlets, and each material outlet is connected with the feed end of one of them machine respectively by material conveying mechanism; The discharging opening of described granule machine is connected with storage tank by carrier pipe, and the two ends of described carrier pipe are connected on storage tank; Be provided with carrier chain in described carrier pipe, this carrier chain is provided with switch-plate, and this carrier chain extends and enters in storage tank and forms loop structure in carrier pipe.

Operation principle of the present invention is:

Treating material enters in broken segment and carries out pretreatment: first send in shredder and process, torn by lumps material, then enter in disintegrating machine and carry out fragmentation, form soft chip material.

Material after fragmentation enters in magazins' layout part and carries out magazins' layout: the treating material being entrained with soft thin slice and impurity is transported to the feed end place of cylinder, then by airduct, treating material is blowed forward, treating material in cylinder by the process that blows, soft thin slice is constantly dispelled and is overturn, impurity wherein little by little drops to downwards bottom cylinder due to heavier, and drop out from sieve aperture, soft thin slice flies out from the discharge end of cylinder; In addition, part can not dropped to the bottom of cylinder yet by the conglomeration that dispels soft thin slice together and impurity, this part material is comparatively large due to volume, can not drop out from sieve aperture, but upwards rotates together along with cylinder, and after turning to certain altitude under drop, and constantly circulate, in this process, this part material is all subject to the effect of airduct air-flow all the time, under lasting Action of Wind pressure, soft thin slice and impurity are finally dispelled, and realize being separated.Soft thin slice after separation enters in cyclone separator and carries out gas solid separation, and the gas after separation enters into wind and send the airduct of device to reuse, and the soft thin slice after separation enters into cleaning part and cleans;

In cleaning part: first soft thin slice cleans washing in cage, then enters into vibrating screen device and removes moisture, finally enter into cleaning sink rinsing;

The complete soft thin slice of rinsing enters into dehydration pressure regiment headquarters and divides and carry out dewatering and roll into a ball pressure: softly first thin slice enters dewaterer and dewater, and enters subsequently to compress agglomerating in a machine, and cuts into graininess, is finally pooled in storage tank, acquisition finished product.

The present invention compared with prior art has following beneficial effect:

1, can complete all techniques of soft chip material removal process, expect that the processing procedure between final finished product is carried out continuously from original recovery, manual intervention is few, and production efficiency is high, provides cost savings and takes up an area space.

2, accessible object is many, and comprise plastic sheeting, fabric, non-woven fabrics, foamed plastic and paper etc., versatility is good.

3, in magazins' layout part: (1) is blowed due to treating material in the cylinder rotated continuously, not only can in time the impurity after separation be discharged from sieve aperture, and for the soft thin slice of those conglomerations that can not be separated in time and impurity, by the rotation of cylinder it taken up again and drop, make it to accept gas shock constantly, finally be separated, thus drastically increased separation rate.(2) due to whole cylinder being all provided with sieve aperture, treating material blows in process in whole cylinder, and the impurity of the different densities be whenever separated all can be discharged from sieve aperture, improves separating effect.(3) treating material is by pneumatic convey, and quantity delivered in the unit interval is few, therefore fully can roll in cylinder, make soft thin slice and impurity more easily separated.(4) by the soft thin slice after separation again according to the difference of density, can further separate, thus carry out classification process according to different recovery values, improve the quality reclaimed.(5) the soft thin slice finally reclaimed can be separated with working gas, and working gas can reuse, can preventing pollution environment.

Accompanying drawing explanation

Fig. 1 is the structural representation of a detailed description of the invention of the recycling complete set of equipments of soft chip material of the present invention.

Fig. 2 is the structural representation of magazins' layout part in Fig. 1.

Fig. 3 is the operation principle sketch of the part of magazins' layout shown in Fig. 2.

Fig. 4 is the structural representation of cleaning part in Fig. 1.

Fig. 5 is the structural representation washing cage and vibrating screen device in Fig. 4.

Fig. 6 is the structural representation that in Fig. 1, dehydration pressure regiment headquarters divides.

Fig. 7 is for the carrier pipe of conveying granular material, the structural representation of carrier chain in Fig. 6.

Fig. 8 is the structural representation of carrier chain in Fig. 7.

Fig. 9 is the operation principle sketch of magazins' layout part in second embodiment of the recycling complete set of equipments of soft chip material of the present invention.

Figure 10 be in Fig. 9 cylinder and on the end view of air pulse device.

Figure 11 be in the 3rd embodiment of the recycling complete set of equipments of soft chip material of the present invention cylinder and on the structural representation of chaining.

Figure 12 and Figure 13 is the A direction view of Figure 11, wherein, Figure 12 be cylinder static time structural representation, Figure 13 be cylinder rotate time structural representation.

Figure 14 be in the 4th embodiment of the recycling complete set of equipments of soft chip material of the present invention cylinder and on air pulse device, chaining structural representation.

Figure 15 be in the 5th embodiment of the recycling complete set of equipments of soft chip material of the present invention cylinder and on the end view of air pulse device.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

Embodiment 1

See Fig. 1, the recycling complete set of equipments of soft chip material of the present invention divides D to be connected in sequence primarily of broken segment A, magazins' layout part B, cleaning part C and dehydration pressure regiment headquarters.

See Fig. 1, described broken segment A mainly comprises the cast hopper 1a, shredder 3a, disintegrating machine 4a and the sand shaker 6a that set gradually, is connected between each several part by material conveying mechanism 2a.Described cast hopper 1a is for throwing in treating material.Described material conveying mechanism 2a is formed primarily of conveyer belt 2-1a, actuating unit and deflector chute, described conveyer belt 2-1a being arranged with the switch-plate perpendicular to zone face, being fed forward for stirring material.In order to remove the metal impurities in material, above the conveyer belt 2-1a between described cast hopper 1a and shredder 3a, magnet 5a being set, when the metal in material is through out-of-date, being picked up in time, avoid entering follow-up shredder 3a or disintegrating machine 4a.The effect of described shredder 3a is large volume material that is bundled, conglomeration to tear, and forms loose condition (of surface); The effect of described disintegrating machine 4a is the material of loose condition (of surface) to be broken into fragment shape.The effect of described sand shaker 6a is tentatively to remove the sandstone impurity in material, its principle is by being with the rotating shaft of blade constantly to stir material, the silt that preliminary removal is a large amount of, the material through playing husky processing is sent into magazins' layout part B and is removed impurity further.Described shredder 3a, disintegrating machine 4a and sand shaker 6a can adopt existing equipment to implement.

See Fig. 1 ~ Fig. 3, described magazins' layout part B comprises cylinder drive unit 14, soft thin slice secondary separation device and the soft thin slice gas fractionation unit that wind send device, cylinder 1, drives cylinder 1 to rotate.Wherein, described wind send the airduct 2 that device comprises blower fan 13 and is connected with blower fan 13.The wall of described cylinder 1 is provided with sieve aperture, the open at both ends of cylinder 1, and wherein the uncovered of one end is feed end, and the uncovered of the other end is discharge end; The air outlet 2-1 of described airduct 2 is arranged on the feed end of cylinder 1.The discharging opening of described sand shaker 6a extends to the top of air outlet 2-1.Described cylinder 1 drive unit is made up of the gear ring be located on cylinder 1 outer wall, the driving gear engaged with gear ring and the motor that is connected with driving gear.Outer container 16 is provided with outside described cylinder 1.Described soft thin slice secondary separation device comprises the separator box 10 of the discharge end being connected to cylinder 1, large density soft flake collection case 10-1 and little density soft flake collection case 10-2 is provided with in this separator box 10, this large density soft flake collection case 10-1 and little density soft flake collection case 10-2 sets gradually along discharging direction, and both are all arranged at the below of the discharge end of cylinder 1.Described soft thin slice gas fractionation unit comprises cyclone separator 12, and the charging aperture of this cyclone separator 12 is connected with the bottom of little density soft flake collection case 10-2 by feed pipe 11, and described feed pipe 11 is provided with wind and send blower fan 13 in device; The top exhaust outlet of this cyclone separator 12 is connected with sack cleaner 5, and air outlet and the wind of this sack cleaner 5 send the airduct 2 in device to be connected.

The object arranging above-mentioned soft thin slice secondary separation device is: in the soft thin slice 6 flown out from the discharge end of cylinder 1, also partial impurities may can be stained with in the soft thin slice 6 of part, the soft thin slice 6 of this part is usually heavy, the soft thin slice of remainder 6 is then purer soft thin slice 6, in actual production, usual needs are by the separately process of these two parts in soft thin slice 6, such as, for plastic sheeting, the soft thin slice of these two parts 6 is the non-renewable plastic sheeting and the recyclable plastic film that are stained with partial impurities respectively, wherein, non-renewable plastic sheeting is usually by landfill or burning disposal, recyclable plastic film then recycles and reuses.In order to realize the separation of the soft thin slice 6 of above-mentioned two parts, the present invention is provided with soft thin slice secondary separation device on the discharge end of cylinder 1, utilize the principle that two parts soft thin slice 6 density is different, the soft thin slice 6 making density larger drops in large density soft flake collection case 10-1, and the less soft thin slice 6 of density drops to little density soft flake collection case 10-2, the classification of both realizations collects.

The effect arranging above-mentioned soft thin slice gas fractionation unit is: to be carried treating material by air-flow due to magazins' layout part B of the present invention and be separated, and treating material is due to the characteristic of conglomeration, therefore pernicious gas can be mixed, along with the separation of soft thin slice 6, the air-flow of these gas final sum airducts 2 blowout and the soft thin slice after being separated enter into separator box 10 together, if these mists are directly discharged in air, the pollution of air can be caused, present invention employs soft thin slice gas fractionation unit for this reason, utilize the principle of cyclonic separation, the soft thin slice of recoverable is the most at last separated with described mist, soft thin slice 6 after separation is discharged from the bottom of cyclone separator 12, gas after separation is discharged from the top exhaust outlet of cyclone separator 12, these mists of discharging again blow out after sack cleaner 5 filters from the air outlet of airduct 2, enter in cylinder 1 and reuse, described wind send the blower fan 13 in device to provide power for the cyclonic separation of cyclone separator 12 and the magazins' layout of cylinder 1 simultaneously, and whole impurity separating equipment can be worked continuously, cyclically.

See Fig. 3, the bottom of described large density soft flake collection case 10-1 is provided with discharge gate, this discharge gate is provided with automatic blanking mechanism, and this automatic blanking mechanism comprises the striker plate 10-3 that is hinged on discharge gate and impels striker plate 10-3 shutoff at the spring of discharge gate.By arranging this automatic blanking mechanism, automatically the soft thin slice of large density that large density soft flake collection case 10-1 gathers can be discharged, its principle is, when the weight of the soft thin slice of large density gathered exceedes certain value, overcome the elastic force of spring, striker plate 10-3 is opened, the soft thin slice of large density is discharged, with back striker plate 10-3 under the elastic force effect of spring again shutoff on discharge gate.

See Fig. 1 ~ Fig. 3, described cylinder 1 tilts upward setting, and the lower end of this cylinder 1 is feed end, and described air outlet 2-1 is positioned at the centre of feed end, and air-out direction is parallel with cylinder 1 axis direction.Its role is to, because cylinder 1 tilts upward setting, weight in treating material is tilted upward by airduct 2 at the feed end place of cylinder 1 and blows, under gravity, these weights slow down and move downward gradually, because the original state of these weights is for move obliquely, compared with the duty of cylinder 1 horizontal positioned, these weights were more difficult to from cylinder 1 by (material that in weight, quality is lighter in other words is also difficult to pass through from cylinder 1), make the amount of the weight dropped in cylinder 1 more, separating effect is better.

See Fig. 1 ~ Fig. 3, the below of described cylinder 1 is provided with Material collecting box for harvesting 8, for collecting the impurity 7 dropped from sieve aperture; Be provided with material delivering mechanism 9 in Material collecting box for harvesting 8, this material delivering mechanism 9 is made up of belt conveyor, can be discharged by the impurity 7 fallen in time like this.The end of material delivering mechanism 9 is provided with vertical outward extending deflector chute 15, to be imported in collection container by material.

See Fig. 1, Fig. 4 and Fig. 5, described cleaning part C comprise connect successively wash cage 1c, vibrating screen device and cleaning sink.Wherein, described in wash cage 1c primarily of urceolus, be located at cleaning screw rod in urceolus and drive the actuating unit of cleaning bolt rotary to form, described urceolus is obliquely installed, and the top of urceolus is provided with water inlet, and bottom is provided with discharge outlet.The material of discharging from the cyclone separator of magazins' layout part B enters into the hopper washing cage 1c one end, then promote material by cleaning screw rod upwards to carry, material is stirred in course of conveying, make magazins' layout, the impurity after separation is taken away (it is that the application for a patent for invention of CN103085194A is implemented that the concrete structure washing cage 1c can refer to application publication number) by water from the discharge outlet bottom urceolus.

See Fig. 1, Fig. 4 and Fig. 5, described vibrating screen device comprise be obliquely installed screen cloth 2c, be located at water tank 3c below screen cloth 2c, drive the vibration actuating unit of screen cloth 2c vibration and impact water pipe (not shown), one end of described screen cloth 2c is arranged on the below of the discharge end washing cage 1c, and the other end extends to the feed end of cleaning sink.Described screen cloth 2c is fixed on deflector chute 4c, and this deflector chute 4c plays the effect of installing screen cloth 2c and directing material, and this deflector chute 4c is fixed on support 7c by spring 5c, so that deflector chute 4c makes up-down vibration.Described vibration actuating unit is made up of motor 6c and cam mechanism, described motor 6c is fixed on support 7c, described cam mechanism connects motor 6c main shaft and deflector chute 4c, motor 6c carries out eccentric motion by driving cam mechanism, thus drive deflector chute 4c up-down vibration, the moisture in the material in screen cloth 2c is shaken and falls in water tank 3c.The delivery port of described impact water pipe is arranged on one end corresponding with the discharge end washing cage 1c in screen cloth 2c, for being punched in tank by the material in screen cloth 2c.The operation principle of above-mentioned vibrating screen device is: from washing the material of discharging cage 1c and water drops in screen cloth 2c downwards, soft chip material wherein rests on screen cloth 2c, rinse water containing impurity drops in water tank 3c, and the effect of vibration of vibration actuating unit impels rinse water to drop into more fast and fully in water tank 3c; Meanwhile, impact the clear water sprayed in water pipe and the soft chip material on screen cloth 2c is rushed at cleaning sink, realize cleaning and conveying, impact the water sprayed in water pipe and finally also fall into water tank 3c.By arranging above-mentioned vibrating screen device, the material that the discharge end washing cage 1c is discharged being separated with water, preventing the water with impurity from entering into cleaning sink.

See Fig. 1, Fig. 4 and Fig. 5, described cleaning sink comprises first paragraph cleaning sink 8c and second segment cleaning sink 9c, and described first paragraph cleaning sink 8c is U-shaped, and described second segment cleaning sink 9c is straight trough; Dewaterer 10c is connected with between the discharge end of described first paragraph cleaning sink 8c and the feed end of second segment cleaning sink 9c.Pulse tracheae (specific embodiments can refer to application publication number for " cleaning method of flexible fragment and the special potcher " disclosed in the application for a patent for invention of CN 104148326 A) is provided with in described first paragraph cleaning sink 8c and second segment cleaning sink 9c; The end of this first paragraph cleaning sink 8c and second segment cleaning sink 9c is provided with heavy water material output mechanism 11c; The top of this first paragraph cleaning sink 8c and second segment cleaning sink 9c is provided with beating device, and this beating device comprises the rotating shaft 12c of band blade and the actuating unit of drive shaft 12c rotation; Be provided with shell 13c outside rotating shaft 12c, prevent rinse water from splashing.In above-mentioned cleaning sink, material carries out first time cleaning in first paragraph cleaning sink 8c, by U-shaped flumes extending flow path; Material after first paragraph cleaning sink 8c cleans enters dewaterer 10c and dewaters, and the rinse water containing impurity is departed from, prevents from entering second segment cleaning sink 9c; Material after dehydration enters second segment cleaning sink 9c and carries out second time cleaning, guarantees that material is thoroughly cleaned up.The effect of described pulse tracheae is to impact material, and the soft chip material circumnutated is stretched, and allows the impurity be originally wrapped in soft chip material be able to be cleaned; The close large impurity that described heavy water material output mechanism 11c is used for being deposited by bottom of gullet is discharged outside tank, the collector groove to middle shrinkage is arranged in the bottom of usual tank, in this collector groove, conveying screw rod is set, impurity is transported to the end of tank, discharged by heavy water material output mechanism 11c, this heavy water material output mechanism 11c is formed primarily of urceolus, the actuating unit that is arranged on conveying screw rod in urceolus and drive screw turns; Described beating device is used for driveing material flow forward, pats material simultaneously, thus is conducive to the cleaning of material.

See Fig. 1, Fig. 6, Fig. 7 and Fig. 8, dewaterer 1d, granule machine 3d and storage tank 5d that described dehydration pressure regiment headquarters divides D to comprise to connect successively.The effect of described dewaterer 1d is that the material after by cleaning dewaters fully.The effect of described granule machine 3d is to carry out volume compression and granulation to soft chip material, and because soft chip material is fluffy state, volume is large, can save space by a pressure granulation, is convenient to store and transport.The operation principle of granule machine 3d is: compressed material by screw rod; carry out suitable heating simultaneously; compress agglomerating material to extrude from the reclaiming plate being provided with through hole; at the arranged outside pelletizing cutter of reclaiming plate; material is cut into granular (the more specifically embodiment of granule machine 3d can refer to prior art to carry out, and such as application publication number is " a kind of film dehydration solution-reduction machine " of CN 102390098 A).See Fig. 7 and Fig. 8, the granular material obtained through granule machine 3d process drops in carrier pipe 6d downwards, to be transported in storage tank 5d by granule materials to store by the carrier chain 7d in carrier pipe 6d.Described carrier pipe 6d is connected on storage tank 5d and forms loop structure, and the carrier chain 7d in it extends to form circulation shape along carrier pipe 6d.Described carrier chain 7d is provided with switch-plate 8d, drives it to operate by actuating unit 9d, and granule materials is constantly transported in storage tank 5d by the switch-plate 8d on it by the carrier chain 7d of cycle operation.

See Fig. 1 and Fig. 6, in order to improve treatment effeciency, parallel two (also can adopt more) granule machine 3d arranged are adopted to carry out a pressure granulation process.The discharge end of described dewaterer 1d is connected with material distribution device 2d, and this material distribution device 2d has two material outlets, and each material outlet is connected with the feed end of one of them machine 3d respectively by material conveying mechanism 4d.The effect of material distribution device 2d is that the material that dewaterer 1d exports is divided into two parts to be transported in two granule machine 3d, and this material distribution device 2d can adopt two conveying screw rods to form, and the mechanism that other also can be adopted can to distribute material is formed.

Operation principle of the present invention is:

See Fig. 1 ~ Fig. 6, treating material enters in broken segment A and carries out pretreatment: first send in shredder 3a and carry out tearing up processing, torn by lumps material, then enter in disintegrating machine 4a and carry out fragmentation, form soft chip material, finally enter preliminary shakeout in sand shaker 6a.

Material after fragmentation enters in magazins' layout part B and carries out magazins' layout: the treating material being entrained with soft thin slice 6 and impurity 7 is transported to the feed end place of cylinder 1, then by airduct 2, treating material is blowed forward, treating material in cylinder 1 by the process that blows, be mixed in soft thin slice 6 together and impurity 7 is dispelled, impurity 7 wherein little by little drops to downwards bottom cylinder 1 due to heavier, and drop out from sieve aperture, soft thin slice 6 then flies out from the discharge end of cylinder 1.In addition, part can not dropped to the bottom of cylinder 1 yet by the conglomeration that dispels soft thin slice 6 together and impurity 7, this part material is comparatively large due to volume, can not drop out from sieve aperture, but upwards rotates together along with cylinder 1, and after turning to certain altitude under drop, and constantly circulate, in this process, this part material is all subject to the effect of airduct 2 air-flow all the time, under lasting Action of Wind pressure, soft thin slice 6 and impurity 7 are finally dispelled, and realize being separated.Soft thin slice after separation enters in cyclone separator 12 and carries out gas solid separation, and the gas after separation enters into wind and send the airduct 2 of device to reuse, and the soft thin slice after separation enters into cleaning part C and cleans;

In cleaning part C: first soft chip material cleans washing in cage 1c, then enters into vibrating screen device and removes moisture, finally enter into cleaning sink rinsing;

The complete soft thin slice of rinsing enters into dehydration pressure regiment headquarters and divides D to carry out dewatering and roll into a ball pressure granulation: softly first chip material enters dewaterer 1d and dewater; enter subsequently and compress agglomerating in a machine 3d and cut into graininess; finally be sent in storage tank by carrier chain 7d through carrier pipe 6d, obtain finished product.

Embodiment 2

See Fig. 9 and Figure 10, the difference of the present embodiment compared with embodiment 1 is, in the present embodiment, the top on the top of described cylinder 1 is provided with air pulse device 3, this air pulse device 3 comprises air compressor, air reservoir, pulse ajutage, pulse valve and pulse wind-distributing pipe, described pulse wind-distributing pipe is provided with tuyere 3-3, and this tuyere 3-3 is right against described cylinder 1 and arranges; Described air compressor and air reservoir are by pulse ajutage to pulse wind-distributing pipe conveying high-pressure air-flow, and described pulse valve is arranged on tuyere 3-3 place, obtain air pulse by the break-make of pulse valve.The effect of above-mentioned air pulse device 3 is adopted to be: 1, to prevent sieve pore blockade.In the course of work, be separated the impurity 7 that drops and do not have separative soft thin slice 6 and impurity 7 assembly to drop on the bottom of cylinder 1, likely sieve aperture can be blocked, impurity 7 is made to be difficult to drop, after above-mentioned air pulse device 3 is set, tuyere 3-3 sprays air pulse by the frequency of setting to cylinder 1, thus is blown out downwards by the material be blocked in sieve aperture, dredging sieve aperture.2, soft thin slice 6 and impurity 7 is separated further.Blow proal treating material by airduct 2 and be rotating the treating material upwards taken up by cylinder 1, under the effect of the air pulse of described tuyere 3-3 ejection, soft thin slice 6 wherein and impurity 7 are subject to air pulse and impact, thus play the effect that accelerating impurity 7 is separated (can the treating material of disposable separation by the effect that blows of airduct 2 for those) and raising separating effect (being blowed the treating material that can not disposablely be separated by airduct 2 for those).When above-mentioned air pulse device 3 works, tuyere 3-3 works in the form of a pulse, its object is to, the air-flow of pulsed can not cause too much obstruction to proal treating material on the one hand, on the other hand, pulsed gas flow has larger instant impact, is more conducive to the treating material dredged sieve aperture and dispel conglomeration.The formation of air pulse can realize with batch process work by controlling air pump, also can by arranging magnetic valve in tuyere 3-3, and under the state of air pump continuous firing, Controlling solenoid valve with batch process break-make, thus obtains air pulse.

See Fig. 9 and Figure 10, described pulse wind-distributing pipe comprises an air main 3-1 and point airduct 3-2, and wherein, described point of airduct 3-2 is arc-shaped and circumferencial direction along cylinder 1 extends, the quantity of this point of airduct 3-2 is multiple, and these point of airduct 3-2 distributes along the axis direction of cylinder 1; Described air main 3-1 extends along the axis direction of cylinder 1, and described multiple points of airduct 3-2 are connected on this air main 3-1, and described tuyere 3-3 is arranged on point airduct 3-2, and each point of airduct 3-2 arranges multiple tuyere 3-3.Pass through said structure, the position of cylinder 1 within the scope of whole axis all can obtain the air pulse effect of tuyere 3-3, all have an opportunity to obtain the air pulse effect of tuyere 3-3 in the process that treating material is moved in cylinder 1, further increase preventing sieve pore blockade and dispelling the effect for the treatment of material of air pulse.In order to avoid the soft thin slice 6 being blown into the discharge end place of cylinder 1 changes the direction of motion by air pulse effect, described point airduct 3-2 is not set at the discharge end place near cylinder 1.

The present embodiment other embodiments other than the above are identical with embodiment 1.

Embodiment 3

See 11 ~ Figure 13, the air pulse device 3 of the present embodiment by arranging in the inwall of cylinder 1 in chaining 4 alternate embodiment 2, in order to prevent sieve pore blockade and to improve separating effect.Chaining 4 set on the inwall of cylinder 1 be many groups, and this chaining 4 be metallic bond, and many group chainings 4 distribute along cylinder 1 axis direction, and often group chaining 4 comprises many chainings 4 that the circumferencial direction along cylinder 1 distributes.Its operation principle is: when cylinder 1 remains static, and the chaining 4 being positioned at cylinder 1 top naturally droops, and the chaining 4 be positioned at bottom cylinder 1 crouches and lies on cylinder 1; During work, cylinder 1 rotates continuously, rotate in the process of a week at cylinder 1, the course of work of each chaining 4 is: when chaining 4 is positioned at the bottom of cylinder 1, sleeping the lying in bottom cylinder 1 of this chaining 4 is also constantly moved about, treating material bottom travelling chaining 4 pairs of cylinders 1 is dialed, is stirred, thus preventing treating material from blocking sieve aperture, simultaneously travelling chaining 4 can also be broken up the treating material of conglomeration, and the treating material of conglomeration is separated further; And chaining 4 upwards turns to gradually the process of peak bottom cylinder 1, the wall body that chaining 4 leaves cylinder 1 gradually forms hanging like, enter into the inner space of cylinder 1, simultaneously owing to rotate with cylinder 1 and the inertia that has, make chaining 4 can to the contrary direction beat of cylinder 1 rotation direction; And chaining 4 turns to the process of bottom from the top of cylinder 1, chaining 4 little by little near cylinder 1 inwall, finally on the completely sleeping inwall lain in bottom cylinder 1, and repeats travelling action from hanging like; As can be seen here, chaining 4 moves to the process that peak returns bottom cylinder 1 bottom cylinder 1, chaining 4 enters into the inner space of cylinder 1, thus the treating material blowed before subtend carries out dialing, clashing into, accelerate the separation for the treatment of material, and the treating material of conglomeration is broken up.

In each group chaining 4, the air line distance between the hitch point of adjacent two chainings 4 is greater than two chaining 4 length sums, and chaining 4 can be prevented so to be mutually wound around in the course of the work, guarantees that every bar chaining 4 can work freely.

The inwall of described cylinder 1 is provided with multiple axis direction along cylinder 1 and distributes circular reinforcement 1-1, and described chaining 4 is suspended on this reinforcement 1-1, and each reinforcement 1-1 arranges one group of chaining 4.By arranging described reinforcement 1-1, not only can improve the rigidity of cylinder 1, being also convenient to the setting of chaining 4 simultaneously.

The present embodiment other embodiments other than the above are identical with embodiment 1.

Embodiment 4

See Figure 14, in the present embodiment, adopt the air pulse device 3 in embodiment 2 and the chaining 4 in embodiment 3, to prevent sieve pore blockade better and to improve separating effect simultaneously.

The present embodiment other embodiments other than the above are identical with embodiment 1.

Embodiment 5

See Figure 15, the difference of the present embodiment compared with embodiment 2 is, in the present embodiment, described pulse wind-distributing pipe is divided into many groups (being shown as 3 groups in figure), every group pulse wind-distributing pipe comprises an air main 3-1 and multiple points of airduct 3-2, air main 3-1 in every group pulse wind-distributing pipe extends along the axis direction of cylinder 1, and point airduct 3-2 in many group pulses wind-distributing pipe arranges along the axis direction of cylinder 1.

In the present embodiment, many group pulses wind-distributing pipe is adopted to be conducive to improving the separating effect to impurity.Because pulse wind-distributing pipe is divided into many groups, and point airduct in many group pulses wind-distributing pipe arranges along the axis direction of cylinder, air main in every group pulse wind-distributing pipe is corresponding point airduct transport pulse gas, point airduct in each group pulse wind-distributing pipe can by certain regularly arranged in cylinder, and the tuyere of point airduct in each group pulse wind-distributing pipe can be arranged to different spray angles, a point airduct in each group pulse wind-distributing pipe can take turns to operate according to certain rules, thus make the wind speed and direction acting on material more complicated and changeable, further raising separating effect, be embodied in: (1) carries out shake repeatedly to soft chip material, (2) soft chip material is constantly opened repeatedly, (3) impurity that specific area is few is filtered out.

Above-mentioned is the present invention's preferably embodiment; but embodiments of the present invention are not by the restriction of foregoing; change, the modification done under other any does not deviate from Spirit Essence of the present invention and principle, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (10)

1. a recycling complete set of equipments for soft chip material, is characterized in that, comprise connect successively broken segment, magazins' layout part, cleaning part and dehydration pressure regiment headquarters divide, wherein:

Described broken segment comprises the shredder and disintegrating machine that are connected in turn by material conveying mechanism;

Described magazins' layout part comprises the cylinder drive unit and soft thin slice gas fractionation unit that wind send device, cylinder, driving cylinder rotates, wherein, and the airduct that described wind send device to comprise blower fan and be connected with blower fan; The wall of described cylinder is provided with sieve aperture, the open at both ends of cylinder, and wherein the uncovered of one end is feed end, and the uncovered of the other end is discharge end, and the air outlet of described airduct is arranged on the feed end of cylinder; Described soft thin slice gas fractionation unit comprises cyclone separator, the charging aperture of this cyclone separator is connected with the discharge end of cylinder, top exhaust outlet and the wind of this cyclone separator send the airduct in device to be connected, and the discharge gate of this cyclone separator is connected with the feed end of cleaning part;

Described cleaning part comprise connect successively wash cage, vibrating screen device and cleaning sink;

Described dehydration pressure regiment headquarters divides the dewaterer, granule machine and the storage tank that comprise and connecting successively.

2. the recycling complete set of equipments of soft chip material according to claim 1, it is characterized in that, in magazins' layout part, soft thin slice secondary separation device is provided with between described cylinder and cyclone separator, this soft thin slice secondary separation device comprises the separator box of the discharge end being connected to cylinder, large density soft flake collection case and the soft flake collection case of little density is provided with in this separator box, this large density soft flake collection case and the soft flake collection case of little density set gradually along discharging direction, and both are all arranged at the below of the discharge end of cylinder, the bottom of the soft flake collection case of described little density is connected with the charging aperture of cyclone separator by feed pipe, and described feed pipe is provided with wind and send blower fan in device, the top exhaust outlet of described cyclone separator is connected with sack cleaner, and air outlet and the wind of this sack cleaner send the airduct in device to be connected.

3. the recycling complete set of equipments of soft chip material according to claim 2, it is characterized in that, the top on the top of described cylinder is provided with air pulse device, this air pulse device comprises air compressor, air reservoir, pulse ajutage, pulse valve and pulse wind-distributing pipe, described pulse wind-distributing pipe is provided with tuyere, and this tuyere is right against described cylinder and arranges.

4. the recycling complete set of equipments of soft chip material according to claim 3, it is characterized in that, described pulse wind-distributing pipe comprises air main and point airduct, wherein, described point of airduct is arc-shaped and circumferencial direction along cylinder extends, the quantity of this point of airduct is multiple, and these point of airduct distributes along the axis direction of cylinder; Described air main extends along the axis direction of cylinder, and described multiple points of airducts are connected on this air main, and described tuyere is arranged on point airduct;

Described pulse wind-distributing pipe is divided into many groups, every group pulse wind-distributing pipe comprises an air main and multiple points of airducts, air main in every group pulse wind-distributing pipe extends along the axis direction of cylinder, and point airduct in many group pulses wind-distributing pipe arranges along the axis direction of cylinder.

5. the recycling complete set of equipments of soft chip material according to claim 1, it is characterized in that, the inwall of described cylinder is provided with the many groups of chainings along the distribution of cylinder axis direction, often organizes chaining and comprises many chainings that the circumferencial direction along cylinder distributes; In each group chaining, the air line distance between the hitch point of adjacent two chainings is greater than two chaining length sums.

6. the recycling complete set of equipments of the soft chip material according to any one of claim 2 ~ 5, it is characterized in that, described cylinder tilts upward setting, and the lower end of this cylinder is feed end, described air outlet is positioned at the centre of feed end, and air-out direction is parallel with cylinder axis direction.

7. the recycling complete set of equipments of soft chip material according to claim 6, is characterized in that, the below of described cylinder is provided with Material collecting box for harvesting; Be provided with material delivering mechanism in Material collecting box for harvesting, this material delivering mechanism is made up of belt conveyor.

8. the recycling complete set of equipments of soft chip material according to claim 1, it is characterized in that, described vibrating screen device comprise be obliquely installed screen cloth, be located at water tank below screen cloth, drive the vibration actuating unit of screen cloth vibration and impact water pipe, one end of described screen cloth is arranged on the below of the discharge end washing cage, and the other end extends to the feed end of cleaning sink; The delivery port of described impact water pipe is arranged on one end corresponding with the discharge end washing cage in screen cloth.

9. the recycling complete set of equipments of soft chip material according to claim 8, it is characterized in that, described cleaning sink comprises first paragraph cleaning sink and second segment cleaning sink, and described first paragraph cleaning sink is U-shaped, and described second segment cleaning sink is straight trough; Dewaterer is connected with between the discharge end of described first paragraph cleaning sink and the feed end of second segment cleaning sink;

Pulse tracheae is provided with in described first paragraph cleaning sink and second segment cleaning sink; The end of this first paragraph cleaning sink and second segment cleaning sink is provided with heavy water material output mechanism; The top of this first paragraph cleaning sink and second segment cleaning sink is provided with beating device, and this beating device comprises the rotating shaft of band blade and the actuating unit of drive shaft rotation.

10. the recycling complete set of equipments of soft chip material according to claim 1, is characterized in that, in dehydration pressure regiment headquarters divides, described granule machine is multiple, and parallel setting; The discharge end of dewaterer is connected with material distribution device, and this material distribution device has multiple material outlet, and each material outlet is connected with the feed end of one of them machine respectively by material conveying mechanism; The discharging opening of described granule machine is connected with storage tank by carrier pipe, and the two ends of described carrier pipe are connected on storage tank; Be provided with carrier chain in described carrier pipe, this carrier chain is provided with switch-plate, and this carrier chain extends and enters in storage tank and forms loop structure in carrier pipe.