CN102836825B - Multi-stage quick energy-saving garbage sorting system - Google Patents

Abstract

The invention belongs to the field of a garbage processing machine, and in particular relates to a multi-stage quick energy-saving garbage sorting system. The invention aims at providing the multi-stage quick energy-saving garbage sorting system. The technical proposal is that the multi-stage quick energy-saving garbage sorting system comprises a feeding mechanism, a roller bag breaking mechanism, a screening and classifying mechanism, a material collecting mechanism and the like, wherein a discharging end of the feeding mechanism is arranged above the roller bag breaking mechanism; the screening and classifying mechanism is arranged on the lower lateral side and/or the lower side of the roller bag breaking mechanism; the material collecting mechanism is respectively arranged on the lower side and/or the lower lateral side of the feeding mechanism, the roller bag breaking mechanism and the screening and classifying mechanism. The multi-stage quick energy-saving garbage sorting system sufficiently uses the weight of the garbage, the structure characteristic, weight characteristic, shape characteristic and material characteristic, and the like of various materials in the garbage to carryout multi-stage sorting on the garbage, thereby rationally recycling and using the garbage.

Description

Multi-stage high-speed energy-saving garbage sorting system

Technical field

The invention belongs to garbage disposal machinery field, particularly a kind of Multi-stage high-speed energy-saving garbage sorting system.

Background technology

Along with economic, scientific and technological development, rubbish composition becomes increasingly complex, also more and more difficult, but the destruction of rubbish to ecological environment, the waste to resource become disastrous social concern, existing refuse disposal system mostly is winnowing type, and the treatment classification of winnowing type treatment system to rubbish is effective, but energy consumption is large, place takies greatly, device structure complexity is huge, and handling procedure is complicated, and cost is high, treating capacity is too small, and the process for rubbish is lost more than gain; There is above problem in the equipment of burning, wastes a large amount of human and material resources etc. equally, its to the treating capacity of rubbish be difficult to solve conventional garbage and after have quantity of refuse.Other garbage apparatus all there is function singleness and due to screening installation complex structure, maintenance difficult, utilization rate of equipment and installations is low, is suitable for weak effect.Be badly in need of a kind of structure simple, consume energy low, low cost of manufacture, easy to operate, take up room little, especially carry out multistage according to the architectural characteristic, weight characteristic, style characteristic, material characteristic, volume size etc. of rubbish material to rubbish, variation sorting, makes rubbish realize rationally recycling; Category sorting is effective, and maintenance is few, and rapidly in time, treating capacity is large, safeguards easy refuse treatment plant in process.

Summary of the invention

For solving the problems of the technologies described above, the invention provides a kind of Multi-stage high-speed energy-saving garbage sorting system.

Technical scheme of the present invention is: a kind of Multi-stage high-speed energy-saving garbage sorting system, comprises feed mechanism, drum broken bag mechanism, screening Pa Xuan mechanism and collecting mechanism etc.; Wherein, the discharge end of described feed mechanism is positioned at the top of drum broken bag mechanism; Described screening Pa Xuan mechanism is positioned at side-lower and/or the below of drum broken bag mechanism; Described collecting mechanism lays respectively at feed mechanism, drum broken bag mechanism and sieves below and/or the side-lower of Pa Xuan mechanism.

Described feed mechanism, drum broken bag mechanism and/or screening Pa Xuan mechanism etc. comprise moulds cloth sorting unit.

Described feed mechanism comprises feeding device, and feeding device comprises material-conveying belt and/or conveying chain etc.

Described feed mechanism comprises broken bag poking device, magnetic separation materials device and/or elastic force sorting unit etc., and described broken bag poking device is arranged at the top of feeding device; Described magnetic separation materials device is arranged at the top of feeding device, the front of material toggling sorting unit feeding end; Described elastic force sorting unit is arranged at below and/or the side-lower of feeding device and broken bag poking device; Described elastic force sorting unit comprises diving board sorting component.

Described drum broken bag mechanism comprises select materials cylinder and broken bag cylinder, or comprises broken bag cylinder and broken bag tooth plate etc.

Described select materials cylinder or broken bag cylinder sidepiece and/or bottom arrange discharger A etc.

Described cloth sorting unit of moulding comprises material collection groove, swings material stirrer and stirring sorter etc.; Described material collection groove is arranged at below and/or the side-lower of discharger A; The described material stirrer that swings is arranged at the top of material collection groove, middle part and/or middle and upper part, the below of discharger A and/or side-lower; Described stirring sorter is arranged at the places such as the outlet of material collection groove.

Described screening Pa Xuan mechanism comprises rolls rake sorting unit and screening feeding device etc.; Described rolling harrows below and/or the side-lower that sorting unit is positioned at broken bag cylinder, and screening feeding device is positioned at the below and/or side-lower of rolling rake sorting unit; Described screening feeding device comprises annular screen band etc.

Described screening Pa Xuan mechanism also comprises magnetic separation materials device etc.; Described magnetic separation materials device is positioned at above the below of broken bag cylinder or cylinder of selecting materials and/or side-lower, the top of rolling rake sorting unit and/or side.

Described feed mechanism comprises bucket elevator etc.

Beneficial effect of the present invention is:

1, the present invention takes full advantage of the deadweight of rubbish, utilizes the architectural characteristic of various material in rubbish, weight characteristic, style characteristic and material characteristic etc. to carry out multipass sort to rubbish, makes rubbish realize rationally recycling;

2, treating capacity of the present invention is large, without the need to artificial separation, improves operating efficiency, saves space, decreases energy ezpenditure during rubbish conveying, has saved the energy, time and manpower and materials etc.;

3, reasonable structural arrangement of the present invention, solve existing refuse treatment plant to block material in the rubbish of complicated component, billot, plate, vessel, mould the diversity factor such as cloth, powder make equipment easily impaired, functions of the equipments be difficult to the problem that realizes;

4, present invention achieves multipass sort rubbish being carried out to Rapid high-efficiency energy-saving, sorting classification is many, and classification rationally;

5, maintenance of the present invention few, safeguard that simple and easy, scientific and reasonable cost is low, be easy to promote.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of embodiment 1 in the present invention;

Fig. 2 is the structural representation of feed mechanism I in the present invention;

Fig. 3 is the structural representation of intermediate roll broken bag mechanism II of the present invention;

Fig. 4 is the structural representation moulding cloth sorting unit III in the present invention;

Fig. 5 is the structural representation sieving Pa Xuan mechanism IV in the present invention;

Fig. 6 is the phantom sieving Pa Xuan mechanism IV in the present invention;

Fig. 7 is the zoomed-in view sieving Pa Xuan mechanism IV in the present invention;

Fig. 8 is the sectional view sieving feeding device 403 in the present invention;

Fig. 9 is the structural representation of magnetic separation materials device 401 and embodiment 5 in the present invention;

Figure 10 is the structural representation of embodiment 2 in the present invention;

Figure 11 is the structural representation of embodiment 3 in the present invention;

Figure 12 is the structural representation of embodiment 4 in the present invention;

Figure 13 is the structural representation of embodiment 7 in the present invention;

Figure 14 is the structural representation of embodiment 8 in the present invention;

Figure 15 is the structural representation of broken bag tooth plate 208 in embodiment 8 in the present invention;

Figure 16 is the front view of broken bag tooth plate 208 in embodiment 8 in the present invention;

Figure 17 is the structural representation of embodiment 9 in the present invention;

Figure 18 is the structural representation of embodiment 6 in the present invention;

Figure 19 is the structural representation of embodiment 11 in the present invention;

Figure 20 is the structural representation of embodiment 12 in the present invention;

Figure 21 is the structural representation of embodiment 13 in the present invention;

Figure 22 is the structural representation of embodiment 14 in the present invention.

Wherein, I, feed mechanism, II, drum broken bag mechanism, III, mould cloth sorting unit, IV, screening Pa Xuan mechanism, V, collecting mechanism; 101, feeding device, 102, material-conveying belt, 103, magnetic separation materials device, 104, material toggling sorting unit, 105, elastic force sorting unit A, 106, material collecting tank, 107, elastic force sorting unit B, 108, scraper tooth, 109, feeding conveyer belt discharger; 201, to select materials cylinder, 202, broken bag cylinder, 203, drum broken bag mechanism support, 204, sorting crushing teeth, 205, broken bag tooth A, 206, discharger A, 207, buffer spring, 208, broken bag tooth plate, 209, broken bag tooth B, 210, broken bag plate, 211, broken bag tooth plate support, 212, rotating shaft, 213, support spring, 214, stock guide; 301, material stirrer is swung, 302, material collection groove, 303, stirring sorter, 304, discharger B, 305, sieve sorting mechanism; 401, magnetic separation materials device, 402, roll rake sorting unit, 403, screening feeding device, 404, metal feeder, 405, metal charge deflector chute, 406, roll rake, 407, cloth collection stock guide is moulded, 408, annular screen band, 409, batch mixing collection stock guide, 410, material material collecting tank, 411, expect tooth clearly, 412, tooth of selecting materials, 413, head roll is sieved, 414, screening bend pulley, 415, magnetic separation bend pulley, 416, magnetic separation head roll, 417, endless belt, 418, strong magnetic magnet; 501, material collector, 502, charging aperture.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention will be further described.

Embodiment 1

As shown in Figure 1, the present invention includes feed mechanism I, drum broken bag mechanism II, mould cloth sorting unit III, sieve Pa Xuan mechanism IV and collecting mechanism V etc.; Wherein, the discharge end of feed mechanism I is positioned at the top of drum broken bag mechanism II; Screening Pa Xuan mechanism IV is positioned at below and/or the side-lower of drum broken bag mechanism II; Mould the side that cloth sorting unit III is positioned at the side-lower of drum broken bag mechanism II and/or below, screening Pa Xuan mechanism IV; Collecting mechanism V lays respectively at feed mechanism I, moulds below and/or the side-lower of cloth sorting unit III and screening Pa Xuan mechanism IV.Collecting mechanism V comprises several material collectors 501.

As shown in Figure 2, feed mechanism I comprises feeding device 101, material toggling sorting unit 104, magnetic separation materials device 103 and elastic force sorting unit A105 etc.; Described feeding device 101 comprises material-conveying belt 102; Described material toggling sorting unit 104 is arranged at the top of material-conveying belt 102; Described elastic force sorting unit A105 is arranged at below and the/side-lower of material-conveying belt 102 and material toggling sorting unit 104.Arrange some material collecting tanks 106 below material-conveying belt 102, material collecting tank 106 connects material collector 501.

As shown in Figure 3, drum broken bag mechanism II comprises select materials cylinder 201 and broken bag cylinder 202 etc., and select materials cylinder 201 and broken bag cylinder 202 are arranged on drum broken bag mechanism support 203.The outer surface of cylinder 201 of selecting materials is provided with some sorting crushing teeths 204, and the outer surface of broken bag cylinder 202 is provided with some broken bag tooth A205, and sorting crushing teeth 204 and broken bag tooth A205 staggered interting are arranged.Select materials cylinder 202 side-lower and/or below arranges discharger A206.

As shown in Figure 1, mould cloth sorting unit III and be positioned at the side-lower of cylinder 202 grade of selecting materials, the below of discharger A206.

As shown in Figure 10, it comprises material collection groove 302, swings material stirrer 301 and stirring sorter 303 to mould cloth sorting unit.Swing material stirrer 301 and be arranged at the top of material collection groove 302, middle part and/or middle and upper part, stirring sorter 303 is arranged at the exit of material collection groove 302; Stirring sorter 303 is arranged discharger B304.Discharger B304 exit connects material collector 501 etc., arranges material collector 501 etc. below stirring sorter 303.

As shown in Figure 1, the present invention includes more than one screening Pa Xuan mechanism IV, one-level screening Pa Xuan mechanism IV and secondary screening Pa Xuan mechanism IV etc. can be respectively.Secondary screening Pa Xuan mechanism IV is positioned at below and/or the side-lower of one-level screening Pa Xuan mechanism IV.

As shown in Figure 5, sieve Pa Xuan mechanism IV comprise roll rake sorting unit 402, screening feeding device 403 and magnetic separation materials device 401 etc.Screening feeding device 403 is positioned at the below and/or side-lower of rolling rake sorting unit 402.The select materials below of cylinder 201 arranges stock guide 214 etc., rolls rake sorting unit 402 and is positioned at the places such as the discharging opening of stock guide 214.Magnetic separation materials device 401 is positioned at above the below of broken bag cylinder 202 and/or side-lower, the top of rolling rake sorting unit 402 and/or side.Magnetic separation materials device 401 side-lower arranges metal feeder 404 etc., and metal feeder 404 exit arranges metal charge deflector chute 405 etc.

As shown in Figure 6 to 8, sieve feeding device 403 and comprise screening head roll 413, screening bend pulley 414 and annular screen band 408 etc.; The described rake sorting unit 402 that rolls comprises and rolls rake 406 and mould cloth collection stock guide 407 etc.The compass screen surface discharge end of described annular screen band 408 arranges material material collecting tank 410 etc., and sieve bottom discharge end arranges batch mixing collection stock guide 409 etc.Described rake 406 outer surface that rolls arranges and expects tooth 411 etc. clearly; Described annular screen band 408 outer surface arranges tooth 412 etc. of selecting materials; Described clear material tooth 411 and tooth 412 staggered interting of selecting materials are arranged.

As shown in Figure 9, magnetic separation materials device 401 comprises magnetic separation head roll 416, endless belt 417 and magnetic separation bend pulley 415, is wrapped on the cylindrical of magnetic separation head roll 416 and magnetic separation bend pulley 415 after the tensioning of endless belt 417.Magnetic separation bend pulley 415 is strong magnetic bend pulley.Endless belt 417 also can be strong tape.

The present invention is when carrying out garbage disposal, and the course of work is as follows:

The first step: processed rubbish material upwards transmits through the material-conveying belt 102 of feed mechanism I, after magnetic separation materials device 103 pairs of metalliferous materials sort out, leftover materials are through material toggling sorting unit 104 sorting, material toggling sorting unit 104 is by large timber, cardboard coverboard, plastic plate, stone, the large volume materials such as cement block sort out, large timber, cardboard coverboard, plastic plate, stone, the materials such as cement block through elastic force sorting unit A105 by stone, cement blocks etc. bleed the loading head below elastic force sorting plate, other lightweight thing is selected by bullet and is entered sidepiece material collector, by the material of material toggling sorting unit 104, the charging aperture 502 above drum broken bag mechanism II is brought to by material-conveying belt 102.

Second step: rubbish material is transported to the charging aperture 502 above drum broken bag mechanism II through feed mechanism I, rubbish material falls to from charging aperture 502 selects materials between cylinder 201 and broken bag cylinder 202, cylinder 201 of selecting materials is rotated counterclockwise, simultaneously, broken bag cylinder 202 is also rotated counterclockwise, bag-shaped rubbish rotates up under the drive of sorting crushing teeth 204, the fragmentation to refuse bag is completed in the moment that broken bag tooth A205 and sorting crushing teeth 204 interlock, the selected feed roller 201 of cloth refuse bag of moulding after fragmentation brings to discharger A206 place, discharger A206 completes the discharging to cylinder 201 of selecting materials.

3rd step: collected is moulded cloth mass transport in material collection groove 302 by discharger A206, and fall along material collection groove 302, to when swinging material stirrer 301, by swinging material stirrer 301 to material one elastic force upwards, making to mould after the light materials such as cloth are fully separated under gravity with the particle such as rubble, silt and carrying out sorting again through stirring sorter 303.Mould cloth and particle after stirring sorter 303 again sorting, to mould cloth major part be collected, leftover materials drop on sieve sorter 305, are again sorted, and particle etc. fall into the material collector 501 of below after screening.

4th step: the material after broken bag sorting drops down onto screening Pa Xuan mechanism IV.The present invention includes more than one screening Pa Xuan mechanism IV etc., can be one-level screening Pa Xuan mechanism IV and secondary screening Pa Xuan mechanism IV etc.Secondary screening Pa Xuan mechanism is positioned at below and/or the side-lower of one-level screening Pa Xuan mechanism.Material is first through one-level screening Pa Xuan mechanism IV: when material is through magnetic separation materials device 401, under the effect of magnetic force, metalliferous material is sorted out, and falls into metal charge deflector chute 405 through metal feeder 404.The annular screen band 408 of screening feeding device 403 is provided with tooth 412 of selecting materials, material moves and is sorted under the drive of tooth 412 of selecting materials, refuse bags etc. are moulded cloth material tooth 412 of being selected materials and are brought to and roll rake 406 place, through moulding the discharging of cloth collection stock guide 407 in the material collection groove 302 moulding cloth sorting unit III.Material on screening feeding device 403 compass screen surface falls into material material collecting tank 410; Undersize material sieves Pa Xuan mechanism IV etc. through the discharging of batch mixing collection stock guide 409 to secondary.It is identical that the secondary screening course of work of Pa Xuan mechanism IV and one-level sieve the Pa Xuan mechanism IV course of work.

5th step: the material fallen from screening feeding device 403 compass screen surface, through sieve plate and/or elastic force sorting unit A105 sorting once again, makes plastic bottle wherein, foam block, paper shell, moulds shell, carton, vessel and aluminium box etc. are sorted out.

6th step: all kinds of rubbish after sorting are taken in respective material collector 501 grade.

Embodiment 2

As shown in Figure 4, mould cloth sorting unit III to comprise material collection groove 302, swing material stirrer 301, stirring sorter 303 and sieve sorter 305.Material collection groove 302 is arranged at the below of discharger A206.Swing material stirrer 301 and be arranged at the top of material collection groove 302, the below of discharger A206.Stirring sorter 303 is arranged at the exit of material collection groove 302; Stirring sorter 303 is arranged discharger B304.Sieve sorter 305 is arranged at the below of stirring sorter 303, and sieve sorter 305 is obliquely installed, and its angle of inclination is 30 ° ~ 70 °.Below sieve sorter 305 and compass screen surface exit arranges material collector 501 respectively.

Other are with embodiment 1.

Embodiment 3

As shown in figure 11, sieve Pa Xuan mechanism IV to comprise and roll rake sorting unit 402 and screening feeding device 403.Screening feeding device 403 is positioned at the below and/or side-lower of rolling rake sorting unit 402.Roll the below that rake sorting unit 402 is positioned at broken bag cylinder 202.Below and/or the side-lower of screening Pa Xuan mechanism IV are provided with cycle sieve sub-agencies.

Other are with embodiment 1.

Embodiment 4

As shown in figure 12, the present invention is provided with a screening Pa Xuan mechanism IV.

As shown in Figure 5, the structure of the screening Pa Xuan mechanism IV in the present embodiment can be: screening Pa Xuan mechanism IV comprise roll rake sorting unit 402, screening feeding device 403 and magnetic separation materials device 401 etc.Screening feeding device 403 is positioned at the below and or side-lower of rolling rake sorting unit 402.Magnetic separation materials device 401 is positioned at below and/or the side-lower of broken bag cylinder 202.The tape loop of magnetic separation materials device 401 is belt, and magnetic separation materials device 401 side-lower arranges metal feeder 404, and metal feeder 404 exit arranges metal charge deflector chute 405.

As shown in figure 11, the structure of described screening Pa Xuan mechanism IV also can not contain magnetic separation materials device 401.

Other are with embodiment 1 or embodiment 3.

Embodiment 5

As shown in Figure 9, magnetic separation materials device 401 comprises magnetic separation head roll 416, endless belt 417, magnetic separation bend pulley 415 and strong magnetic magnet 418, magnetic separation head roll 416 and magnetic separation bend pulley 415 be arranged in parallel, are wrapped on the cylindrical of magnetic separation head roll 416 and magnetic separation bend pulley 415 after the tensioning of endless belt 417.Strong magnetic magnet 418 is between magnetic separation head roll 416 and magnetic separation bend pulley 415, in the annular that formed of endless belt 417.

Other are with embodiment 1.

Embodiment 6

As shown in figure 18, the feed mechanism I in the present invention is bucket elevator.

The other the same as in Example 1 or embodiment 3 or embodiment 4.

Embodiment 7

As shown in figure 13, the bottom of broken bag tooth A205 and/or sorting crushing teeth 204 is provided with buffer spring 207, and when running into large material, broken bag tooth A205 and/or sorting crushing teeth 204 can retraction drums inside, are beneficial to bulk materials and pass through.

Described buffer springs etc. also can be arranged on the middle part of broken bag tooth A205 and/or sorting crushing teeth 204 and/or middle bottom.

Described buffer spring also can be torsion spring, extension spring, butterfly spring, India-rubber spring, nylon spring, polyester spring, hydraulic cylinder, cylinder and/or leaf spring etc.

The other the same as in Example 1.

Embodiment 8

As shown in figure 14, drum broken bag mechanism II comprises broken bag cylinder 202 and broken bag tooth plate 208.

As shown in Figure 15 and Figure 16, broken bag tooth plate 208 comprises broken bag tooth B209, broken bag plate 210 and broken bag tooth plate support 211 etc., and the downward-sloping setting of broken bag tooth B 209, is beneficial to material slide downward; One end of broken bag plate 210 is connected with broken bag tooth plate support 211 by rotating shaft 212, and the other end connects support spring 213 etc., and support spring 213 is fixed on broken bag plate 210.Broken bag plate 210 is arranged several broken bag teeth B209, when running into large material, broken bag plate 210 rotates along rotating shaft 212 under the buffering of support spring 213, is beneficial to material and passes through.

The other the same as in Example 1.

Embodiment 9

As shown in figure 15, as different from Example 8, broken bag plate 210 is divided into some pieces, and each block can rotate along rotating shaft 212, and the quantity of broken bag plate 210 can be arranged arbitrarily according to actual needs.Each block broken bag plate 210 all arranges broken bag tooth B209.

Other is with embodiment 8.

Embodiment 10

As shown in figure 14, as different from Example 9, broken bag plate 210 is divided into some pieces, and each block can rotate along rotating shaft 212, and the quantity of broken bag plate 210 can be arranged arbitrarily according to actual needs.Each block broken bag plate 210 all arranges broken bag tooth B209, and each block broken bag plate is equipped with buffer unit etc.

Other is with embodiment 9.

Embodiment 11

As shown in figure 19, as different from Example 1, the plastics that screening Pa Xuan mechanism IV sub-elects are imported stirring sorter 303, what screening Pa Xuan mechanism IV was sub-elected moulds cloth through swinging material stirrer, stirring sorter 303 sorting once again.

The other the same as in Example 1.

Embodiment 12

As shown in figure 20, as different from Example 1, in screening Pa Xuan mechanism IV isolated lump material bottom, mesh screen is set, mesh screen bottom and/or sidepiece arrange elastic force sorting unit B107 by plastic bottle wherein, foam block, paper shell, mould shell, vessel, carton, rubber jar and aluminium box etc. and be sorted out.

The other the same as in Example 1.

Embodiment 13

As shown in figure 21, as different from Example 1, the feeding device of feed mechanism I is conveying chain, and with scraper tooth 108 on conveying chain, feeding conveyer belt discharger 109 is arranged in charging aperture 502.Scraper tooth 108 is by after gravity dumping, and remaining material carries out discharging by the feeding conveyer belt discharger 109 being arranged on backhaul chain bottom, and the material that unloads falls into charging aperture 502.

The other the same as in Example 1.

Embodiment 14

As shown in figure 22, as different from Example 1, the feeding device front upper of feed mechanism I is provided with rolls rake device 602, rolls rake device 602 pairs of material broken bags and selects materials, the discharge end rolling rake device 602 is provided with discharger C603, and the material that discharger C603 unloads falls into moulds cloth sorting unit III.

The other the same as in Example 1.

Claims (7)

1. a Multi-stage high-speed energy-saving garbage sorting system, is characterized in that, comprises feed mechanism, drum broken bag mechanism, screening Pa Xuan mechanism and collecting mechanism; Wherein,

The discharge end of described feed mechanism is positioned at the top of drum broken bag mechanism;

Described screening Pa Xuan mechanism is positioned at the below of drum broken bag mechanism;

Described collecting mechanism lays respectively at feed mechanism, drum broken bag mechanism and sieves the below of Pa Xuan mechanism;

Described feed mechanism, drum broken bag mechanism and/or screening Pa Xuan mechanism comprise moulds cloth sorting unit;

Described feed mechanism comprises feeding device, broken bag poking device, magnetic separation materials device and/or elastic force sorting unit;

Described feeding device comprises material-conveying belt or conveying chain;

Described broken bag poking device is arranged at the top of feeding device;

Described magnetic separation materials device is arranged at the top of feeding device, the front of material toggling sorting unit feeding end;

Described elastic force sorting unit is arranged at the below of feeding device and broken bag poking device;

Described elastic force sorting unit comprises diving board sorting component.

2. Multi-stage high-speed energy-saving garbage sorting system according to claim 1, it is characterized in that, described drum broken bag mechanism comprises select materials cylinder and broken bag cylinder, or comprises broken bag cylinder and broken bag toothed plate device.

3. Multi-stage high-speed energy-saving garbage sorting system according to claim 1, it is characterized in that, described drum broken bag mechanism comprises select materials cylinder and broken bag cylinder, and described select materials cylinder or broken bag cylinder sidepiece and/or bottom arrange discharger A.

4. Multi-stage high-speed energy-saving garbage sorting system according to claim 1, is characterized in that, described in mould cloth sorting unit and comprise material collection groove, swing material stirrer and stirring sorter;

Described material collection groove is arranged at the below of discharger A;

The described material stirrer that swings is arranged at the top of material collection groove, middle part and/or middle and upper part, the below of discharger A;

Described stirring sorter is arranged at the exit of material collection groove.

5. Multi-stage high-speed energy-saving garbage sorting system according to claim 1, is characterized in that, described screening Pa Xuan mechanism comprises rolls rake sorting unit and screening feeding device; Described rolling harrows the below that sorting unit is positioned at broken bag cylinder, and screening feeding device is positioned at the below of rolling rake sorting unit; Described screening feeding device comprises annular screen band.

6. Multi-stage high-speed energy-saving garbage sorting system according to claim 1 or 2, is characterized in that, described screening Pa Xuan mechanism also comprises magnetic separation materials device; Described magnetic separation materials device is positioned at the below of broken bag cylinder or cylinder of selecting materials, rolls the top of rake sorting unit.

7. Multi-stage high-speed energy-saving garbage sorting system according to claim 1, is characterized in that, described feed mechanism comprises bucket elevator.