CN208213604U - For being crushed the crawler type screening plant of building waste screening - Google Patents

Abstract

For being crushed the crawler type screening plant of building waste screening, include crawler type screening station and movable type water screening device；Wherein crawler type screening station includes traveling crawler, main car frame, dynamical system, hydraulic system, piggyback pod, belt conveyor, feeding warehouse, subframe, vibrating screen, sub-material storehouse, inspection platform, electrical system etc..Feed separation of the device-specific after construction waste crushing, the light materials such as separating plastic, wood, rag, paper, to obtain qualified recycled aggregate.The crawler type screening plant of the utility model has the features such as easy to operate, convenient transportation, high-efficient.

Description

For being crushed the crawler type screening plant of building waste screening

Technical field

The utility model relates to a kind of crawler type screening plants, and in particular to material after a kind of pair of construction waste crushing into Row screening, isolates the light materials such as plastics, wood, rag, paper, to obtain the crawler type screening plant of qualified recycled aggregate.

Background technique

Along with the quickening of domestic novel Development of China's Urbanization, phenomena such as building waste " besieged city ", " mound design ", " filling out lake " increasingly Seriously.The innoxious of building waste, disposal of resources are extremely urgent.

There are following deficiencies for existing mobile construction waste screening plant:

First is transportation problem.Mobile construction waste processing equipment usually will be transferred to another from a removal scene It removes live.The advantages of existing mobile construction waste screening station running gear generally uses rubber-tyred, rubber-tyred running gear It is that equipment is readily transported transition, the disadvantage is that be equipped with corresponding trailer, turning radius is big, and tire easily pricks tire by steel scrap muscle, removes The adaptive capacity at scene is poor.The shortcomings that thering is only a few to use crawler type, rubber-tyred can be overcome, still, since equipment size is super High ultra-wide, difference are removed the transitions transport at scene, are needed the members that first disintegrate, are re-assemblied again after reaching scene, time-consuming, take Power is again costly.

Second is human problems.Existing mobile construction waste screening plant is increased at infeed belt conveyor Artificial station sorts big light materials using manual type, both increases cost of labor, and labor intensity is again big, is also unfavorable for operating Health, the safety of person.

Third is light materials separation problem.Existing mobile construction waste screening plant substantially uses selection by winnowing to separate light object Matter also has only a few to separate light materials, but generally existing light materials inferior separating effect, the wood that aggregate is mingled with using wet concentration More, aggregate product quality is not high, it is difficult to meet requirement.

The fourth is that water choosing device arrangement is improper.Existing water choosing device purging zone arranges that water tank holds with discharging region in the same direction Long-pending and purging zone is small, and water tank capacity and purging zone are small, inferior separating effect.

Utility model content

First technical problem to be solved in the utility model is to overcome existing crawler type screening plant size superelevation super Width transports inconvenient disadvantage, provides a kind of structurally reasonable, the crawler type sieve of convenient transportation sieved for being crushed building waste Subset.

Second technical problem to be solved in the utility model, which is to provide one kind, can save cost of labor, mitigate labour Intensity, the high crawler type screening plant sieved for being crushed building waste of light materials separative efficiency.

Third technical problem to be solved in the utility model is to provide a kind of water choosing device purging zone and discharge zone Domain connection and reasonable arrangement, the crawler type screening plant of good separating effect sieved for being crushed building waste.

The utility model solves technical solution used by its first technical problem: for being crushed building waste screening Crawler type screening plant, including crawler type screening station and movable type water screening device, crawler type screening station includes dynamical system System, traveling crawler, main car frame, hydraulic system, belt conveyor, feeding warehouse, subframe, sub-material storehouse；The belt conveyor by Infeed belt conveyor, return conveyer conveyer, bottom discharge belt conveyor, left side outfeed belt conveyor and right side discharging skin Band conveyer forms；The main car frame is mounted on traveling crawler, and the dynamical system is mounted on main car frame front, dynamical system Outside is equipped with piggyback pod, is mounted on main car frame by bolt；Fuel tank and hydraulic oil container are housed, right side is equipped on the left of main car frame Electrical system, the sub-material storehouse are mounted in the middle part of main car frame by bracket；Subframe top be equipped with vibrating screen, subframe two sides and Front is equipped with inspection platform, and by hinged in the middle part of pivot pin and main car frame, rear end passes through Telescopic support for the subframe front end One is connected with main car frame rear portion；The bottom discharge belt conveyor is divided into two framves, and side arm front passes through pivot pin and main car frame middle part Hingedly, side arm rear portion is connected by bracket with subframe, and after-frame front is hinged by pivot pin with side arm rear portion, and after-frame rear portion passes through Drag-line is connected with subframe；Infeed belt conveyor is divided into two framves, and side arm is connected on main car frame by support frame at two, after-frame Front is hinged by pivot pin with side arm rear portion, and after-frame rear portion is connected by Telescopic support two with subframe rear portion；The pair Vehicle frame, vibrating screen, inspection platform, bottom discharge belt conveyor and infeed belt conveyor after-frame can be used as an entirety around secondary vehicle Frame and main car frame axis swivel pin point rotate；The feeding warehouse and infeed belt conveyor integrated design, feeding warehouse be mounted on into Expect belt conveyor side arm front.The subframe, vibrating screen, inspection platform, bottom discharge belt conveyor and feed belt are defeated The machine after-frame of sending can be used as an entirety and rotate around subframe and main car frame axis swivel pin point, be convenient for collapsed transportable；The feeding warehouse It is set with infeed belt conveyor using integrated, can not only greatly reduce feeding warehouse structure size, but also make characteristics of compact layout, reduced whole Outer dimension is readily transported.

Further, the dynamical system at crawler type screening station, including engine, the engine are connected with hydraulic pump, Hydraulic pump is connected with hydraulic system, and the hydraulic system includes hydraulic motor, hydraulic cylinder, fluid pressure line；Engine driving is hydraulic Pump, transfers power to hydraulic motor by fluid pressure line, drives traveling crawler operation, vibration by corresponding hydraulic motor Sieve, belt conveyor work；It folds and stretches, inspection platform by the lifting of corresponding Driven by Hydraulic Cylinder subframe, belt conveyor It folds and stretches.

Further, the Telescopic support one between the subframe and main car frame at crawler type screening station is equipped with hydraulic cylinder One.By the hydraulic cylinder one, support frame can be driven to elongate or shorten, to make subframe and vibrating screen that can cut with scissors around with main car frame The pivot pin point rotation connect, one side vibrating screen can be adjusted the angle according to material characteristic, and apparatus adaptability is strong, on the other hand can decline Highly, it is readily transported.

Further, the retractable supports between the after-frame and subframe of the infeed belt conveyor at crawler type screening station Frame two is equipped with hydraulic cylinder two.By the hydraulic cylinder two, support frame can be driven to elongate or shorten, to make infeed belt conveyor After-frame can be rotated around the pivot pin point hinged with infeed belt conveyor side arm, i.e., infeed belt conveyor after-frame can Relative Vibration sieve Different gap is adjusted, on the one hand facilitates the cleaning of vibrating screen top layer sieve sundries, reduces labor intensity, improves working efficiency, separately On the one hand, personnel is facilitated to repair or replace sieve.

Further, equipped with hydraulic between the bottom discharge belt conveyor after-frame and subframe rear portion at crawler type screening station Cylinder three.By the hydraulic cylinder three, bottom discharge belt conveyor after-frame can be driven around hinged with bottom discharge Belt Conveying side arm Pivot pin point rotary folding is readily transported to reduce height and length.

Further, the inspection platform of the subframe two sides at crawler type screening station, is made of bottom plate and guardrail, guardrail Vertical beam is hinged by pivot pin and bottom plate；The bottom plate of every side inspection platform is hinged by pivot pin and subframe；Every side inspection platform Bottom plate is respectively arranged below with supporting beam, and one end of supporting beam is connected by bolt with bottom plate, and the other end passes through pivot pin and subframe It is connected；Every side inspection platform is equipped with connecting rod, and one end of connecting rod is connected with guardrail vertical beam, and the other end is connected with subframe；Every side inspection A hydraulic cylinder four is respectively provided between equating platform and subframe side.It is connected, can be driven by the hydraulic cylinder four and connecting rod Bottom plate is rotated around the pivot pin point hinged with subframe, while guardrail being driven to rotate around the pivot pin point hinged with bottom plate, promotes every side Inspection platform folds twice, to reduce width, is readily transported.

Further, the left side belt conveyor and right side belt conveyor at crawler type screening station are to fold twice Belt conveyor.So as to reduce height and width, it is readily transported.

The utility model solves technical solution used by its second technical problem: the vibration at crawler type screening station Dynamic sieve includes screen box, is equipped with three and half sieves: first layer sieve is equipped at the top of screen box, the area of first layer sieve only has lower layer Sieve half (therefore, also referred to as " half storey " sieve), mesh size is maximum, mainly for separating of light materials；First layer sieve Side is equipped with deflector chute, and the material outlet of first layer sieve is corresponding with deflector chute, by deflector chute directly by isolated light materials Guidance is fallen to the ground；In screen box, from top to bottom, be successively arranged three-layer screen: second layer sieve is holostrome to the 4th layer of sieve Sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh size, from second layer sieve to the 4th layer of sieve, according to The mesh size of secondary reduction, the 4th layer of sieve is minimum, to isolate the material of different dimensions sizes；The screen box of vibrating screen Sub-material storehouse is provided at material outlet, there are three cavitys in the sub-material storehouse, from the top down, the first cavity material inlet corresponding second Material outlet on layer sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third Material outlet on layer sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet the corresponding 4th Material outlet on layer sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.The structure design of three and half sieves has Three advantages: first, half storey sieve has separated the big light materials of size, so that it may cancel artificial station, thus save manually at This；Second, half storey sieve is mounted at the top of screen box, and screen box is using three-layer screen screen box, three and half vibrating screens designed in this way, The equivalent complete four layers of screen cloth vibrating screen of function, but structure size is much smaller than complete four layers of screen cloth vibrating screen, it is compact-sized, it is readily transported； Third, half storey sieve are equipped with individual deflector chute, compared to the sub-material storehouse of complete four layers of screen cloth vibrating screen, point of three and half screen cloth vibrating screens Feed bin only needs three chambers, does not need four chambers, and sub-material chamber structure is simple, reduces structure size, is readily transported.

The utility model solves technical solution used by its third technical problem: the movable type water, which chooses to install, to be installed There are two, it is located under the left side outfeed belt conveyor at crawler type screening station and the discharge end of right side outfeed belt conveyor Side, purging zone and the discharging region of the movable type water screening device are arranged vertically.It is clear due to the movable type water screening device It sweeps region to be arranged vertically with discharging region, sweep-out pattern is bigger, and water tank capacity is bigger, and separation light materials are more efficient.

The light materials are rag, wooden unit and/or sponge etc..

The screening course of work of the utility model crawler type screening plant is:

Start dynamical system and hydraulic system by electrical system, the broken building waste material of the device that is broken pass through into Feed bin falls on infeed belt conveyor, and infeed belt conveyor transports material to that Vibration Screen is online, and vibrating screen shares four layers Sieve, first layer sieve are half storey sieve, and mesh size is maximum, and material falls on half storey sieve, are greater than first layer sieve mesh ruler Very little material enters deflector chute by first layer sieve material outlet, is fallen to the ground by deflector chute guidance, mainly size The light materials such as big rag, wooden unit, sponge；Material less than first layer sieve mesh size falls on second layer sieve, is greater than the The material of two layers of sieve mesh size enters the first chamber inlet of sub-material storehouse by second layer sieve material outlet, then from The outflow of one cavity outlet falls on return conveyer conveyer, transports material to crushing device by return conveyer conveyer and breaks again It is broken；Material less than second layer sieve mesh size falls on third layer sieve, logical greater than the material of third layer sieve mesh size It crosses third layer sieve material outlet and enters the second chamber inlet of sub-material storehouse, then fall on right side from the outflow of the second cavity outlet and go out Expect belt conveyor；Material less than third layer sieve mesh size falls on the 4th layer of sieve, is greater than the 4th layer of sieve mesh ruler Very little material enters sub-material storehouse third chamber inlet by the 4th layer of sieve material outlet, then flows out from third cavity outlet Fall on left side outfeed belt conveyor；Material less than the 4th layer of screen mesh size falls on bottom discharge belt conveyor；By above-mentioned Four layers of sieve screening, material become qualified aggregate, are fallen to the ground by the conveying of bottom discharge belt conveyor；Fall on left side discharging Material on belt conveyor and right side outfeed belt conveyor, it is defeated by left side outfeed belt conveyor and right side outfeed belt Machine is sent to be transported to corresponding movable type water screening device；In movable type water screening device, light materials such as sawdust, shredded paper in material etc. It floats on the surface, side ground is fallen on by clearing apparatus cleaning by purging zone, clean aggregate then passes through mobile wet concentration The outfeed belt conveyor conveying of device is fallen to the ground.

The transportational process at the present embodiment crawler type screening station is:

When needing transition to transport, deflector chute of dismantling first；Then, dynamical system and hydraulic pressure system are started by electrical system System, the hydraulic cylinder one on Telescopic support that adjustment subframe is connected with main car frame, the hydraulic cylinder one are shunk, subframe, Vibrating screen, inspection platform, bottom discharge belt conveyor and infeed belt conveyor after-frame are cut with scissors around with main car frame as a whole The pivot pin point connect rotates counterclockwise, so that falling head, locked with pin machinery afterwards in place；Followed by adjustment infeed belt conveyor Hydraulic cylinder two on the Telescopic support that after-frame is connected with subframe, the hydraulic cylinder two are shunk, after infeed belt conveyor Frame is rotated down around the pivot pin point hinged with infeed belt conveyor side arm, so that falling head, locked with pin machinery afterwards in place； Followed by the bolt for unclamping supporting beam and bottom plate, supporting beam is pulled to, adjustment side inspection platform parallel with subframe to subframe The hydraulic cylinder four being connected with subframe, the hydraulic cylinder four are shunk, and bottom plate is rotated around the pivot pin point hinged with subframe, are protected simultaneously Column is rotated around the pivot pin point hinged with bottom plate, promotes every side inspection platform to fold twice, to reduce plant width；Followed by tune The hydraulic cylinder three of whole left side belt conveyor and right side belt conveyor, the hydraulic cylinder three are shunk, left side belt conveyor and Belt conveyor folding in right side reduces plant width twice；Finally adjustment bottom discharge belt conveyor after-frame is connected with subframe Hydraulic cylinder three, the hydraulic cylinder three shrink, and bottom discharge belt conveyor after-frame is around hinged with bottom discharge belt conveyor side arm Pivot pin point rotates upwards, to fold reduction device length.After above-mentioned steps end of operation, length, width, the height at station are sieved Greatly reduce, screening station can directly be opened to the shipping platform whole Transporting of upper low-floor trailer.

The crawler type screening station of the utility model uses full hydraulic drive, small in size, flexible arrangement, compact-sized.Belt Conveyer and inspection platform are foldable, subframe liftable.Overall dimension can be significantly reduced by above-mentioned measure, convenient for fortune It is defeated.

The crawler type screening plant of the utility model has the features such as easy to operate, convenient transportation, high-efficient, suitable for building The broken material screening of building refuse, isolates the light materials such as plastics, wood, rag, paper, to obtain meeting requirement Qualified aggregate product.

Detailed description of the invention

Fig. 1 is the screening station shaft side figure of an embodiment of the present invention；

Fig. 2 is the screening station left hand view of an embodiment of the present invention；

Fig. 3 is vibrating screen (for convenient for seeing figure, every layer of sieve is hidden) shaft side figure of an embodiment of the present invention；

Fig. 4 is the sub-material storehouse shaft side figure of an embodiment of the present invention；

Fig. 5 is the inspection platform and subframe shaft side figure of an embodiment of the present invention；

Fig. 5-1 is I partial enlarged view of Fig. 5；

Fig. 5-2 is II partial enlarged view of Fig. 5；

Fig. 6 is the movable type water screening device shaft side figure of an embodiment of the present invention；

Fig. 7 is the equipment screening process schematic diagram of an embodiment of the present invention；

Fig. 8 is the screening station transport diagram of an embodiment of the present invention.

In figure: 1. left side outfeed belt conveyors, 2. dynamical systems, 3. infeed belt conveyors, 3-1. feed belt are defeated Send machine side arm, 3-2. infeed belt conveyor after-frame, 4. return conveyer conveyers, 5. feeding warehouses, 6. support frames one, 7. power Cabin, 8. electrical systems, 9. right side outfeed belt conveyors, 10. support frames two, 11. the first cavitys of sub-material storehouse .11-1. sub-material storehouse Entrance, the second chamber inlet of 11-2. sub-material storehouse, 11-3. sub-material storehouse third chamber inlet, 11-4. sub-material storehouse third cavity outlet, The second cavity outlet of 11-5. sub-material storehouse, the first cavity outlet of 11-6. sub-material storehouse, 12. support frames three, 13. traveling crawlers, 14. inspections Equating platform, 14-1. inspection platform guardrail, 14-1-1. inspection platform vertical beam, 14-2. inspection platform bottom plate, 15. vibrating screens, 15- 1. vibrating screen second layer sieve material outlet, 15-2. vibrating screen third layer sieve material outlet, the 4th layer of 15-3. vibrating screen sieve Net material outlet, 15-4. vibrating screen second layer sieve, 15-5. vibrating screen third layer sieve, the 4th layer of sieve of 15-6. vibrating screen, 15-7. vibrating screen first layer sieve material outlet, 15-8. vibrating screen first layer sieve, 16. main car frames, 17. hydraulic cylinders one, 18. Telescopic support one, 19. bottom discharge belt conveyors, 19-1. bottom discharge belt conveyor after-frame, 19-2. bottom discharge belt Conveyer side arm, 20. hydraulic cylinders three, 21. deflector chutes, 22. Telescopic supports two, 23. hydraulic cylinders two, 24. brackets, 25. is secondary Vehicle frame, 26. pins one, 27. pins two, 28. fuel tanks, 29. hydraulic oil containers, 30. hydraulic cylinders four, 31. connecting rods, 32. supporting beams, 33. Movable type water screening device, 33-1. clearing apparatus, 33-2. outfeed belt conveyor, 34. low-floor trailers, 35. crushing devices, 36 Hydraulic system.

Specific embodiment

Below in conjunction with drawings and examples, the utility model is described in further detail.

- Fig. 7 referring to Fig.1, the crawler type screening plant of the present embodiment, including crawler type screening station and movable type water choose to install Set, crawler type screening station include dynamical system 2, traveling crawler 13, main car frame 16, hydraulic system 36, belt conveyor, into Feed bin 5, subframe 25, sub-material storehouse 11；The belt conveyor by infeed belt conveyor 3, return conveyer conveyer 4, it is lower go out Expect that belt conveyor 19, left side outfeed belt conveyor 1 and right side outfeed belt conveyor 9 form；The main car frame 16 is installed On traveling crawler 13, the dynamical system 2 is mounted on the front of main car frame 16, and piggyback pod 7 is housed outside dynamical system 2, is led to Bolt is crossed to be mounted on main car frame 16；Fuel tank 28 and hydraulic oil container 29 are housed, right side is equipped with electrical system on the left of main car frame 16 8, the sub-material storehouse 11 is mounted on the middle part of main car frame 16 by bracket；The top of subframe 25 is equipped with vibrating screen 15, subframe 25 two sides and front are equipped with inspection platform 14, and 25 front end of subframe is hinged by pivot pin and 16 middle part of main car frame, and rear end is logical Telescopic support one is crossed to be connected with 16 rear portion of main car frame；The bottom discharge belt conveyor 19 is divided into two framves, before side arm 19-2 Portion is hinged by pivot pin and 16 middle part of main car frame, and the rear portion side arm 19-2 is connected by bracket with subframe 25, the front after-frame 19-1 Hinged by pivot pin with the rear portion side arm 19-2, the rear portion after-frame 19-1 is connected by drag-line with subframe 25；Infeed belt conveyor 3 It is divided into two framves, side arm 3-1 is connected on main car frame 16 by support frame 1 and support frame 2 10, the front after-frame 3-2 and side arm 3- 1 rear portion is hinged by pivot pin, and the rear portion after-frame 3-2 is connected by Telescopic support 2 22 with 25 rear portion of subframe；The pair vehicle Frame 25, vibrating screen 15, inspection platform 14, bottom discharge belt conveyor 19 and 3 after-frame of infeed belt conveyor can be used as one it is whole Body is rotated around subframe 25 and 16 axis swivel pin point of main car frame；The feeding warehouse 5 and 3 integrated design of infeed belt conveyor, Feeding warehouse 5 is mounted on 3 side arm front of infeed belt conveyor.

The dynamical system 2 at crawler type screening station, including engine, the engine are connected with hydraulic pump, hydraulic pump It is connected with hydraulic system 36, the hydraulic system 36 includes hydraulic motor, hydraulic cylinder, fluid pressure line；Engine driven Hydraulic Pump, Hydraulic motor is transferred power to by fluid pressure line, drives traveling crawler 13 to run by corresponding hydraulic motor, vibrating screen 15 and each belt conveyor work；It folds and stretches by the lifting of corresponding Driven by Hydraulic Cylinder subframe 25, each belt conveyor Exhibition, inspection platform 14 fold and stretching, extension.

Telescopic support 1, scalable branch are equipped between the subframe 25 and main car frame 16 at crawler type screening station Support 1 is equipped with hydraulic cylinder 1.Telescopic support 1 can be driven to elongate or shorten by hydraulic cylinder 1, to make Subframe 25 and vibrating screen 15 can be rotated around the pivot pin point hinged with main car frame 16, thus it is possible, on the one hand, can root convenient for vibrating screen 15 Adjusted the angle according to material characteristic, enhance apparatus adaptability, on the other hand, can falling head, be readily transported.

Telescopic support is equipped between the infeed belt conveyor after-frame 3-2 and subframe 25 at crawler type screening station 2 22, Telescopic support 2 22 is equipped with hydraulic cylinder 2 23.Telescopic support 2 22 can be driven to extend by hydraulic cylinder 2 23 Or shorten, to make infeed belt conveyor after-frame 3-2 that can revolve around the pivot pin point hinged with infeed belt conveyor side arm 3-1 Turn, i.e. infeed belt conveyor after-frame 3-2 can Relative Vibration sieve 15 adjust different gaps, thus it is possible, on the one hand, facilitating vibrating screen 15 most The cleaning of upper screen (first layer sieve) sundries, reduces labor intensity, and improves working efficiency and on the other hand personnel is facilitated to tie up Repair or replace sieve.

Equipped with hydraulic between 25 rear portion bottom discharge belt conveyor after-frame 19-1 and subframe at crawler type screening station Cylinder 3 20.By hydraulic cylinder 3 20, can drive bottom discharge belt conveyor after-frame 19-1 around with bottom discharge Belt Conveying side arm 19- 2 hinged pivot pin point rotary foldings are readily transported to reduce height and length.

The inspection platform 14 of 16 two sides of subframe at crawler type screening station is mainly by bottom plate 14-2 and guardrail 14-1 group At the vertical beam 14-1-1 of guardrail 14-1 is hinged by pivot pin and bottom plate 14-2, shares at 7；The bottom plate 14-2 of every side inspection platform It is hinged by pivot pin and subframe 25, also share at 7；There is a supporting beam 32 below the bottom plate 14-2 of every side inspection platform, 32 one end of supporting beam is connected by bolt with bottom plate 14-2, and the other end is connected by pivot pin with subframe 25；Every side inspection platform There are two connecting rods 31,31 one end of connecting rod is connected with guardrail vertical beam 14-1-1, and the other end is connected with subframe 25；Every side inspection platform One hydraulic cylinder 4 30 is housed between 14 and 25 side of subframe, is connected by hydraulic cylinder 4 30 and connecting rod 31, bottom plate can be driven 14-2 is rotated around the pivot pin point hinged with subframe 25, while guardrail 14-1 being driven to revolve around the pivot pin point hinged with bottom plate 14-2 Turn, every side inspection platform 14 can be folded twice, to reduce width, be readily transported.

The left side belt conveyor 1 and right side belt conveyor 9 at crawler type screening station is selected and can be folded twice Belt conveyor, consequently facilitating reducing height and width, convenient transportation.

Crawler type screening station uses full hydraulic drive, small in size, flexible arrangement, compact-sized.Belt conveyor and Inspection platform 14 is foldable, 25 liftable of subframe.By above-mentioned measure, overall dimension can be significantly reduced and be readily transported.

The vibrating screen 15 at crawler type screening station includes screen box, and sieve is designed to three and half sieves: being equipped at the top of screen box First layer sieve 15-8；The screen area of first layer sieve 15-8 only has lower screen half (therefore being also referred to as " half storey sieve "), Mesh size is maximum, is mainly used to separate the light materials such as rag, wooden unit, the sponge of bulk；It is set on the right side of first layer sieve 15-8 There is deflector chute 21, the material outlet 15-7 of first layer sieve corresponds to deflector chute 21, directly light materials guided by deflector chute 21 It falls to the ground；It is equipped with three-layer screen in screen box and is followed successively by second layer sieve 15-4, third layer sieve 15-5, the 4th from top to bottom Layer sieve 15-6, second layer sieve 15-4, third layer sieve 15-5, the 4th layer of sieve 15-6 are holostrome sieve, every layer of sieve Area covering sieve box of vibrating cavity is whole, and sieve mesh size is successively reduced, and the mesh size of the 4th layer of sieve is minimum, thus Isolate the material of different dimensions sizes；Sub-material storehouse 11 is equipped at vibrating screen material outlet, there are three cavitys in sub-material storehouse 11； From the top down, the first chamber inlet 11-1 corresponds to material outlet 15-1 on vibrating screen second layer sieve, the first cavity outlet 11-6 Corresponding return conveyer conveyer 4；Second chamber inlet 11-2 corresponds to material outlet 15-2, the second chamber on vibrating screen third layer sieve Body exports the corresponding right side outfeed belt conveyor 9 of 11-5；Third chamber inlet 11-3 corresponds to material on the 4th layer of sieve of vibrating screen Export 15-3, the corresponding left side outfeed belt conveyor 1 of third cavity outlet 11-4.There are three excellent for the structure design of three and half sieves Point: first, existing equipment is all to increase artificial station in infeed belt conveyor 3, using big light of manual type sorting size Substance, the utility model half storey sieve (i.e. first layer sieve) have separated the big light materials of size, so that it may cancel artificial station, To save the cost；Second, the utility model half storey sieve is mounted at the top of screen box, screen box using three-layer screen screen box, Three and half vibration screens designed in this way, the equivalent complete four layers of screen cloth vibrating screen of function, but structure size are much smaller than complete four layers of sieve Vibrating screen, it is compact-sized, it is readily transported；Third, half storey sieve is equipped with individual deflector chute, compared to complete four layers of screen cloth vibrating screen The sub-material storehouse in sub-material storehouse, three and half screen cloth vibrating screens only needs three chambers, does not need four chambers, and sub-material chamber structure is simple, reduces structure Size is more convenient for transporting.

The left side outfeed belt conveyor 1 at crawler type screening station, the discharge end of right side outfeed belt conveyor 9 are distinguished Equipped with a movable type water screening device 33, purging zone and the discharging region of movable type water screening device 33 are arranged vertically.Due to this 33 purging zone of utility model movable type water screening device is arranged vertically with discharging region, and sweep-out pattern is bigger, and water tank capacity is bigger, Thus separation light materials are more efficient.

The screening course of work of the present embodiment crawler type screening plant is:

Start dynamical system 2 by electrical system 8 and hydraulic system 36, broken material fall on charging through feeding warehouse 5 Belt conveyor 3, infeed belt conveyor 3 transport material on 15 sieve of vibrating screen, and vibrating screen shares four layers of sieve.First Layer sieve is half storey sieve 15-8, and mesh size is maximum, and material falls on first layer sieve 15-8, is greater than first layer sieve 15-8 net The material of pore size enters deflector chute 21 by first layer sieve material outlet 15-7, falls on ground by the guidance of deflector chute 21 Face, the mainly light materials such as the rag, wooden unit of bulk, sponge；Material less than first layer sieve 15-8 mesh size falls on Two layers of sieve 15-4, the material greater than second layer sieve 15-4 mesh size are entered by second layer sieve material outlet 15-1 Then sub-material storehouse the first chamber inlet 11-1 flows out from the first cavity outlet 11-6, return conveyer conveyer 4 is fallen on, by returning Material belt conveyor 4 transports material to crushing device 35 and is crushed again；Less than the material of second layer sieve 15-4 mesh size Third layer sieve 15-5 is fallen on, the material greater than third layer sieve 15-5 mesh size exports 15-2 by third layer sieve aggregate Sub-material storehouse the second chamber inlet 11-2 is entered, then falls on right side outfeed belt conveyor from the second cavity outlet 11-5 outflow 9；Material less than third layer sieve 15-5 mesh size falls on the 4th layer of sieve 15-6, is greater than the 4th layer of sieve 15-6 mesh ruler Very little material enters sub-material storehouse third chamber inlet 11-3 by the 4th layer of sieve material outlet 15-3, then from third cavity Outlet 11-4 outflow falls on left side outfeed belt conveyor 1；Material less than the 4th layer of sieve 15-6 mesh size falls on down Expect belt conveyor 19, screened by above-mentioned four layers of sieve, material becomes qualified aggregate, passes through bottom discharge belt conveyor 19 conveyings are fallen to the ground；The material on left side outfeed belt conveyor 1 and right side outfeed belt conveyor 9 is fallen on, left side is passed through Outfeed belt conveyor 1 and right side outfeed belt conveyor 9 are transported to corresponding movable type water screening device 33；In mobile wet concentration In device 33, light materials such as sawdust, shredded paper in material etc. float on the surface, and are cleared away by purging zone by clearing apparatus 33-1 Side ground is fallen on, the outfeed belt conveyor 33-2 conveying that clean aggregate then passes through movable type water screening device 33 falls on ground Face.

The transportational process at the present embodiment crawler type screening station is:

- Fig. 8 referring to Fig.1, when needing transition to transport, deflector chute 21 of dismantling first；Then, started by electrical system 8 Dynamical system 2 and hydraulic system 36, the hydraulic cylinder on Telescopic support 1 that adjustment subframe 25 is connected with main car frame 16 One 17, hydraulic cylinder 1 is shunk, subframe 25, vibrating screen 15, inspection platform 14, bottom discharge belt conveyor 19 and feed belt Conveyer after-frame 3-2 is rotated around the pivot pin point hinged with main car frame 16 counterclockwise as a whole, thus falling head, in place It is mechanical locked with pin 2 27 afterwards；The retractable supports being connected followed by adjustment infeed belt conveyor after-frame 3-2 with subframe 25 Hydraulic cylinder 3 23 on frame 2 22, hydraulic cylinder 3 23 shrink, infeed belt conveyor after-frame 3-2 around with before infeed belt conveyor Frame 3-1 hinged pivot pin point is rotated down, so that falling head, mechanical locked with pin 1 afterwards in place；It is supported followed by unclamping Supporting beam 32 is pulled, adjustment side inspection platform 14 parallel with subframe 25 to subframe 25 by the bolt of beam 32 and bottom plate 14-2 The hydraulic cylinder 4 30 being connected with subframe 25, hydraulic cylinder 4 30 are shunk, and bottom plate 14-2 is revolved around the pivot pin point hinged with subframe 25 Turn, while guardrail 14-1 is rotated around the pivot pin point hinged with bottom plate 14-2, promotes every side inspection platform 14 to fold twice, to drop Low plant width；Followed by the hydraulic cylinder of adjustment left side belt conveyor 1 and right side belt conveyor 9, the hydraulic cylinder is shunk, Left side belt conveyor 1 and the folding of right side belt conveyor 9 reduce plant width twice；Finally adjust bottom discharge belt conveyor The hydraulic cylinder 2 20 that after-frame 19-1 is connected with subframe 25, hydraulic cylinder 2 20 shrink, bottom discharge belt conveyor after-frame 19-1 around Hinged pivot pin point rotates upwards with bottom discharge belt conveyor side arm 19-2, to fold reduction device length.Above-mentioned steps It after end of operation, sieves the length at station, width, highly greatly reduce, screening station can directly be opened to the fortune of upper low-floor trailer 34 Defeated platform whole Transporting.

Claims (31)

1. the crawler type screening plant for being crushed building waste screening, including crawler type screening station and movable type water screening device, Crawler type screening station includes dynamical system, traveling crawler, main car frame, hydraulic system, belt conveyor, feeding warehouse, secondary vehicle Frame, sub-material storehouse；The belt conveyor is by infeed belt conveyor, return conveyer conveyer, bottom discharge belt conveyor, left side Outfeed belt conveyor and right side outfeed belt conveyor composition；The main car frame is mounted on traveling crawler, the dynamical system System is mounted on main car frame front, and piggyback pod is housed outside dynamical system, is mounted on main car frame by bolt；Dress on the left of main car frame There are fuel tank and hydraulic oil container, right side is equipped with electrical system, and the sub-material storehouse is mounted in the middle part of main car frame by bracket；Subframe Top is equipped with vibrating screen, and subframe two sides and front are equipped with inspection platform, which is characterized in that the subframe front end passes through pivot pin Hinged with main car frame middle part, rear end is connected by Telescopic support one with main car frame rear portion；The bottom discharge belt conveyor It is divided into two framves, side arm front is by hinged in the middle part of pivot pin and main car frame, and side arm rear portion is connected by bracket with subframe, before after-frame Portion is hinged by pivot pin with side arm rear portion, and after-frame rear portion is connected by drag-line with subframe；Infeed belt conveyor is divided into two framves, Side arm is connected on main car frame by support frame at two, and after-frame front is hinged by pivot pin with side arm rear portion, and after-frame rear portion passes through Telescopic support two is connected with subframe rear portion；The subframe, vibrating screen, inspection platform, bottom discharge belt conveyor and Infeed belt conveyor after-frame can be used as an entirety and rotate around subframe and main car frame axis swivel pin point；The feeding warehouse with into Expect belt conveyor integrated design, feeding warehouse is mounted on infeed belt conveyor side arm front.

2. as described in claim 1 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the crawler belt The dynamical system at formula screening station, including engine, the engine are connected with hydraulic pump, and hydraulic pump is connected with hydraulic system, institute Stating hydraulic system includes hydraulic motor, hydraulic cylinder, fluid pressure line；Engine driven Hydraulic Pump is passed power by fluid pressure line It is delivered to each hydraulic motor, traveling crawler operation, vibrating screen, belt conveyor work are driven by corresponding hydraulic motor；Pass through phase It answers the lifting of Driven by Hydraulic Cylinder subframe, belt conveyor to fold and stretching, extension, inspection platform fold and stretching, extension.

3. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described Telescopic support one between the subframe and main car frame at crawler type screening station is equipped with hydraulic cylinder one.

4. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described Telescopic support two between the after-frame and subframe of the infeed belt conveyor at crawler type screening station is equipped with hydraulic cylinder two.

5. as claimed in claim 3 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the crawler belt Telescopic support two between the after-frame and subframe of the infeed belt conveyor at formula screening station is equipped with hydraulic cylinder two.

6. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described Hydraulic cylinder three is housed between the bottom discharge belt conveyor after-frame and subframe rear portion at crawler type screening station.

7. as claimed in claim 3 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the crawler belt Hydraulic cylinder three is housed between the bottom discharge belt conveyor after-frame and subframe rear portion at formula screening station.

8. as claimed in claim 4 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the crawler belt Hydraulic cylinder three is housed between the bottom discharge belt conveyor after-frame and subframe rear portion at formula screening station.

9. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described The inspection platform of the subframe two sides at crawler type screening station, is made of bottom plate and guardrail, and the vertical beam of guardrail passes through pivot pin and bottom plate Hingedly；The bottom plate of every side inspection platform is hinged by pivot pin and subframe；The bottom plate of every side inspection platform is respectively arranged below with branch Beam is supportted, one end of supporting beam is connected by bolt with bottom plate, and the other end is connected by pivot pin with subframe；Every side inspection platform is set There is connecting rod, one end of connecting rod is connected with guardrail vertical beam, and the other end is connected with subframe；Every side inspection platform and subframe side it Between be respectively provided with a hydraulic cylinder four.

10. as claimed in claim 3 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The inspection platform of the subframe two sides of band screen substation, is made of bottom plate and guardrail, and the vertical beam of guardrail is cut with scissors by pivot pin and bottom plate It connects；The bottom plate of every side inspection platform is hinged by pivot pin and subframe；The bottom plate of every side inspection platform is respectively arranged below with support One end of beam, supporting beam is connected by bolt with bottom plate, and the other end is connected by pivot pin with subframe；Every side inspection platform is equipped with One end of connecting rod, connecting rod is connected with guardrail vertical beam, and the other end is connected with subframe；Between every side inspection platform and subframe side It is respectively provided with a hydraulic cylinder four.

11. as claimed in claim 4 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The inspection platform of the subframe two sides of band screen substation, is made of bottom plate and guardrail, and the vertical beam of guardrail is cut with scissors by pivot pin and bottom plate It connects；The bottom plate of every side inspection platform is hinged by pivot pin and subframe；The bottom plate of every side inspection platform is respectively arranged below with support One end of beam, supporting beam is connected by bolt with bottom plate, and the other end is connected by pivot pin with subframe；Every side inspection platform is equipped with One end of connecting rod, connecting rod is connected with guardrail vertical beam, and the other end is connected with subframe；Between every side inspection platform and subframe side It is respectively provided with a hydraulic cylinder four.

12. as claimed in claim 6 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The inspection platform of the subframe two sides of band screen substation, is made of bottom plate and guardrail, and the vertical beam of guardrail is cut with scissors by pivot pin and bottom plate It connects；The bottom plate of every side inspection platform is hinged by pivot pin and subframe；The bottom plate of every side inspection platform is respectively arranged below with support One end of beam, supporting beam is connected by bolt with bottom plate, and the other end is connected by pivot pin with subframe；Every side inspection platform is equipped with One end of connecting rod, connecting rod is connected with guardrail vertical beam, and the other end is connected with subframe；Between every side inspection platform and subframe side It is respectively provided with a hydraulic cylinder four.

13. as claims 1 or 2 states the crawler type screening plant for being crushed building waste screening, which is characterized in that the shoe The left side belt conveyor and right side belt conveyor of band screen substation are the belt conveyor that can be folded twice.

14. as claim 3 states the crawler type screening plant for being crushed building waste screening, which is characterized in that the crawler belt The left side belt conveyor and right side belt conveyor at formula screening station are the belt conveyor that can be folded twice.

15. as claim 4 states the crawler type screening plant for being crushed building waste screening, which is characterized in that the crawler belt The left side belt conveyor and right side belt conveyor at formula screening station are the belt conveyor that can be folded twice.

16. as claim 6 states the crawler type screening plant for being crushed building waste screening, which is characterized in that the crawler belt The left side belt conveyor and right side belt conveyor at formula screening station are the belt conveyor that can be folded twice.

17. as claim 9 states the crawler type screening plant for being crushed building waste screening, which is characterized in that the crawler belt The left side belt conveyor and right side belt conveyor at formula screening station are the belt conveyor that can be folded twice.

18. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described The vibrating screen at crawler type screening station includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, and first The area of layer sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve Equipped with deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Second layer sieve is holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

19. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described The vibrating screen at crawler type screening station includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, and first The area of layer sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve Equipped with deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Second layer sieve is holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

20. as claimed in claim 3 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The vibrating screen of band screen substation includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, first layer The area of sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve is set There is deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Two layers of sieve are holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

21. as claimed in claim 4 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The vibrating screen of band screen substation includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, first layer The area of sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve is set There is deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Two layers of sieve are holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

22. as claimed in claim 6 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The vibrating screen of band screen substation includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, first layer The area of sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve is set There is deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Two layers of sieve are holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

23. as claimed in claim 9 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The vibrating screen of band screen substation includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, first layer The area of sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve is set There is deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Two layers of sieve are holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

24. as claimed in claim 13 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shoe The vibrating screen of band screen substation includes screen box, is equipped with three and half sieves, and the top of the screen box is equipped with first layer sieve, first layer The area of sieve only has lower screen half, and mesh size is maximum, mainly for separating of light materials；The side of first layer sieve is set There is deflector chute, the material outlet of first layer sieve is corresponding with deflector chute；In screen box, from top to bottom, it is successively arranged three-layer screen: Two layers of sieve are holostrome sieve, every layer of screen area covering sieve box of vibrating cavity is whole, mesh ruler to the 4th layer of sieve It is very little, it from second layer sieve to the 4th layer of sieve, successively reduces, the mesh size of the 4th layer of sieve is minimum；The screen box object of vibrating screen Expect the sub-material storehouse of exit setting, there are three cavitys in the sub-material storehouse, and from the top down, the first cavity material inlet corresponds to the second layer Material outlet on sieve, the first cavity material outlet correspond to return conveyer conveyer；Second cavity material inlet corresponds to third layer Material outlet on sieve, the corresponding right side outfeed belt conveyor of the second cavity outlet；Third cavity material inlet is 4th layer corresponding Material outlet on sieve, the corresponding left side outfeed belt conveyor of third cavity material outlet.

25. as claimed in claim 1 or 2 for being crushed the crawler type screening plant of building waste screening, which is characterized in that described There are two movable type water screening device is set, it is located at the left side outfeed belt conveyor and right side outfeed belt at crawler type screening station Below the discharge end of conveyer, purging zone and the discharging region of the movable type water screening device are arranged vertically.

26. as claimed in claim 3 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shifting There are two dynamic formula water choosing device is set, left side outfeed belt conveyor and the right side outfeed belt for being located at crawler type screening station are defeated Below the discharge end for sending machine, purging zone and the discharging region of the movable type water screening device are arranged vertically.

27. as claimed in claim 4 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shifting There are two dynamic formula water choosing device is set, left side outfeed belt conveyor and the right side outfeed belt for being located at crawler type screening station are defeated Below the discharge end for sending machine, purging zone and the discharging region of the movable type water screening device are arranged vertically.

28. as claimed in claim 6 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shifting There are two dynamic formula water choosing device is set, left side outfeed belt conveyor and the right side outfeed belt for being located at crawler type screening station are defeated Below the discharge end for sending machine, purging zone and the discharging region of the movable type water screening device are arranged vertically.

29. as claimed in claim 9 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shifting There are two dynamic formula water choosing device is set, left side outfeed belt conveyor and the right side outfeed belt for being located at crawler type screening station are defeated Below the discharge end for sending machine, purging zone and the discharging region of the movable type water screening device are arranged vertically.

30. as claimed in claim 13 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shifting There are two dynamic formula water choosing device is set, left side outfeed belt conveyor and the right side outfeed belt for being located at crawler type screening station are defeated Below the discharge end for sending machine, purging zone and the discharging region of the movable type water screening device are arranged vertically.

31. as claimed in claim 18 for being crushed the crawler type screening plant of building waste screening, which is characterized in that the shifting There are two dynamic formula water choosing device is set, left side outfeed belt conveyor and the right side outfeed belt for being located at crawler type screening station are defeated Below the discharge end for sending machine, purging zone and the discharging region of the movable type water screening device are arranged vertically.