CN218189891U - Portable retired wind-powered electricity generation blade reducing mechanism - Google Patents

Portable retired wind-powered electricity generation blade reducing mechanism Download PDF

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Publication number
CN218189891U
CN218189891U CN202222013393.2U CN202222013393U CN218189891U CN 218189891 U CN218189891 U CN 218189891U CN 202222013393 U CN202222013393 U CN 202222013393U CN 218189891 U CN218189891 U CN 218189891U
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crushing
box
crushed aggregates
fan blade
wind
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CN202222013393.2U
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黄凯
褚永怡
濮佳辉
李英顺
王炜
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SHANGHAI XINJINQIAO ENVIRONMENTAL PROTECTION CO Ltd
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SHANGHAI XINJINQIAO ENVIRONMENTAL PROTECTION CO Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

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Abstract

The utility model relates to a wind-powered electricity generation blade field of retrieving discloses a portable decommissioning wind-powered electricity generation blade reducing mechanism, including the box, seted up the feed inlet on the box, be provided with first rubbing crusher and vibration classification mechanism in the box, be provided with the receipts magazine in the box, be provided with the regrinding case on the lateral wall of box, the regrinding incasement is provided with second rubbing crusher, sets up on the regrinding case and is used for the crushed aggregates import and the crushed aggregates export that are linked together with the box inner chamber. This application has and can carry out shredding again to the fan blade crushed aggregates that is not conform to the recovery standard through using regrinding case and second rubbing crusher to construct, and the staff need not to carry the fan blade crushed aggregates, and fan blade crushed aggregates and fan blade can carry out shredding simultaneously to improved reducing mechanism and to wind-powered electricity generation blade kibbling efficiency and smashed more labour saving and time saving of fan blade, reached and improved the reducing mechanism and smashed the effect that wastes time and energy and smash the inefficiency to wind-powered electricity generation blade.

Description

Movable decommissioning wind power blade smashing device
Technical Field
The application relates to the field of wind-powered electricity generation blade recovery, especially relate to a portable decommissioning wind-powered electricity generation blade reducing mechanism.
Background
The wind power blade is a core component for converting natural wind energy into electric energy of a wind generating set in the wind generating set and is also a main basis for measuring design and technical level of the wind generating set. The waste and old retired wind power blades can be recycled after being subjected to crushing treatment through the crushing device.
At present, wind-powered electricity generation blade's reducing mechanism includes the box, has seted up the feed inlet on the box, is provided with rubbing crusher structure and vibration classification mechanism in the box, and wind-powered electricity generation blade is followed feed inlet department and is put into the box, and rubbing crusher structure smashes wind-powered electricity generation blade, and vibration classification mechanism is located the rubbing crusher structure below, and the box is located vibration classification mechanism below department and is provided with the material receiving box. The crushed wind power blade crushed aggregates that is smashed by crushing mechanism drops to vibration classification mechanism on, vibration classification mechanism sieves wind power blade crushed aggregates, and the crushed aggregates that accords with the recovery standard pass vibration classification mechanism and drop to in the material collecting box, and the crushed aggregates that do not accord with the recovery standard are stopped by vibration classification mechanism and are sieved, and the staff will be sieved the crushed aggregates that is not conform to the recovery standard and put into the box once more from the feed inlet to carry out crushing processing once more to the crushed aggregates.
To the correlation technique among the above-mentioned, the wind-powered electricity generation blade crushed aggregates after the screening need be carried by the staff to add to the box in from the feed inlet department of box, increased staff's work load, and the wind-powered electricity generation blade crushed aggregates after the screening need wait for the wind-powered electricity generation blade to smash and just can smash once more after accomplishing, make the whole crushing efficiency of wind-powered electricity generation blade lower, the inventor thinks that there is reducing mechanism to smash the wind-powered electricity generation blade and wastes time and energy and smash the defect that inefficiency.
SUMMERY OF THE UTILITY MODEL
In order to improve the reducing mechanism and smash the problem that wastes time and energy and smash inefficiency to the wind-powered electricity generation blade, this application provides a portable decommissioning wind-powered electricity generation blade reducing mechanism.
The application provides a portable decommissioning wind-powered electricity generation blade reducing mechanism adopts following technical scheme:
the utility model provides a portable decommissioning wind-powered electricity generation blade reducing mechanism, includes the box, has seted up the feed inlet on the box, is provided with first rubbing crusher in the box, lies in first rubbing crusher below department in the box and is provided with vibration classification mechanism, lies in vibration classification mechanism below department in the box and is provided with collecting box, its characterized in that: be provided with the regrinding case on the lateral wall of box, the regrinding incasement is provided with second rubbing crusher and constructs, set up on the regrinding case and be used for the crushed aggregates import and the crushed aggregates export that are linked together with the box inner chamber, just the crushed aggregates import is located the regrinding case and is close to vibration classification mechanism department, the crushed aggregates export is located the regrinding case and is close to receipts magazine department.
Through adopting the above-mentioned technical scheme, when fan blade to old and useless retirement smashes, put into the box with fan blade from feed inlet department, first rubbing crusher constructs shredding to fan blade, fan blade crushed aggregates after smashing drops to vibration classification mechanism on, vibration classification mechanism sieves wind-powered electricity generation blade crushed aggregates, the crushed aggregates that accord with the recovery standard pass vibration classification mechanism and drop to in the material collecting box, the fan blade crushed aggregates that are not conform to the recovery standard are stopped by vibration classification mechanism, and vibration classification mechanism carries fan blade crushed aggregates to the regrinding incasement from the crushed aggregates import department, the second rubbing crusher of regrinding incasement constructs shredding again to fan blade crushed aggregates, the fan blade crushed aggregates that regrind drops to in the material collecting box from the crushed aggregates exit. So set up, carry out shredding again to the fan blade crushed aggregates that is not conform to the recovery standard through using regrinding case and second rubbing crusher to construct, the staff need not to carry fan blade crushed aggregates, and fan blade crushed aggregates and fan blade can carry out shredding simultaneously to the reducing mechanism has been improved and wind-powered electricity generation blade kibbling efficiency and has been smashed fan blade labour saving and time saving more.
Preferably, first rubbing crusher constructs including first driving piece and two first crushing rollers, two first crushing roller all rotates the setting and is located the below department of feed inlet at the box, first driving piece sets up on the box lateral wall and is connected with two first crushing roller transmissions.
Through adopting above-mentioned technical scheme, when smashing fan blade, two first crushing rollers of first driving piece drive rotate, and two first crushing rollers rotate towards the direction that is close to each other to smash fan blade.
Preferably, vibration classification mechanism includes screening board and vibrating part, the vibrating part sets up in the box, the screening board sets up on the vibrating part and is located first crushing roller below department, a plurality of sieve meshes have been seted up on the screening board, the slope of screening board sets up, just the lower one end of screening board height is located the crushed aggregates and enters the mouth.
Through adopting above-mentioned technical scheme, by the kibbling fan blade crushed aggregates drop on the screening board, the vibrating piece drives the screening board of slope and vibrates, the lower one side of screening board is removed towards the screening board to the fan blade crushed aggregates on the screening board of screening board vibration drive, the fan blade crushed aggregates that accord with the recovery standard drop from the sieve mesh in the removal process, the fan blade crushed aggregates that are not conform to the recovery standard remove to crushed aggregates import department through the screening board, and drop to the regrinding incasement from the crushed aggregates import, thereby make the fan blade crushed aggregates that are not conform to the recovery standard carry out crushing treatment once more.
Preferably, the second crushing mechanism comprises a second driving part and two second crushing rollers, the second crushing rollers are all rotatably arranged in the secondary crushing box, and the second driving part is arranged on the outer side wall of the secondary crushing box and is in transmission connection with the two second crushing rollers.
Through adopting above-mentioned technical scheme, when smashing fan blade crushed aggregates, the roller is smashed to two second of second driving piece drive, and two second are smashed the roller and are rotated towards the direction of being close to each other to smash fan blade crushed aggregates.
Preferably, the first crushing roller comprises a first roller body and a plurality of first crushing gears, the first crushing gears are fixedly mounted on the first roller body at intervals, the second crushing roller comprises a second roller body and a plurality of second crushing gears, the second crushing gears are fixedly mounted on the second roller body at intervals, and the second crushing gears are spaced at intervals and are smaller than the first crushing gears.
Through adopting above-mentioned technical scheme, first driving piece drives first roll body and rotates, first roll body drives a plurality of first crushing gears and rotates, thereby smash fan blade, the second driving piece drives the second roll body and rotates, the second roll body drives a plurality of second crushing gears and rotates, thereby smash fan blade crushed aggregates once more, the spacing distance between a plurality of second crushing gears is less than the spacing distance between a plurality of first crushing gears, make the material after being smashed by the second crushing roller littleer, thereby make the fan blade crushed aggregates that are not conform to the recovery standard accord with the recovery standard after smashing once more.
Preferably, all be provided with the stock guide on the relative both sides wall of regrinding incasement chamber, two the one end that the stock guide is close to each other is along vertical direction downward sloping, two be formed with the crushed aggregates mouth that drops between the one end that the stock guide is close to each other, just the crushed aggregates mouth that drops is located the top department between two second crushing rollers.
Through adopting above-mentioned technical scheme, drop on the stock guide of slope when fan blade crushed aggregates gets into the regrinding case to drop to the second along stock guide incline direction from crushed aggregates department of dropping to on the roller is smashed to the second, the stock guide leads fan blade crushed aggregates position that drops, makes fan blade crushed aggregates drop to position department between two second smashes the roller, thereby is convenient for the second smashes the roller and smashes fan blade crushed aggregates once more.
Preferably, be provided with out the flitch in the crushing case of second, it sets up to go out the flitch slope, just it is located the crushed aggregates export to go out the lower one end of flitch height.
Through adopting above-mentioned technical scheme, on the discharge plate that drops to the slope through the fan blade crushed aggregates of smashing once more, fan blade crushed aggregates followed discharge plate incline direction from crushed aggregates exit roll-off regrinding case and dropped in the material collecting box. So set up, use out the fan blade crushed aggregates roll-off regrinding case that the flitch is convenient for smash once more.
Preferably, the bottom of the box body is provided with a plurality of universal wheels.
Through adopting above-mentioned technical scheme, use the universal wheel to make reducing mechanism can freely remove to it is more convenient to make reducing mechanism use.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the fan blade crushed aggregates which do not meet the recovery standard are crushed and processed again by adopting the secondary crushing box and the second crushing mechanism, workers do not need to carry the fan blade crushed aggregates, and the fan blade crushed aggregates and the fan blade can be crushed and processed simultaneously, so that the efficiency of the crushing device for crushing the wind power blade is improved, and the time and labor are saved for crushing the fan blade;
2. the guide plate is adopted to guide the falling position of the fan blade crushed aggregates, so that the fan blade crushed aggregates fall to the position between the two second crushing rollers, and the second crushing rollers can crush the fan blade crushed aggregates again conveniently;
3. through adopting out the flitch, use out the fan blade crushed aggregates roll-off regrinding case that the flitch is convenient for smash once more.
Drawings
FIG. 1 is a schematic view of the forward overall structure of the mobile decommissioned wind turbine blade crushing device of the present application;
FIG. 2 is an overall structure of the mobile decommissioning wind turbine blade crushing apparatus of the present application;
FIG. 3 is a schematic view of a reverse overall structure of the mobile decommissioned wind turbine blade crushing device of the present application;
FIG. 4 is a schematic structural view of a part of the mobile retired wind turbine blade crushing device in which the first crushing mechanism is prominently shown;
FIG. 5 is a schematic structural view of a part of the mobile retired wind turbine blade crushing apparatus of the present application, which shows the vibration classification mechanism prominently;
fig. 6 is a schematic structural view of a part of the mobile retired wind turbine blade crushing device in which the second crushing mechanism is prominently shown.
Description of the reference numerals: 1. a box body; 2. a feed inlet; 3. a first crushing mechanism; 31. a first driving member; 32. a first crushing roller; 321. a first roller body; 322. a first crushing gear; 4. a vibration classification mechanism; 41. a screening plate; 42. a vibrating member; 5. a material receiving box; 6. a secondary crushing box; 7. a second crushing mechanism; 71. a second driving member; 72. a second crushing roller; 721. a second roller body; 722. a second crushing gear; 8. a crushed aggregate inlet; 9. a crushed material outlet; 10. a material guide plate; 11. the crushed aggregates drop out of the opening; 12. a discharge plate; 13. a universal wheel; 14. a first transmission gear; 15. a second transmission gear; 16. and (4) screening holes.
Detailed Description
The present application is described in further detail below with reference to figures 1-6.
The embodiment of the application discloses portable retired wind-powered electricity generation blade reducing mechanism.
Referring to fig. 1 and 2, a portable decommissioning wind-powered electricity generation blade reducing mechanism includes box 1, and circular feed inlet 2 has been seted up at the top of box 1, and box 1 is located feed inlet 2 below department and installs first rubbing crusher and construct 3, and box 1 is located first rubbing crusher and constructs 3 below department and install vibration classification mechanism 4, and box 1 is located vibration classification mechanism 4 below department and slides demountable installation and have material receiving box 5. In the box 1 was put into to fan blade from feed inlet 2, first rubbing crusher constructs 3 and smashes fan blade, and the fan blade crushed aggregates after smashing drop on vibration classification mechanism 4, and the fan blade crushed aggregates that accord with the recovery standard pass vibration classification mechanism 4 and drop in collecting box 5, and the fan blade crushed aggregates that are not conform to the recovery standard are blocked by vibration classification mechanism 4 and can't drop to collecting box 5 in. The crushed materials of the fan blades can be taken out quickly by taking out the material collecting box 5 in the box body 1 in a sliding way.
Fixed mounting has regrinding case 6 in the middle part of the lateral wall of box 1, and regrinding case 6 has seted up crushed aggregates import 8 and crushed aggregates export 9 with 1 junction of box, and crushed aggregates import 8 and crushed aggregates export 9 have linked together the inner chamber of box 1 with the inner chamber of regrinding case 6, and crushed aggregates import 8 is located and is close to vibration classification mechanism 4 department, and crushed aggregates export 9 is located and is close to receipts magazine 5 department. A second crushing mechanism 7 is installed in the secondary crushing box 6, a crushed material inlet 8 is positioned above the second crushing mechanism 7, and a crushed material outlet 9 is positioned below the second crushing mechanism 7. The fan blade crushed aggregates that are blocked by the vibration classification mechanism 4 drop to the regrinding case 6 from crushed aggregates import 8 in, and second rubbing crusher constructs 7 and carries out the regrinding processing to fan blade crushed aggregates, and fan blade crushed aggregates through the regrinding drop to the material collecting box 5 in from crushed aggregates export 9. Carry out shredding again to the fan blade crushed aggregates that are not conform to the recovery standard through using regrinding case 6 and second rubbing crusher 7, the staff need not to carry the fan blade crushed aggregates, and fan blade crushed aggregates and fan blade can carry out shredding simultaneously to the efficiency that reducing mechanism smashed the wind-powered electricity generation blade and smash fan blade labour saving and time saving more has been improved.
Referring to fig. 3 and 4, the first pulverizing mechanism 3 includes a first driving member 31 and two first pulverizing rollers 32, the first pulverizing rollers 32 include a first roller body 321 and a plurality of first pulverizing gears 322, the plurality of first pulverizing gears 322 are fixedly mounted on the first roller body 321 at equal intervals, the first roller body 321 is rotatably mounted in the box 1 along the horizontal direction, and the first driving member 31 is fixedly mounted on the outer side wall of the box 1 and fixedly connected with the first roller body 321. One end of the first roller body 321 far away from the first driving part 31 penetrates through the box body 1, the first transmission gears 14 are fixedly mounted at the end parts of the two first roller bodies 321 outside the box body 1, and the two first transmission gears 14 are meshed with each other. In the present application, the first driving member 31 can be selected as a servo motor. First driving piece 31 drives a first roll body 321 to rotate, and this first roll body 321 drives another first roll body 321 to rotate through two first transmission gears 14, thereby makes first crushing gear 322 on two first roll bodies 321 rotate towards the direction of being close to each other and smash fan blade.
Referring to fig. 2 and 5, the vibration classification mechanism 4 includes a rectangular screening plate 41 and four vibrating members 42, a plurality of circular screen holes 16 are provided at equal intervals on the screening plate 41, the screening plate 41 is obliquely installed in the box 1 below the first crushing roller 32, the lower side of the height of the screening plate 41 is located in the crushed material inlet 8, and the four vibrating members 42 are fixedly installed on the inner side wall of the box 1 and are respectively fixedly connected with four corners of the bottom wall of the screening plate 41. In the present application, the vibrator 42 may be selected as a vibrator. The fan blade crushed aggregates that smashes through first rubbing crusher mechanism 3 drop to screening board 41 on, four vibrating pieces 42 drive screening board 41 and vibrate for fan blade crushed aggregates on screening board 41 move towards crushed aggregates import 8 department, and the fan blade crushed aggregates that accord with the recovery standard in the removal process drop to the material collecting box 5 from sieve mesh 16 in, and the fan blade crushed aggregates that do not accord with the recovery standard remove and drop to the regrinding incasement 6 from crushed aggregates import 8 department.
Referring to fig. 3 and 6, the second pulverization mechanism 7 includes a second driving member 71 and two second pulverization rollers 72, the second pulverization rollers 72 include a second roller body 721 and a plurality of second pulverization gears 722, the plurality of second pulverization gears 722 are fixedly installed on the second roller body 721 at equal intervals, the second roller body 721 is rotatably installed in the secondary pulverization case 6 in a horizontal direction and is parallel to the first roller body 321, and the second driving member 71 is fixedly installed on an outer side wall of the secondary pulverization case 6 and is fixedly connected with the second roller body 721. One end of the second roller body 721, which is far away from the second driving element 71, penetrates through the secondary crushing box 6, the end parts of the two second roller bodies 721, which are located outside the secondary crushing box 6, are both fixedly provided with the second transmission gears 15, and the two second transmission gears 15 are engaged with each other. In this application, the second driving member 71 can be selected as a servo motor. The second driving member 71 drives one second roller 721 to rotate, and the second roller 721 drives another second roller 721 to rotate through the two second transmission gears 15, so that the second grinding gears 722 on the two second rollers 721 rotate in the approaching direction and grind the fan blade particles again.
Referring to fig. 4 and 6, the thickness of the second pulverizing gear 722 is smaller than that of the first pulverizing gear 322, and the interval distance between the plurality of second pulverizing gears 722 is smaller than that between the plurality of first pulverizing gears 322, so that the material pulverized by the second pulverizing roller 72 is smaller, thereby making the fan blade crushed materials which do not meet the recycling standards after being pulverized again.
Referring to fig. 2, material guide plates 10 are fixedly mounted on two opposite side walls of the secondary crushing box 6 in the diameter direction of the second crushing roller 72, the material guide plates 10 are located above the second crushing roller 72, the material guide plates 10 are located below the crushed material inlet 8, one ends of the two material guide plates 10, which are close to each other, are inclined toward the second crushing roller 72, a crushed material drop opening 11 is formed between the two material guide plates 10, and the crushed material drop opening 11 is located right above the position between the two second crushing rollers 72. Fan blade crushed aggregates get into regrinding case 6 from crushed aggregates import 8 in and drop on stock guide 10, stock guide 10 leads fan blade crushed aggregates position that drops for fan blade crushed aggregates drops to position department between two second crushing roller 72, thereby is convenient for the second crushing roller 72 to smash fan blade crushed aggregates once more.
The inside wall of the secondary crushing box 6 is fixedly provided with a discharge plate 12, the discharge plate 12 is obliquely arranged, and the lower end of the discharge plate 12 extends into the crushed material outlet 9 and is positioned above the material collecting box 5. The fan blade crushed aggregates that are crushed again drop to the play flitch 12 of slope on, fan blade crushed aggregates follow the crushed aggregates export 9 roll-off regrinding case 6 and drop in receiving magazine 5 along the slope direction of play flitch 12, use the fan blade crushed aggregates that the board 12 is convenient for to be crushed again roll-off regrinding case 6 of play.
The equal fixed mounting in four corners department of box 1 bottom has universal wheel 13, uses universal wheel 13 to make reducing mechanism freely movable to it is more convenient to make reducing mechanism use.
The implementation principle of the embodiment of the application is as follows: a fan blade is placed into the box body 1 from the feed port 2, the first driving piece 31 drives the two first crushing rollers 32 to rotate, and the two first crushing rollers 32 rotate towards the mutually approaching direction, so that the fan blade is crushed; the crushed fan blade crushed aggregates drop onto the screening plate 41, the four vibrating pieces 42 drive the screening plate 41 to vibrate, so that the fan blade crushed aggregates on the screening plate 41 move towards the crushed aggregate inlet 8, the fan blade crushed aggregates meeting the recovery standard drop into the material receiving box 5 from the sieve holes 16 in the moving process, and the fan blade crushed aggregates not meeting the recovery standard move and drop into the secondary crushing box 6 from the crushed aggregate inlet 8; the second driving member 71 drives the two second crushing rollers 72 in the secondary crushing tank 6 to rotate, and the two second crushing rollers 72 rotate in the direction of approaching each other, thereby crushing the fan blade crushed material. Through using regrinding case 6 and second rubbing crusher 7 to carrying out shredding again to the fan blade crushed aggregates that is not conform to the recovery standard, the staff need not to carry fan blade crushed aggregates, and fan blade crushed aggregates and fan blade can carry out shredding simultaneously to the reducing mechanism has been improved to the kibbling efficiency of wind-powered electricity generation blade and has been smashed fan blade labour saving and time saving more.
The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a portable decommissioning wind-powered electricity generation blade reducing mechanism, includes box (1), has seted up feed inlet (2) on box (1), is provided with first rubbing crusher structure (3) in box (1), lies in first rubbing crusher structure (3) below department in box (1) and is provided with vibration classification mechanism (4), lies in vibration classification mechanism (4) below department in box (1) and is provided with receipts magazine (5), its characterized in that: be provided with regrinding case (6) on the lateral wall of box (1), be provided with second rubbing crusher (7) in regrinding case (6), set up on regrinding case (6) and be used for crushed aggregates import (8) and crushed aggregates export (9) that are linked together with box (1) inner chamber, just crushed aggregates import (8) are located regrinding case (6) and are close to vibration classification mechanism (4) department, crushed aggregates export (9) are located regrinding case (6) and are close to receipts magazine (5) department.
2. The mobile decommissioned wind turbine blade crushing device according to claim 1, wherein: first rubbing crusher constructs (3) and includes first driving piece (31) and two first crushing rollers (32), two first crushing roller (32) all rotate the below department that sets up to be located feed inlet (2) at box (1), first driving piece (31) set up on box (1) lateral wall and are connected with two first crushing roller (32) transmissions.
3. The mobile decommissioned wind turbine blade crushing device according to claim 2, wherein: vibration classification mechanism (4) are including screening board (41) and vibration piece (42), vibration piece (42) set up in box (1), screening board (41) set up on vibration piece (42) and are located first crushing roller (32) below department, a plurality of sieve meshes (16) have been seted up on screening board (41), screening board (41) slope sets up, just screening board (41) highly lower one end is located crushed aggregates import (8).
4. The mobile decommissioning wind power blade smashing device according to claim 2, wherein: the second crushing mechanism (7) comprises a second driving piece (71) and two second crushing rollers (72), the second crushing rollers (72) are all rotatably arranged in the secondary crushing box (6), and the second driving piece (71) is arranged on the outer side wall of the secondary crushing box (6) and is in transmission connection with the two second crushing rollers (72).
5. The mobile decommissioned wind turbine blade crushing device according to claim 4, wherein: the first crushing roller (32) comprises a first roller body (321) and a plurality of first crushing gears (322), the first crushing gears (322) are fixedly mounted on the first roller body (321) at intervals, the second crushing roller (72) comprises a second roller body (721) and a plurality of second crushing gears (722), the second crushing gears (722) are fixedly mounted on the second roller body (721) at intervals, and the interval distance between the second crushing gears (722) is smaller than the interval distance between the first crushing gears (322).
6. The mobile decommissioned wind turbine blade crushing device according to claim 4, wherein: all be provided with stock guide (10) on the relative both sides wall of regrinding case (6) inner chamber, two the one end that stock guide (10) are close to each other is along vertical direction downward sloping, two be formed with crushed aggregates mouth (11) that drop between the one end that stock guide (10) are close to each other, just crushed aggregates mouth (11) that drop is located the top department between two second crushing rollers (72).
7. The mobile decommissioned wind turbine blade crushing device according to claim 1, wherein: the second crushing box is internally provided with a discharge plate (12), the discharge plate (12) is obliquely arranged, and the lower end of the discharge plate (12) is positioned in a crushed material outlet (9).
8. The mobile decommissioned wind turbine blade crushing device according to claim 1, wherein: the bottom of the box body (1) is provided with a plurality of universal wheels (13).
CN202222013393.2U 2022-08-01 2022-08-01 Portable retired wind-powered electricity generation blade reducing mechanism Active CN218189891U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116351541A (en) * 2023-04-14 2023-06-30 酒泉职业技术学院(甘肃广播电视大学酒泉市分校) Cutting, crushing and classifying integrated vehicle-mounted waste blade treatment device for wind power plant
CN118719769A (en) * 2024-09-03 2024-10-01 江苏理工学院 Wind-powered electricity generation blade material degradation recovery plant

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116351541A (en) * 2023-04-14 2023-06-30 酒泉职业技术学院(甘肃广播电视大学酒泉市分校) Cutting, crushing and classifying integrated vehicle-mounted waste blade treatment device for wind power plant
CN118719769A (en) * 2024-09-03 2024-10-01 江苏理工学院 Wind-powered electricity generation blade material degradation recovery plant

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