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CN-116852603-B - Integrated module recovery system of waste wind power blade

CN116852603BCN 116852603 BCN116852603 BCN 116852603BCN-116852603-B

Abstract

The invention provides an integrated module recovery system of waste wind power blades, which relates to the technical field of wind power blade recovery and comprises a base, a first sliding table and a second sliding table, wherein a through groove is formed in the base, the first sliding table and the second sliding table are both arranged in the through groove in a sliding mode, the first sliding table and the second sliding table can horizontally move in opposite directions or horizontally move in opposite directions along the extending direction of the through groove, a cutting device is arranged on the first sliding table and can vertically and telescopically move to cut the waste wind power blades into blade fragments, a crushing device is arranged on the base and is located above the cutting device and can vertically and telescopically move to crush the blade fragments into blade particles, and a screening device is fixed on the second sliding table and is used for screening the blade particles formed after the crushing device is crushed. The integrated module recovery system solves the problems of high recovery cost and low recovery efficiency of the waste wind power blades caused by the arrangement and dispersion of the recovery equipment of the waste wind power blades in the prior art.

Inventors

  • LI PEIXIN
  • CHEN WEIJIE
  • WANG FUPING
  • JIANG DEXU
  • NING HUISEN

Assignees

  • 国能联合动力技术(保定)有限公司

Dates

Publication Date
20260508
Application Date
20230630

Claims (10)

  1. 1. The utility model provides an integrated module recovery system of old and useless wind-powered electricity generation blade which characterized in that, integrated module recovery system of old and useless wind-powered electricity generation blade includes: A base (1) provided with a through groove; the first sliding table (2) and the second sliding table (3) are both arranged in the through groove in a sliding manner, and the first sliding table (2) and the second sliding table (3) can horizontally move in opposite directions or horizontally move in opposite directions along the extending direction of the through groove; The cutting device (4) is arranged on the first sliding table (2) and can move up and down in a telescopic manner along the vertical direction, and the cutting device (4) is used for cutting waste wind power blades into blade fragments; The crushing device (5) is arranged on the base (1) and is positioned above the cutting device (4), the crushing device (5) can move up and down in a telescopic manner along the vertical direction, and the crushing device (5) is used for crushing the blade fragments into blade particles; the screening device (6) is fixed on the second sliding table (3) and is used for screening blade particles formed after the crushing device (5) is crushed; Wherein, first slip table (2) and second slip table (3) level are moved mutually and can be driven cutting device (4) and screening plant (6) synchronous motion, and first slip table (2) and second slip table (3) stop motion, reducing mechanism (5) are along vertical direction flexible removal to be in same horizontal plane with cutting device (4) for cutting device (4), reducing mechanism (5) and screening plant (6) are arranged in proper order and are located same horizontal plane.
  2. 2. The integrated module recovery system of waste wind power blades according to claim 1, further comprising a first driver (7) and a second driver (8); The first driver (7) is used for driving the first sliding table (2) to horizontally move along the extending direction of the through groove; the second driver (8) is used for driving the second sliding table (3) to horizontally move along the extending direction of the through groove.
  3. 3. The integrated module recovery system of waste wind power blades according to claim 1, wherein the cutting device (4) comprises a cutter (41), a cutting pallet (42), a third driver and a plurality of cutting telescopic columns (43); The cutting machine (41) is arranged on the cutting supporting plate (42) and is used for cutting the waste wind power blades into blade fragments; the plurality of cutting telescopic columns (43) are vertically arranged on the first sliding table (2), and each cutting telescopic column (43) can vertically move in a telescopic manner; The cutting support plate (42) is supported and arranged on the first sliding table (2) through a plurality of cutting telescopic columns (43); The third driver is arranged on the first sliding table (2) and is used for driving the cutting supporting plate (42) to move up and down in the vertical direction.
  4. 4. The integrated module recovery system of waste wind power blades according to claim 3, further comprising marking means (9) provided on the cutting blade (42) for marking a cutting line on the waste wind power blades.
  5. 5. The integrated module recovery system of waste wind power blades according to claim 4, wherein the marking device (9) comprises a marking heating wire (91) and a pair of clamping plates (92); A pair of clamping plates (92) are slidably arranged on the cutting support plates (42) and are used for clamping waste wind power blades; the marking heating wire (91) is arranged on any clamping plate (92) and used for heating the contact part with the waste wind power blade so as to mark the cutting line.
  6. 6. The integrated module recovery system of waste wind power blades according to claim 5, wherein the cutting support plate (42) is provided with a limiting chute (420), and a pair of clamping plates (92) are slidably arranged in the limiting chute (420).
  7. 7. The integrated module recovery system of spent wind power blades according to claim 6, wherein the marking means (9) further comprises a plurality of elastic members (93); A plurality of elastic pieces (93) are arranged between each clamping plate (92) and the groove wall of the limiting chute (420), and the clamping plates (92) are pushed by the elastic pieces (93) to clamp the waste wind power blades.
  8. 8. An integrated module recovery system for waste wind power blades according to claim 3, wherein the crushing device (5) comprises a crushing pallet (51), a crusher (52), a conveyor belt (53), a fourth driver and a plurality of crushing telescopic columns (54); the pulverizer (52) is arranged on the pulverizing support plate (51) and is used for pulverizing the blade fragments into blade particles; The conveyor belt (53) is arranged on the crushing supporting plate (51) and communicated with a discharge hole of the crusher (52), and the conveyor belt (53) is used for conveying the blade particles to the screening device (6); a plurality of crushing telescopic columns (54) are vertically arranged on the base (1), and each crushing telescopic column (54) can vertically move in a telescopic manner; The crushing supporting plate (51) is supported and arranged on the base (1) through a plurality of crushing telescopic columns (54) and is positioned above the cutting supporting plate (42); The fourth driver is arranged on the base (1) and is used for driving the smashing supporting plate (51) to move up and down in the vertical direction.
  9. 9. The integrated module recovery system of waste wind power blades according to claim 1, characterized in that the screening device (6) comprises a screening machine and a dust cover (61); the screening machine is arranged on the second sliding table (3) and is used for screening blade particles formed after the crushing device (5) is crushed; The dust cover (61) is provided with a particle inlet corresponding to the position of the feeding hole of the screening machine and a particle outlet corresponding to the position of the discharging hole of the screening machine, and the dust cover (61) is arranged on the second sliding table (3) and used for sealing the screening machine.
  10. 10. The integrated module recovery system of waste wind power blades according to claim 1, further comprising a plurality of travelling wheels (10) arranged at the near-ground end of the base (1).

Description

Integrated module recovery system of waste wind power blade Technical Field The invention relates to the technical field of wind power blade recovery, in particular to an integrated module recovery system of waste wind power blades. Background The wind power blade contains fiber reinforced materials (such as glass fiber or carbon fiber), plastic polymers (polyester or epoxy ethylene resin), sandwich materials (PVC, PET or bassal wood), polyurethane coating, glass fiber reinforced plastic and other materials, and part of the materials enable the wind power blade to have extremely high recovery value. At present, the waste wind power blades are recovered through the cooperation of a plurality of professional devices, in the prior art, the waste wind power blades are recovered to execute steps of cutting, crushing, screening and the like, the waste wind power blades are required to be transported to corresponding execution devices to execute corresponding recovery steps, at present, the devices for executing the recovery steps of the waste wind power blades are scattered, the produced materials are required to be transported to the devices for executing the next step after each step is completed, a great amount of manpower and material resources are required to be consumed in the transportation process, the recovery cost of the waste wind power blades is increased, and the recovery efficiency of the waste wind power blades is reduced. Accordingly, there is a need for an apparatus or system that addresses at least one of the problems described above. Disclosure of Invention The embodiment of the invention aims to provide an integrated module recovery system for waste wind power blades, which is used for solving the problems of high recovery cost and low recovery efficiency of waste wind power blades caused by the arrangement and dispersion of recovery equipment of the waste wind power blades in the prior art. In order to achieve the above object, the present invention provides an integrated module recovery system of a waste wind power blade, the integrated module recovery system of a waste wind power blade comprising: a base provided with a through groove; the first sliding table and the second sliding table are arranged in the through groove in a sliding manner, and can horizontally move in opposite directions or horizontally move in opposite directions along the extending direction of the through groove; the cutting device is arranged on the first sliding table and can move up and down in a telescopic manner along the vertical direction, and the cutting device is used for cutting the waste wind power blades into blade fragments; The crushing device is arranged on the base and is positioned above the cutting device, the crushing device can move up and down in a telescopic manner along the vertical direction, and the crushing device is used for crushing the blade fragments into blade particles; and the screening device is fixed on the second sliding table and is used for screening blade particles formed after the crushing device is used for crushing. Specifically, the integrated module recovery system of the waste wind power blade further comprises a first driver and a second driver; The first driver is used for driving the first sliding table to horizontally move along the extending direction of the through groove; the second driver is used for driving the second sliding table to horizontally move along the extending direction of the through groove. The cutting device comprises a cutting machine, a cutting supporting plate, a third driver and a plurality of cutting telescopic columns; the cutting machine is arranged on the cutting supporting plate and is used for cutting the waste wind power blades into blade fragments; the plurality of cutting telescopic columns are vertically arranged on the first sliding table, and each cutting telescopic column can move in a vertical direction in a telescopic manner; The cutting supporting plate is supported and arranged on the first sliding table through a plurality of cutting telescopic columns; The third driver is arranged on the first sliding table and used for driving the cutting supporting plate to move up and down in the vertical direction. The integrated module recovery system of the waste wind power blades further comprises a marking device which is arranged on the cutting supporting plate and used for marking cutting lines on the waste wind power blades. The marking device comprises a marking heating wire and a pair of clamping plates; the clamping plates are arranged on the cutting supporting plate in a sliding manner and used for clamping the waste wind power blades; The marked heating wire is arranged on any clamping plate and used for heating the contact part of the waste wind power blade so as to mark the cutting line. Specifically, a limiting chute is formed in the cutting supporting plate, and a pair of clamping plates are slidably arranged in the limiting