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CN-122013495-A - Wind-powered electricity generation fiber cloth layer cutting device

CN122013495ACN 122013495 ACN122013495 ACN 122013495ACN-122013495-A

Abstract

The invention relates to a wind power fiber cloth layer cutting device which comprises a workbench, a cutting assembly and a conveying assembly, wherein the workbench is used for supporting the fiber cloth layer, the cutting assembly is provided with a driving part and a cutting part, the driving part drives the cutting part to intermittently move along the direction perpendicular to the workbench so that the cutting part is matched with the workbench to intermittently cut the fiber cloth layer, the conveying assembly drives the fiber cloth layer to intermittently move along a first direction on the workbench, the intermittent movement of the fiber cloth layer along the first direction is staggered with the intermittent cutting of the fiber cloth layer by the cutting part, and the single movement distance of the conveying assembly driving the fiber cloth layer along the first direction is larger than the cutting length of the cutting part formed on the fiber cloth layer along the first direction. The technical scheme provided by the disclosure can be suitable for cutting fiber cloth layers with different widths.

Inventors

  • SHAN LONGJUN
  • XU FENG
  • WAN JIAN
  • LI SHIGANG
  • FENG YIFAN

Assignees

  • 远景能源有限公司

Dates

Publication Date
20260512
Application Date
20260127

Claims (10)

  1. 1. Wind-powered electricity generation fiber cloth layer cutting device, its characterized in that, wind-powered electricity generation fiber cloth layer cutting device includes: -a table (100), said table (100) being adapted to support a fibre cloth layer (10); -a cutting assembly (200), the cutting assembly (200) having a driving member (210) and a cutting member (220), the driving member (210) driving the cutting member (220) to intermittently move in a direction perpendicular to the table (100) so that the cutting member (220) intermittently cuts the fibrous cloth layer (10) in cooperation with the table (100); The conveying assembly (300), the conveying assembly (300) drives the fiber cloth layer (10) to intermittently move along a first direction on the workbench (100), the intermittent movement of the fiber cloth layer (10) along the first direction and the intermittent cutting of the fiber cloth layer (10) by the cutting piece (220) are alternately arranged, and the single movement distance of the conveying assembly (300) drives the fiber cloth layer (10) along the first direction is larger than the cutting length of the cutting piece (220) formed on the fiber cloth layer (10) along the first direction; When the driving component (210) drives the cutting component (220) to intermittently move along the direction perpendicular to the workbench (100), and the conveying component (300) drives the fiber cloth layer (10) to intermittently move along the first direction on the workbench (100), the cutting component (220) cuts the fiber cloth layer (10) to form a plurality of gaps (12) which are arranged at intervals along the first direction.
  2. 2. The wind power fiber cloth layer cutting device according to claim 1, wherein the cutting member (220) comprises a connecting seat (221) and two cutting knives (222); The connecting seat (221) is detachably connected with the driving part (210); The two cutting knives (222) are arranged on the connecting seat (221), and the two cutting knives (222) are intersected with the extending direction of the fiber bundles of the fiber cloth layer (10).
  3. 3. The wind power fiber cloth layer cutting device according to claim 2, characterized in that two of the cutting knives (222) are connected end to end and are configured in a V-shape.
  4. 4. Wind power fiber cloth layer cutting device according to claim 2, characterized in that two of the cutting knives (222) are arranged parallel and offset.
  5. 5. The wind power fiber cloth layer cutting device according to claim 2, wherein the connection base (221) is connected with the conveying assembly (300) through a linkage assembly; When the driving component (210) drives the connecting seat (221) to move away from the workbench (100), the connecting seat (221) drives the conveying component (300) to drive the fiber cloth layer (10) to move along the first direction through the linkage component.
  6. 6. The wind power fiber cloth layer cutting device according to claim 5, wherein the conveying assembly (300) comprises a pushing plate (310) and a pressing plate (320); The material pressing plate (320) is connected with the workbench (100), and the fiber cloth layer (10) is limited between the material pressing plate (320) and the workbench (100); The workbench (100) is provided with a yielding hole (110), the pushing plate (310) is positioned in the yielding hole (110), and the pushing plate (310) is connected with the linkage assembly; When the driving component (210) drives the connecting seat (221) to move away from the workbench (100), the connecting seat (221) drives the pushing plate (310) to extend out of the table top of the workbench (100) through the linkage component and move towards the first direction, and when the driving component (210) drives the connecting seat (221) to move towards the workbench (100), the connecting seat (221) drives the pushing plate (310) to retract to the position below the table top of the workbench (100) through the linkage component and move towards the direction opposite to the first direction.
  7. 7. The wind power fiber cloth layer cutting device according to claim 6, wherein the linkage assembly comprises a connecting rod (410), an eccentric shaft (420), a moving block (430) and a limit rod (440); One end of the connecting rod (410) is rotationally connected with the connecting seat (221), and the other end of the connecting rod (410) is rotationally connected with the first end (421) of the eccentric shaft (420); The eccentric shaft (420) comprises a first end (421), a second end (422) and an intermediate shaft (423), wherein the axis of the first end (421) and the axis of the second end (422) are not collinear with the axis of the intermediate shaft (423), the intermediate shaft (423) is rotationally connected with the workbench (100), and the second end (422) is rotationally connected with the moving block (430); The top surface of the motion block (430) is detachably connected with the pushing plate (310), a limiting hole (431) is formed in the bottom surface of the motion block (430), one end of a limiting rod (440) is inserted into the limiting hole (431), and the limiting rod (440) is slidably connected with the workbench (100) along the direction parallel to the first direction.
  8. 8. Wind power fiber cloth layer cutting device according to any of claims 1 to 7, further comprising a suction assembly (500), said suction assembly (500) being located in front of said table (100) in said first direction, and a suction opening of said suction assembly (500) being arranged in correspondence with a cutting area of the fiber cloth layer (10).
  9. 9. The wind power fiber cloth layer cutting device of claim 1, further comprising an energy source (600), a safety switch (610), and a control switch (620); The energy source (600) is electrically connected with the driving component (210), and the safety switch (610) and the control switch (620) are connected in series on a circuit connected with the energy source (600) and the driving component (210).
  10. 10. The wind power fiber cloth layer cutting device of claim 9, further comprising a base (700), wherein the table (100), the cutting assembly (200), the transport assembly (300), the energy source (600), a safety switch (610), and a control switch (620) are connected to the base (700); The energy source (600) is detachably connected with the base (700), and/or two holding handles (710) are arranged on the base (700).

Description

Wind-powered electricity generation fiber cloth layer cutting device Technical Field The disclosure relates to the technical field of wind power equipment production, in particular to a wind power fiber cloth layer cutting device. Background In the related art, the tail of the fiber cloth layer is integrally cut by a knife switch to carry out chamfering treatment. However, in this method, the blade needs to span the whole cloth width and cut off once, that is, the length of the blade needs to be adapted to the width of the fiber cloth layer, so that the blade can only adapt to the fiber cloth treatment with the same width, and the blade cannot be applied at all to the position with the width change. Disclosure of Invention The utility model aims at providing a wind-powered electricity generation fiber cloth layer cutting device, can be suitable for the fiber cloth layer cutting of different width. According to one aspect of the disclosure, a wind power fiber cloth layer cutting device is provided, the wind power fiber cloth layer cutting device comprises a workbench, a cutting assembly, a conveying assembly and a cutting assembly, wherein the workbench is used for supporting the fiber cloth layer, the cutting assembly is provided with a driving part and a cutting part, the driving part drives the cutting part to intermittently move along the direction perpendicular to the workbench so that the cutting part is matched with the workbench to intermittently cut the fiber cloth layer, the conveying assembly drives the fiber cloth layer to intermittently move along a first direction on the workbench, intermittent movement of the fiber cloth layer along the first direction is staggered with intermittent cutting of the fiber cloth layer by the cutting part, the conveying assembly drives the fiber cloth layer to have a single movement distance along the first direction which is larger than a cutting length along the first direction, which is formed by the cutting part on the fiber cloth layer, and when the driving part drives the cutting part to intermittently move along the direction perpendicular to the workbench, the conveying assembly drives the fiber cloth layer to intermittently move along the first direction on the workbench, the cutting part forms a plurality of gaps along the first direction, which are arranged on the fiber cloth layer. The technical scheme that this disclosure provided, cutting device can include conveying component and cutting component, conveying component carries the fibre cloth layer along first direction intermittent type to conveying component drives the fibre cloth layer along the single removal distance of first direction and is greater than the cutting length along first direction that the cutting piece formed on the fibre cloth layer, makes the regional that the fibre cloth layer intermittent type is located the cutting component below of changing, and cooperates the intermittent type downward cutting of cutting component, makes the cutting component can progressively cut the fibre cloth layer and forms the breach that a plurality of intervals set up, until the cutting is accomplished. Therefore, the chamfering arrangement of the tail end of the fiber cloth layer can be met, and compared with the cutting mode of a knife switch, the wind power fiber cloth layer cutting device can be suitable for cutting fiber cloth layers with different widths, when the widths of the fiber cloth layers change, the whole cutting tool does not need to be purchased again, the requirements can be met only by adjusting or replacing part of components, repeated purchasing of equipment is avoided from the root, early investment is obviously reduced, and the repeated purchasing cost of the equipment is greatly reduced. And the corresponding cutting piece can be made relatively smaller, so that the replacement operation of the cutting piece is convenient, and the labor intensity is reduced. The cutting piece comprises a connecting seat and two cutting knives, wherein the connecting seat is detachably connected with the driving part, the two cutting knives are arranged on the connecting seat, and the two cutting knives are intersected with the extending direction of the fiber bundles of the fiber cloth layer. Through above-mentioned scheme, connecting seat and drive component detachable are connected to can conveniently dismantle the change cutting member, satisfy different cutting demands, and be convenient for maintain the operation. The two cutting knives are arranged on the connecting seat and are intersected with the extending direction of the fiber bundles of the fiber cloth layer, so that the cutting knives can cut off the fiber bundles, and the cut-off fiber bundles are separated from the whole part. Optionally, the two cutting knives are end to end and are configured in a V-shape. Through the scheme, the two sides of the notch are inclined planes, so that fiber bundles on the two sides can be bent