CN-122008337-A - Anti-offset high-ageing-resistance composite geotextile slitting device

CN122008337ACN 122008337 ACN122008337 ACN 122008337ACN-122008337-A

Abstract

The invention discloses an anti-offset high-ageing composite geotextile slitting device, and relates to the technical field of geotextile slitting. According to the geotechnical cloth cutting device, the geotechnical cloth is positioned at a proper position through the arrangement of the positioning and pressing mechanism, and the geotechnical cloth is pressed and fixed, so that the situation that the length of the cut geotechnical cloth cannot reach the expected value because the geotechnical cloth is difficult to position at a proper position in the use process, and the longer or shorter condition of cutting the geotechnical cloth possibly occurs is avoided, the working effect of the cutting device is ensured, the phenomenon that the geotechnical cloth is offset when the geotechnical cloth is cut because the geotechnical cloth is difficult to press and fix is avoided, and the irregular cutting of the geotechnical cloth or the inaccurate cutting length of the geotechnical cloth is further avoided, and the practicability of the geotechnical cloth cutting device is ensured.

Inventors

WEI LIFENG
DAI SHIQI
JIANG FANHUA
ZHANG MAJIN
JIA GUANGMING

Assignees

无锡申湖织造有限公司

Dates

Publication Date: 20260512
Application Date: 20260312

Claims (10)

1. The utility model provides a high ageing resistance compound geotechnique cloth cutting device of skew prevention, includes workstation (1), its characterized in that the top of workstation (1) is provided with location hold-down mechanism (2), location hold-down mechanism (2) are including location dog (201), the top of workstation (1) is provided with location dog (201), the bottom of location dog (201) is provided with mounting panel (202), screw hole (203) have all been seted up to the inside of mounting panel (202) and the inside of workstation (1).
2. The anti-migration high-ageing-resistance composite geotextile slitting device of claim 1, wherein bolts (204) are arranged on the inner wall of the threaded holes (203), a first abrasion-resistant rubber pad (205) is arranged on one side of the positioning stop block (201), and the shape and the size of the first abrasion-resistant rubber pad (205) are matched with those of the positioning stop block (201).
3. The anti-offset high-ageing-resistance composite geotextile slitting device according to claim 2, wherein a supporting frame (206) is arranged at the top of the positioning stop block (201), and a servo cylinder (207) is arranged at the bottom of the supporting frame (206).
4. The anti-migration high-ageing-resistance composite geotextile slitting device according to claim 3, wherein a pressing plate (208) is arranged at the bottom end of the servo cylinder (207), a second abrasion-resistant rubber pad (209) is arranged at the bottom of the pressing plate (208), and the shape and the size of the second abrasion-resistant rubber pad (209) are matched with those of the pressing plate (208).
5. The anti-migration high-ageing-resistance composite geotextile slitting device of claim 4, wherein a base (4) is arranged at the bottom of the workbench (1), a fixing plate (5) is arranged at the top of the base (4), and a winding device (6) is arranged on one side of the fixing plate (5).
6. The anti-migration high-ageing-resistance composite geotextile slitting device of claim 5, wherein a slitting mechanism (3) is arranged on one side of the workbench (1), the slitting mechanism (3) comprises a supporting plate (301), the supporting plate (301) is arranged on one side of the workbench (1), a rotating shaft (302) is arranged on the inner side of the supporting plate (301), and a cutter (303) is arranged on the outer wall of the rotating shaft (302).
7. The anti-migration high-ageing-resistance composite geotextile slitting device of claim 6, wherein a large gear (304) is arranged at one end of the rotating shaft (302), a protective box (308) is arranged outside the supporting plate (301), and a servo motor (305) is arranged inside the protective box (308).
8. The anti-migration high-aging composite geotextile slitting device of claim 7, wherein the output shaft of the servo motor (305) is connected with a motor shaft (306) through a coupling.
9. The anti-migration high anti-aging composite geotextile slitting device of claim 8, wherein a pinion (307) is disposed at one end of the motor shaft (306), and the pinion (307) is meshed with the large gear (304).
10. The anti-migration high anti-aging composite geotextile slitting device according to claim 9, wherein the geotextile slitting device is operated by the method comprising the steps of winding geotextile by a winding device (6), adjusting a positioning stop block (201) to a proper position according to slitting requirements, rotating a bolt (204) at the moment, separating a mounting plate (202) from a workbench (1) by rotating the bolt (204) out of a threaded hole (203), moving the positioning stop block (201) to a proper position, aligning the threaded hole (203) formed in the mounting plate (202) with a corresponding threaded hole (203) formed in the workbench (1), inserting a bolt (204) into the threaded hole (203), fixing the positioning stop block (201) to the proper position of the workbench (1), completing the adjustment, feeding the geotextile to the workbench (1) by the winding device (6), feeding the geotextile to the proper position in the process, feeding the geotextile to a specific length, fixing the geotextile to the proper position of the geotextile to the proper position, pressing the geotextile to the proper position by sliding the geotextile to the proper position, and preventing the geotextile from being pressed to the proper position by the geotextile from being fixed to the proper position, then start servo cylinder (207), make servo cylinder (207) begin to extend, servo cylinder (207) drive clamp plate (208) begin to descend, make clamp plate (208) compress tightly the geotechnique and fix, second wear-resisting rubber pad (209) can guarantee that geotechnique can not be crushed, thereby accomplish location and compress tightly work, fix geotechnique to suitable position and compress tightly and fix the back, can cut geotechnique this moment, start servo motor (305) this moment, make servo motor (305) drive motor shaft (306) rotatory, motor shaft (306) drive pinion (307) rotatory, pinion (307) drive gear wheel (304) rotatory, gear wheel (304) drive pivot (302) rotatory, pivot (302) drive cutter (303) rotatory ninety degrees, cut geotechnique, thereby accomplish the work of cutting.

Description

Anti-offset high-ageing-resistance composite geotextile slitting device Technical Field The invention relates to the technical field of geotextile slitting, in particular to an anti-offset high-ageing-resistance composite geotextile slitting device. Background The high anti-aging composite geotextile slitting device is industrial equipment which is specially used for accurately slitting wide-width high anti-aging composite geotextiles into coiled materials or sheets with specified width and narrow width; At present, most of the slitting devices are difficult to position geotechnical cloth to a proper position, the geotechnical cloth is difficult to compress and fix, in the using process, if the geotechnical cloth is difficult to position to a proper position, the length of the slit geotechnical cloth cannot reach the expectations, the situation that the geotechnical cloth is possibly slit longer or shorter occurs, the working effect of the geotechnical cloth slitting devices is poor, if the geotechnical cloth is difficult to compress and fix, the geotechnical cloth is caused to deviate when the geotechnical cloth is slit, and then the irregular geotechnical cloth is slit or the inaccurate length of the geotechnical cloth is caused, so that the practicability of the slitting devices is poor. Disclosure of Invention The invention aims to provide an anti-offset high-ageing composite geotextile slitting device so as to solve the problems in the prior art. In order to achieve the above purpose, the technical scheme is that the anti-offset high-ageing-resistance composite geotechnical cloth slitting device comprises a workbench, wherein a positioning and pressing mechanism is arranged at the top of the workbench and comprises a positioning stop block, the top of the workbench is provided with the positioning stop block, the bottom of the positioning stop block is provided with a mounting plate, and threaded holes are formed in the mounting plate and the workbench. As the preferable technical scheme, the inner wall of screw hole is provided with the bolt, one side of location dog is provided with first wear-resisting rubber pad, the shape size of first wear-resisting rubber pad and the shape size mutual matching of location dog. As the preferable technical scheme, the top of location dog is provided with the support frame, the bottom of support frame is provided with servo cylinder. As the preferable technical scheme, the bottom of servo cylinder is provided with the clamp plate, the bottom of clamp plate is provided with the second wear-resisting rubber pad, the shape size of second wear-resisting rubber pad and the shape size of clamp plate mutually match. As the preferable technical scheme, the bottom of workstation is provided with the base, the top of base is provided with the fixed plate, one side of fixed plate is provided with the coiling mechanism. As the preferable technical scheme, one side of workstation is provided with cuts the mechanism, it includes the backup pad to cut the mechanism, one side of workstation is provided with the backup pad, the inboard of backup pad is provided with the pivot, the outer wall of pivot is provided with the cutter. As the preferable technical scheme, the one end of pivot is provided with the gear wheel, the outside of backup pad is provided with the protective housing, the inside of protective housing is provided with servo motor. As the preferable technical scheme, the output shaft of the servo motor is connected with a motor shaft through a coupling, a pinion is arranged at one end of the motor shaft, and the pinion is meshed with a large gear. As a preferable technical scheme, the operation method comprises the following steps: the geotechnical cloth is rolled up through the rolling device, then the positioning check block is required to be adjusted to a proper position according to the cutting requirement, the bolt is rotated at the moment, the bolt is rotated out of the threaded hole, the mounting plate is separated from the workbench, then the positioning check block is moved, the positioning check block is moved to a proper position, the threaded hole formed in the mounting plate is aligned with the corresponding threaded hole formed in the workbench, then the bolt is rotationally inserted into the threaded hole, the positioning check block is fixed at the proper position of the workbench, thus the adjustment work is completed, after the positioning check block is adjusted to the proper position, the geotechnical cloth is fed onto the workbench through the rolling device at the moment, in the feeding process, the geotechnical cloth is required to be fed for a specific length, the geotechnical cloth is required to be positioned to the proper position and is positioned to the proper position, the geotechnical cloth is pressed and fixed, the geotechnical cloth is positioned to a proper position through the blocking of the positioning stop block, the first abrasion