CN112267197A - Manufacturing method of anti-aging woven yarn for geotextile - Google Patents

Abstract

The invention relates to a method for manufacturing anti-aging braided wires for geotextile, which adopts a device comprising a winding guide device and side mounting plates, wherein the winding guide device and the side mounting plates are fixedly mounted on the ground at intervals, the number of the side mounting plates is two, and the side mounting plates are respectively fixedly mounted at the upper end and the lower end, the invention can stop winding after one layer of braided wires is wound by changing the traditional multilayer winding mode into a single-layer winding mode, and then cut the braided wires wound on the outer side of a winding outer cylinder at fixed points by controlling the elongation of a cutting device through a limiting cutting device, so that all the braided wires wound outside the winding outer cylinder are directly cut along a straight line by the cutting device after one layer of braided wires is wound, thus cutting one layer of braided wires at one time, compared with a section cutting, the working efficiency is greatly improved.

Description

Manufacturing method of anti-aging woven yarn for geotextile

Technical Field

The invention relates to the technical field of weaving yarn production, in particular to a manufacturing method of an anti-aging weaving yarn for geotextile.

Background

The geotextile is composed of at least two groups of parallel knitting yarns (or yarns), one group is called warp yarns along the longitudinal arrangement of the loom, the other group is called weft yarns in the transverse arrangement, the knitting yarns form thick yarns after a series of previous production and processing, then secondary heating, stretching and shaping are carried out, then the knitting yarns are wound and cut to length according to actual needs, the warp yarns and the weft yarns are interwoven together to form a cloth shape by matching the knitting yarns with different lengths with different knitting equipment and processes, and the geotextile is formed, but the existing knitting yarns have some problems in the processes of winding and cutting to length after secondary heating, stretching and shaping:

the existing winding mode of the braided wire is that the braided wire conveyed after being formed is wound on a roller through a simple roller, the braided wire on the roller becomes thicker and thicker along with the winding process, so the winding radius of the braided wire on the roller becomes larger and larger, the wound braided wire needs to be cut at a fixed length after being wound, the wound braided wire needs to be rewound, and then the braided wire is cut at a fixed length through a cutting device, on one hand, the braided wire needs to be rewound, only a single required length can be cut off each time, the cutting time is very long, and the required length needs to be pulled out again for cutting each cut off section, so the time spent for cutting off all the braided wires in a single coil is greatly increased, the working efficiency is extremely low, on the other hand, the braided wire with the corresponding length needs to be pulled out again for cutting off each time, the length of the woven wire pulled out every time is difficult to be ensured to be certain in the process, the length of the woven wire cannot be well controlled, the woven wire is soft, if the length needing to be cut is long, the length of the woven wire cannot be determined according to the actual transverse distance of one pulled end by adopting the pulling mode, the middle drooping part of the woven wire needs to be considered, the determination of the cutting length position of the woven wire in practice can be influenced, the length of the woven wire is not enough or exceeds the required length, excessive redundant woven wires can be cut off finally due to the long woven wire, excessive unnecessary waste is caused, the specification of the woven geotextile cannot reach the standard due to the short woven wire, the influence is caused on later-stage products, the production efficiency is reduced, and the production cost is also improved.

Disclosure of Invention

In order to solve the problems, the invention provides a method for manufacturing an anti-aging woven yarn for geotextile, the manufacturing method of the anti-aging weaving yarn for the geotextile adopts the following device, the device comprises a rolling guide device and a side mounting plate, the rolling guide device and the side mounting plates are fixedly arranged on the ground at intervals, the number of the side mounting plates is two, the two side mounting plates are respectively fixedly arranged at the upper end and the lower end, the side mounting plates are fixedly provided with a driving device, the opposite ends of the two side mounting plates are respectively and fixedly provided with a supporting plate, the two supporting plates are movably provided with a winding drum, a cutting device is fixedly arranged between the two side mounting plates and penetrates through the interior of the winding drum, the winding device comprises a winding drum, a winding guide gear, a limiting cutting device and a detachable clamping cutting auxiliary plate, wherein the winding guide gear is fixedly arranged on the outer side of the winding drum;

the winding guide device comprises a fixed table fixedly installed on the ground, a long groove is formed in the upper portion of the fixed table, two sliding grooves are formed in the long groove, a panel is fixedly installed at one end of the upper portion of the fixed table, a first motor is fixedly installed on the front face of the panel, a screw rod is fixedly installed on an output shaft of the first motor, a guide table capable of sliding in the sliding grooves is movably installed on the screw rod, and a guide ring is fixedly installed in the middle of the guide table;

the driving device comprises a second motor fixedly arranged on one side of the side mounting plate, a first gear is fixedly arranged on an output shaft of the second motor, a rotary mounting ring is movably arranged on the side mounting plate, a second gear is fixedly arranged at one end of the rotary mounting ring, and the first gear and the second gear are meshed with each other;

the winding drum comprises driving inner rings movably mounted on the two supporting plates, connecting rods are circumferentially and fixedly mounted on the outer portions of the far ends of the two driving inner rings, and one ends of the connecting rods are fixedly mounted in the winding outer drum;

the cutting device comprises a table top fixedly arranged between two side mounting plates, a hydraulic telescopic rod is fixedly arranged on the upper side of the middle part of the table top, a transverse plate is fixedly arranged at the top end of the hydraulic telescopic rod, two sides of the middle part of the upper surface of the transverse plate are respectively and fixedly provided with an ejector block, and a cutter is fixedly arranged in the middle part of the upper surface of the transverse plate;

the winding guide teeth comprise guide bars which are circumferentially and fixedly arranged outside the winding outer barrel, fixed screw grooves are fixedly formed in the upper surfaces of two ends of each guide bar, edge fixing grooves are respectively formed in two ends of each guide bar, and guide grooves are formed in the guide bars between the two edge fixing grooves at equal intervals;

the limiting and cutting device comprises a clamping table movably mounted on the winding outer cylinder, first channels are respectively formed in two sides of the interior of the clamping table, a limiting through groove is formed in one side of the interior of the clamping table, side guide blocks are respectively and fixedly mounted on two sides of the exterior of the clamping table, a second channel is formed in the interior of the clamping table, a buffering buckle structure is movably mounted in the second channel, and a cutting groove is formed in the middle of the interior of the clamping table and the buffering buckle structure in a penetrating mode;

the manufacturing method of the anti-aging woven yarn for the geotextile comprises the following steps:

s1, equipment checking: before starting the anti-aging weaving yarn manufacturing device for the geotextile, checking the operation of equipment;

s2, winding of the braided wire: the woven wire after secondary heating and stretching is conveyed to a winding structure on the right side from the guide ring, the winding drum is driven to rotate by the driving device, and meanwhile, the guide table slowly moves towards one end along with the driving of the first motor, so that the woven wire is wound;

s3, cutting the knitting silk: firstly, installing a clamping cutting auxiliary plate at a corresponding point on a limiting cutting device needing cutting, then starting a hydraulic telescopic rod to cut off the braided wire, and taking down the corresponding limiting cutting device and the clamping cutting auxiliary plate together after cutting;

s4, collecting finished products: and correspondingly collecting the removed braided wires.

Preferably, the diameter of first gear will be less than the diameter of second gear much, drive arrangement drives the rotatory half a circle guide table of rolling urceolus and then can move the length of a guide slot under the rotation of first motor, through the conduction effect of first gear to the second gear, reduces the rotation rate of rolling urceolus, lets weave inside the silk can better card goes into the guide slot, combines the synchronous motion of guide table, and the silk of weaving of rolling on the rolling urceolus can be inseparable together like this, guarantees single maximum volume of rolling.

Preferably, the backup pad becomes L shape and minor face fixed mounting on the side-mounting board, the both ends difference movable mounting of drive inner ring is in two backup pads, the mesa runs through two drive inner ring centers but both not mutual contacts, through second motor drive, can drive the rolling urceolus at last and carry out the rolling, and the mesa passes its inside nevertheless contactless can be in fixed position flexible in order to guarantee its inside hydraulic telescoping rod to promote the cutter and carry out the cutting off to weaving the silk, as long as the top of rotating the point that will cut off to vertical position can realize cutting off, improved the cutting efficiency to weaving the silk greatly, realize once cutting off and form the isometric weaving silk of multistage.

Preferably, a long groove with one end penetrating is formed in the winding outer cylinder, a detachable limiting and cutting device is movably mounted in the long groove of the winding outer cylinder, the limiting and cutting device is arranged in the long groove of the winding outer cylinder, therefore, a plurality of limiting and cutting devices are arranged in the circumferential direction of the winding outer cylinder, braided wires can be cut from one or more limiting and cutting devices according to the actual required length after winding is completed, braided wires with different lengths can be generated, the limiting and cutting devices can be detached at any time after cutting, concentrated collection of the cut braided wires is facilitated, and production efficiency is greatly improved.

Preferably, the cross-section of edge fixed slot is the square groove of rectangle, the cross-section of guide slot is the trapezoidal ladder groove of falling, and the square groove can combine fixed thread groove, utilizes the briquetting that corresponds the shape to combine the screw with the briquetting fix the briquetting at the one end tip that the lead bar surface and the bottom of briquetting can push down the weaving silk, guarantees to weave the silk and can not drop at the rolling in-process, and trapezoidal guide slot then increases to weave the silk and can be better when certain dislocation takes place to fall to the guide slot in rotatory in-process, guarantees to weave the accurate rolling of silk to guarantee that the length of weaving after the rolling is cut off is unanimous.

Preferably, the buffer buckle structure comprises a rotary buckle movably arranged in the second channel and a pressing push plate movably arranged in the first channel, a pressing block is fixedly arranged in one side, close to the outer wall of the rolling outer cylinder, of the pressing push plate, a first spring is movably arranged between the rotary buckle and the pressing block, second springs connected with the pressing push plate are movably arranged on two sides, located on one side, provided with the pressing block, of the pressing push plate in the first channel, two sides of the pressing push plate are respectively and fixedly provided with side buckles with elasticity, two ends of the clamping table are closed, a groove structure is arranged in the middle of the clamping table, the buffer buckle structure is fixedly arranged in the groove, the clamping cutting auxiliary plate is movably arranged on the outer side of the pressing block and can be installed or detached according to an actual cutting point, and after the rolling outer cylinder finishes rolling from one end to the other end, the clamping and cutting auxiliary plate is arranged on the corresponding pressing block according to the position to be cut off, then the pressing block tightly presses the braided wire wound on the outer ring of the winding outer cylinder on one side of the inner part of the clamping and cutting auxiliary plate by the pressing of the top block on the pressing push plate, the automatic locking after the pressing and fixing is completed by the cooperation of the rotary buckle and the buckle of the side buckle, then the weaving silk at the position is cut off by a cutter, the whole limiting and cutting device is taken down after the cutting, then the rotating buckles at the two sides are pressed inwards to unlock the locking structure, so that the lengths of the unfolded cut braided wires are the same, and the cutting-off cuts a whole common knitting yarn into a plurality of same knitting yarns, greatly improves the production efficiency, meanwhile, the length consistency of the production of the braided wire is improved, the subsequent material waste is reduced, and the cost is saved.

The invention has the beneficial effects that:

the invention can change the traditional multilayer winding mode into a single-layer winding mode, stop winding after the winding of one layer of braided wire is finished, and then cut off the braided wire wound on the outer side of the winding outer cylinder at a fixed point by controlling the extension of the cutting device to penetrate through the limiting cutting device, so that all the braided wires wound outside the winding outer cylinder are directly cut off along a straight line by the cutting device after the winding of one layer is finished, thus cutting off one layer of braided wire can be finished at one time, and the working efficiency is greatly improved compared with one-section cutting;

the clamping cutting auxiliary plates are movably arranged on the outer sides of the corresponding limiting cutting devices, the limiting cutting devices provided with the clamping cutting auxiliary plates are penetrated through and cut off the weaving wires wound on the outer surfaces one by one through the cutting devices, so that a layer of the wound weaving wires can be cut into two sections of different lengths, the lengths of the weaving wires cut off are completely consistent, the condition that the lengths generated by cutting a section in a traditional mode are inconsistent is avoided, errors caused by the fact that the weaving wires droop when the weaving wires with longer lengths are required to be cut off are avoided, the weaving wires can be cut off once every several circles according to the required lengths, then the cutters are correspondingly replaced, the production of more longer weaving wires can be realized, and the practicability and the efficiency of equipment are greatly improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic flow chart of a manufacturing method of the anti-aging woven yarn for the geotextile;

FIG. 2 is a schematic top view of the structure of the present invention;

FIG. 3 is a first perspective view of a wrap-around portion of the present invention;

FIG. 4 is a second perspective view of the wrap-around portion of the present invention;

FIG. 5 is a perspective view of the interior of the wrap-up portion of the present invention;

FIG. 6 is a schematic front cross-sectional view of a rolling portion of the present invention;

FIG. 7 is a side view of a rolling portion of the present invention;

FIG. 8 is an enlarged view of the point A in FIG. 3 according to the present invention;

FIG. 9 is an enlarged view of the point B in FIG. 6 according to the present invention.

In the figure: 1. a winding guide device; 1a, a fixed table; 1b, long grooves; 1c, a chute; 1d, a panel; 1e, a first motor; 1f, a screw; 1g, a guide table; 1h, a guide ring; 2. a side mounting plate; 3. a drive device; 31. a second motor; 32. a first gear; 33. rotating the mounting ring; 34. a second gear; 4. a support plate; 5. winding the roll; 51. a drive inner ring; 52. a connecting rod; 53. winding an outer cylinder; 6. a cutting device; 61. a table top; 62. a hydraulic telescopic rod; 63. a transverse plate; 64. a top block; 65. a cutter; 7. winding guide teeth; 71. conducting bars; 72. fixing the screw groove; 73. an edge fixing groove; 74. a guide groove; 8. a limiting and cutting device; 81. clamping a platform; 82. a first channel; 83. a limiting through groove; 84. a side guide block; 85. a second channel; 86. a buffer buckle structure; 861. rotating the buckle; 862. a pressing push plate; 863. a compression block; 864. a first spring; 865. a second spring; 866. side buckle; 87. grooving; 9. the cutting auxiliary plate is clamped.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, a method for manufacturing anti-aging woven yarns for geotextiles, which uses the following devices, the device comprises a winding guide device 1 and side mounting plates 2, wherein the winding guide device 1 and the side mounting plates 2 are fixedly mounted on the ground at intervals, the number of the side mounting plates 2 is two, the two side mounting plates are respectively fixedly mounted at the upper end and the lower end, a driving device 3 is fixedly arranged on the side mounting plates 2, supporting plates 4 are respectively fixedly mounted at the opposite ends of the two side mounting plates 2, winding drums 5 are movably mounted on the two supporting plates 4, a cutting device 6 is fixedly mounted between the two side mounting plates 2 and penetrates through the interior of the winding drums 5, winding guide teeth 7 are fixedly mounted on the outer sides of the winding drums 5, limiting cutting devices 8 are movably connected onto the winding drums 5, and detachable clamping cutting auxiliary plates 9 are movably mounted on the;

the winding guide device 1 comprises a fixed table 1a fixedly installed on the ground, a long groove 1b is formed in the upper portion of the fixed table 1a, two sliding grooves 1c are formed in the long groove 1b, a panel 1d is fixedly installed at one end of the upper portion of the fixed table 1a, a first motor 1e is fixedly installed on the front face of the panel 1d, a screw rod 1f is fixedly installed on an output shaft of the first motor 1e, a guide table 1g capable of sliding in the sliding grooves 1c is movably installed on the screw rod 1f, and a guide ring 1h is fixedly installed in the middle of the guide table 1 g;

the driving device 3 comprises a second motor 31 fixedly arranged on one side of the side mounting plate 2, a first gear 32 is fixedly arranged on an output shaft of the second motor 31, a rotary mounting ring 33 is movably arranged on the side mounting plate 2, a second gear 34 is fixedly arranged at one end of the rotary mounting ring 33, and the first gear 32 and the second gear 34 are meshed with each other;

the winding drum 5 comprises driving inner rings 51 movably mounted on the two support plates 4, connecting rods 52 are circumferentially and fixedly mounted outside the far ends of the two driving inner rings 51, and one ends of the connecting rods 52 are fixedly mounted inside the winding outer drum 53;

the cutting device 6 comprises a table board 61 fixedly arranged between the two side mounting plates 2, a hydraulic telescopic rod 62 is fixedly arranged on the upper side of the middle part of the table board 61, a transverse plate 63 is fixedly arranged at the top end of the hydraulic telescopic rod 62, two sides of the middle part of the upper surface of the transverse plate 63 are respectively and fixedly provided with a top block 64, and a cutter 65 is fixedly arranged in the middle part of the upper surface of the transverse plate 63;

the winding guide teeth 7 comprise guide bars 71 which are circumferentially and fixedly installed outside the winding outer cylinder 53, fixed screw grooves 72 are fixedly formed in the upper surfaces of two ends of each guide bar 71, edge fixing grooves 73 are respectively formed in two ends of each guide bar 71, and guide grooves 74 are formed in the guide bars 71 between the two edge fixing grooves 73 at equal intervals;

the limiting and cutting device 8 comprises a clamping table 81 movably mounted on the winding outer cylinder 53, first channels 82 are respectively formed in two sides of the interior of the clamping table 81, a limiting through groove 83 is formed in one side of the interior of the clamping table 81, side guide blocks 84 are respectively fixedly mounted on two sides of the exterior of the clamping table 81, a second channel 85 is formed in the interior of the clamping table 81, a buffering buckle structure 86 is movably mounted in the second channel 85, and a cutting groove 87 is formed in the middle of the interior of the clamping table 81 and the buffering buckle structure 86 in a penetrating mode;

the manufacturing method of the anti-aging woven yarn for the geotextile comprises the following steps:

s1, equipment checking: before starting the anti-aging weaving yarn manufacturing device for the geotextile, checking the operation of equipment;

s2, winding of the braided wire: the braided wire after secondary heating and stretching is conveyed to a winding structure on the right side from the guide ring 1h, the winding drum 5 is driven to rotate by the driving device 3, and meanwhile, the guide table 1g slowly moves towards one end along with the driving of the first motor 1e, so that the braided wire is wound;

s3, cutting the knitting silk: firstly, installing a clamping cutting auxiliary plate 9 at a corresponding point on a limiting cutting device 8 to be cut, then starting a hydraulic telescopic rod 62 to cut off the braided wire, and taking down the corresponding limiting cutting device 8 and the clamping cutting auxiliary plate 9 together after cutting;

s4, collecting finished products: and correspondingly collecting the removed braided wires.

The diameter of the first gear 32 is much smaller than that of the second gear 34, the driving device 3 drives the winding outer cylinder 53 to rotate for a half-circle guide table 1g, the guide table can move for a length of one guide groove 74 under the rotation action of the first motor 1e, the rotation speed of the winding outer cylinder 53 is reduced through the conduction action of the first gear 32 on the second gear 34, the braided wires can be better clamped into the guide grooves 74, and the braided wires wound on the winding outer cylinder 53 can be tightly attached together by combining the synchronous movement of the guide table 1g, so that the single maximum winding amount is ensured.

Wherein, backup pad 4 becomes L shape and minor face fixed mounting on side-mounting board 2, drive inner ring 51's both ends respectively movable mounting on two backup pads 4, mesa 61 runs through two drive inner ring 51 centers but both do not contact each other, drive through second motor 31, can drive rolling urceolus 53 at last and roll, and mesa 61 passes its inside but not contact in order to guarantee that its inside hydraulic telescoping rod 62 can stretch out and draw back at fixed position, thereby promote cutter 65 and carry out the cutting off to weaving the silk, as long as the top of rotating the point that will cut off to vertical position can realize cutting off, greatly improved the cutting off efficiency to weaving the silk, realize once cutting off and form the isometric weaving silk of multistage.

The winding outer cylinder 53 is provided with a long groove with one end penetrating through, a detachable limiting cutting device 8 is movably mounted in the long groove of the winding outer cylinder 53, the limiting cutting device 8 is arranged in the long groove of the winding outer cylinder 53, therefore, a plurality of limiting cutting devices 8 are arranged in the circumferential direction of the winding outer cylinder 53, braided wires can be cut from one or more limiting cutting devices 8 according to the actually required length after winding is completed, braided wires with different lengths can be generated, the limiting cutting devices 8 can be detached at any time after cutting, the cut braided wires can be conveniently collected in a centralized manner, and the production efficiency is greatly improved.

Wherein, the cross-section of edge fixed slot 73 is the square groove of rectangle, the cross-section of guide slot 74 is the trapezoidal ladder groove of falling, the square groove can combine fixed spiral shell groove 72, utilize the briquetting that corresponds the shape to combine the screw with the briquetting fix the briquetting at conducting bar 71 surface and the bottom of briquetting can push down the one end tip of weaving the silk, guarantee to weave the silk and can not drop at the rolling in-process, trapezoidal guide slot 74 then increase to weave the silk and take place certain dislocation in the guide slot 74 that falls that can be better when taking place, guarantee to weave the accurate rolling of silk, thereby guarantee that the length of weaving after the rolling is cut off is unanimous.

Wherein, the buffer buckle structure 86 comprises a rotary buckle 861 movably arranged in the second channel 85 and a pressing push plate 862 movably arranged in the first channel 82, a pressing block 863 is fixedly arranged in one side of the pressing push plate 862 close to the outer wall of the rolling outer cylinder 53, a first spring 864 is movably arranged between the rotary buckle 861 and the pressing block 863, a second spring 865 connected with the pressing push plate 862 is movably arranged at two sides of one side of the pressing push plate 862 where the pressing block 863 is arranged in the first channel 82, elastic side buckles 866 are respectively and fixedly arranged at two sides of the pressing push plate 862, two ends of the clamping table 81 are closed, the structure with a groove in the middle and the buffer buckle structure 86 are fixedly arranged in the groove, the clamping cutting auxiliary plate 9 is movably arranged on the outer side of the pressing block 863 and can be installed or detached according to the actual cutting point, when the rolling outer cylinder 53 finishes rolling from one end to the other end, the clamping cutting auxiliary plate 9 is arranged on the corresponding pressing block 863 according to the position to be cut, then the pressing push plate 862 is pressed by the jacking block 64 to enable the pressing block 863 to tightly press the knitting yarns wound on the outer ring of the winding outer cylinder 53 to one side in the clamping cutting auxiliary plate 9, automatic locking after extrusion and fixation is completed through the buckle matching of the rotary buckle 861 and the side buckle 866, then the knitting yarns at the position are cut by the cutter 65, the limiting cutting device 8 is integrally taken down after cutting, then the locking structure is unlocked by inwards pressing the rotary buckles 861 at the two sides, so that the lengths of the unfolded cut knitting yarns are the same, and the whole common knitting yarn is cut into a plurality of same knitting yarns by cutting at this time, the production efficiency is greatly improved, and the length consistency of the knitting yarn production is also improved, and subsequent material waste is reduced, and the cost is saved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The manufacturing method of the anti-aging woven wire for the geotextile adopts the following device, and the device comprises a rolling guide device (1) and a side mounting plate (2), and is characterized in that: the winding guide device comprises a winding guide device (1) and side mounting plates (2), wherein the side mounting plates (2) are fixedly mounted on the ground at intervals, the number of the side mounting plates (2) is two, the two side mounting plates are fixedly mounted at the upper end and the lower end respectively, a driving device (3) is fixedly arranged on the side mounting plates (2), the opposite ends of the two side mounting plates (2) are fixedly mounted with supporting plates (4) respectively, winding drums (5) are movably mounted on the two supporting plates (4), a cutting device (6) penetrates through the insides of the winding drums (5) between the two side mounting plates (2), winding guide teeth (7) are fixedly mounted on the outer sides of the winding drums (5), limiting cutting devices (8) are movably connected onto the winding drums (5), and detachable clamping cutting auxiliary plates (9) are movably mounted on the outsides of;

the winding guide device (1) comprises a fixed table (1a) fixedly mounted on the ground, a long groove (1b) is formed in the upper portion of the fixed table (1a), two sliding grooves (1c) are formed in the long groove (1b), a panel (1d) is fixedly mounted at one end of the upper portion of the fixed table (1a), a first motor (1e) is fixedly mounted on the front face of the panel (1d), a screw rod (1f) is fixedly mounted on an output shaft of the first motor (1e), a guide table (1g) capable of sliding in the sliding grooves (1c) is movably mounted on the screw rod (1f), and a guide ring (1h) is fixedly mounted in the middle of the guide table (1 g);

the driving device (3) comprises a second motor (31) fixedly mounted on one side of the side mounting plate (2), a first gear (32) is fixedly mounted on an output shaft of the second motor (31), a rotary mounting ring (33) is movably mounted on the side mounting plate (2), a second gear (34) is fixedly mounted at one end of the rotary mounting ring (33), and the first gear (32) and the second gear (34) are meshed with each other;

the winding drum (5) comprises driving inner rings (51) movably mounted on the two support plates (4), connecting rods (52) are circumferentially and fixedly mounted on the outer portions of the far ends of the two driving inner rings (51), and one ends of the connecting rods (52) are fixedly mounted in a winding outer drum (53);

the cutting device (6) comprises a table board (61) fixedly installed between two side installation plates (2), a hydraulic telescopic rod (62) is fixedly installed on the upper side of the middle of the table board (61), a transverse plate (63) is fixedly installed at the top end of the hydraulic telescopic rod (62), ejector blocks (64) are fixedly installed on two sides of the middle of the upper surface of the transverse plate (63) respectively, and a cutter (65) is fixedly installed in the middle of the upper surface of the transverse plate (63);

the winding guide teeth (7) comprise guide bars (71) which are circumferentially and fixedly installed outside the winding outer cylinder (53), fixing screw grooves (72) are fixedly formed in the upper surfaces of two ends of each guide bar (71), edge fixing grooves (73) are respectively formed in two ends of each guide bar (71), and guide grooves (74) are formed in the guide bars (71) between the two edge fixing grooves (73) at equal intervals;

the limiting and cutting device (8) comprises a clamping table (81) movably mounted on the winding outer cylinder (53), first channels (82) are respectively formed in two sides of the interior of the clamping table (81), a limiting through groove (83) is formed in one side of the interior of the clamping table (81), side guide blocks (84) are respectively and fixedly mounted on two sides of the exterior of the clamping table (81), a second channel (85) is formed in the clamping table (81), a buffering buckle structure (86) is movably mounted in the second channel (85), and a cutting groove (87) is formed in the middle of the interior of the clamping table (81) and the buffering buckle structure (86) in a penetrating mode;

the manufacturing method of the anti-aging woven yarn for the geotextile comprises the following steps:

s1, equipment checking: before starting the anti-aging weaving yarn manufacturing device for the geotextile, checking the operation of equipment;

s2, winding of the braided wire: the knitting yarn after secondary heating and stretching is conveyed to a winding structure on the right side from the guide ring (1h), the winding drum (5) is driven to rotate by the driving device (3), and meanwhile, the guide table (1g) moves towards one end slowly along with the driving of the first motor (1e), so that the winding of the knitting yarn is realized;

s3, cutting the knitting silk: firstly, installing a clamping cutting auxiliary plate (9) at a corresponding point on a limiting cutting device (8) needing cutting, then starting a hydraulic telescopic rod (62), cutting off the braided wire, and taking down the corresponding limiting cutting device (8) and the clamping cutting auxiliary plate (9) together after cutting;

s4, collecting finished products: and correspondingly collecting the removed braided wires.

2. The manufacturing method of the anti-aging woven wire for the geotextile, according to claim 1, is characterized in that: the diameter of the first gear (32) is much smaller than that of the second gear (34), and the driving device (3) drives the winding outer cylinder (53) to rotate for half a circle of the guide table (1g) to move for the length of one guide groove (74) under the rotation action of the first motor (1 e).

3. The manufacturing method of the anti-aging woven wire for the geotextile, according to claim 1, is characterized in that: the supporting plates (4) are L-shaped, the short sides of the supporting plates are fixedly mounted on the side mounting plates (2), two ends of the driving inner rings (51) are movably mounted on the two supporting plates (4) respectively, and the table board (61) penetrates through the centers of the two driving inner rings (51) but the two driving inner rings are not in contact with each other.

4. The manufacturing method of the anti-aging woven wire for the geotextile, according to claim 1, is characterized in that: an elongated slot with one end penetrating is formed in the winding outer cylinder (53), and a detachable limiting and cutting device (8) is movably mounted in the elongated slot of the winding outer cylinder (53).

5. The manufacturing method of the anti-aging woven wire for the geotextile, according to claim 1, is characterized in that: the cross section of the edge fixing groove (73) is a rectangular square groove, and the cross section of the guide groove (74) is an inverted trapezoidal ladder groove.

6. The manufacturing method of the anti-aging woven wire for the geotextile, according to claim 1, is characterized in that: the buffer buckle structure (86) comprises a rotary buckle (861) movably mounted in a second channel (85) and a pressing push plate (862) movably arranged in a first channel (82), a pressing block (863) is fixedly mounted in one side, close to the outer wall of the rolling outer cylinder (53), of the pressing push plate (862), a first spring (864) is movably arranged between the rotary buckle (861) and the pressing block (863), second springs (865) connected with the pressing push plate (862) are movably arranged on two sides, located on one side, provided with the pressing block (863), of the pressing push plate (862) in the first channel (82), side buckles (866) with elasticity are fixedly mounted on two sides of the pressing push plate (862) respectively, two ends of the clamping table (81) are closed, a groove structure is arranged in the middle of the structure, the buffer buckle structure (86) is fixedly arranged in the groove, and the clamping and cutting auxiliary plate (9) is movably mounted on the outer side of the pressing block (863) and can be arranged according to the actual situation The cutting point is mounted or dismounted.

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