CN119347399B

CN119347399B - Textile garment eye-correcting machine

Info

Publication number: CN119347399B
Application number: CN202411682497.XA
Authority: CN
Inventors: 余政林
Original assignee: Shenzhen Kenai Automation Equipment Co ltd
Current assignee: Shenzhen Kenai Automation Equipment Co ltd
Priority date: 2024-11-22
Filing date: 2024-11-22
Publication date: 2026-01-06
Anticipated expiration: 2044-11-22
Also published as: CN119347399A

Abstract

The invention relates to the technical field of a textile manufacturing eye correcting machine, in particular to a textile manufacturing eye correcting machine. The technical scheme is that the spinning assembly eye calibrating machine comprises an assembly component, a harness wire feeding component and a harness wire calibration component, wherein the harness wire feeding component and the harness wire feeding component are respectively arranged at the upper end and the lower end of the assembly component, the harness wire calibration component and the harness wire draw hook component are respectively arranged at the front end and the rear end of the assembly component, the lower end of the harness wire feeding component is provided with an integral base, and a thermoplastic heating module is arranged in front of the harness wire calibration component. According to the invention, the clamping cylinder of the harness cord feeding assembly drives the clamping rod to clamp the harness cord in front of the harness cord adjusting plate, so that the positioning deviation of the harness cord is avoided.

Description

Hole calibrating machine for textile assembly

Technical Field

The invention belongs to the technical field of textile manufacturing eye correcting machines, and particularly relates to a textile manufacturing eye correcting machine.

Background

The eyelet machine for textile construction plays an important role in the field of textile machinery, in particular in jacquard machines, textile machines and the like, for continuous lifting and lowering operations of warp threads.

The existing textile assembly eye correcting machine is characterized in that the connecting precision and efficiency between the harness wires and the steel heald wires are relatively low due to the fact that the harness wires and the steel heald wires are positioned and fixed manually, the manual operation is often affected by various factors, such as human errors, insufficient operation experience and the like, the precision of the positioning and fixing operation is reduced due to the factors, meanwhile, the manual operation is relatively long in time consumption, the requirement of the textile industry on high-efficiency production cannot be met, and the problem of connecting precision and efficiency of the harness wires and the steel heald wires is aggravated.

Therefore, aiming at the problem that the connection precision between the harness wire and the steel heald wire is low and the efficiency is low because the harness wire and the steel heald wire are positioned and fixed manually in the conventional weaving device eye correcting machine, the weaving device eye correcting machine can be designed.

Disclosure of Invention

In order to overcome the problem that the connection precision between the harness cord and the steel heald winding displacement is low and the efficiency is low because the harness cord and the steel heald winding displacement are positioned and fixed manually in the conventional weaving device eye correcting machine.

The technical scheme is that the spinning, assembling and eye correcting machine comprises an assembling component, a harness wire feeding component and a harness wire calibrating component, wherein the harness wire feeding component and the harness wire arranging and feeding component are respectively arranged at the upper end and the lower end of the assembling component, the harness wire calibrating component and the harness wire drawing hook component are respectively arranged at the front end and the rear end of the assembling component, an integral base is arranged at the lower end of the harness wire arranging and feeding component, a thermoplastic heating module is arranged in front of the harness wire calibrating component, the harness wire feeding component comprises a harness wire adjusting bracket, a first feeding cylinder, a harness wire adjusting plate, a wire clamping cylinder and a wire clamping rod, and the harness wire calibrating component comprises a cover plate cylinder, a harness wire cover plate, a harness wire calibrating hard shaft and a cable cutting cylinder group.

Preferably, the clamping rod is driven by the clamping cylinder of the harness cord feeding assembly to clamp the harness cord before the harness cord adjusting plate, so that the problem that the harness cord is positioned and deviated is solved, and the problem that the connection precision between the harness cord and the steel heald winding displacement is low in efficiency due to the fact that the conventional textile manufacturing eyelet correcting machine is usually operated by manually positioning and fixing the harness cord and the steel heald winding displacement is solved.

The assembly comprises an adjusting block, a linkage block, a steel heald clamping block, a U-shaped flat cable mounting backboard, an adjusting block lifting cylinder, a rack block lifting cylinder and a steel heald flat cable plate, wherein the linkage block is arranged above the adjusting block and fixedly connected with the adjusting block, the adjusting block is in lifting sliding connection with a vertical sliding rod of the integral base, the steel heald clamping block is arranged at the front end of the linkage block, the steel heald clamping block is in rotary connection with the linkage block, one side of the steel heald clamping block is provided with a rotary elastic screw, and the rotary elastic screw is in threaded locking connection with a rotary shaft between the steel heald clamping block and the linkage block.

The novel wire harness lifting mechanism comprises a regulating block, a U-shaped wire harness mounting backboard, a rack bar block lifting cylinder, a steel heald wire harness mounting backboard, a regulating block lifting cylinder, a regulating block lifting transmission connection and a regulating block lifting transmission connection, wherein the front end face of the regulating block is provided with the U-shaped wire harness mounting backboard, the U-shaped wire harness mounting backboard is fixedly connected with the regulating block through bolts, the upper end of the U-shaped wire harness mounting backboard is provided with the rack bar block, the lower end of the rack bar block is provided with the rack bar block lifting cylinder, the output end of the rack bar block lifting cylinder is connected with the rack bar block lifting transmission connection, the shell of the rack bar block lifting cylinder is fixedly connected with the regulating block, the front end of the U-shaped wire harness mounting backboard is provided with a steel heald wire harness plate, the steel heald wire harness plate is fixedly connected with the U-shaped wire harness mounting backboard through bolts, and the lower end of the U-shaped wire harness mounting backboard is provided with the regulating block lifting cylinder.

The steel heald wire arranging plate is characterized in that a steel heald cover plate is arranged in front of the steel heald wire arranging plate, a steel heald calibration hard shaft is fixedly arranged at the upper end of the steel heald cover plate, a cover plate cylinder is fixedly arranged on one side of the adjusting block, the output end of the cover plate cylinder is in pneumatic transmission connection with the steel heald cover plate, and the steel heald cover plate and the steel heald calibration hard shaft compress and calibrate steel heald wires in the steel heald wire arranging plate to prevent deviation.

Preferably, the upper end of the cover plate cylinder is provided with a cable cutting cylinder group, and the shell of the cable cutting cylinder group is fixedly connected with the adjusting block.

The device comprises a linkage block, a first feeding cylinder, a first wire adjusting bracket, a first feeding cylinder and a second feeding cylinder, wherein the first feeding cylinder is arranged above the linkage block, the output end of the first feeding cylinder is connected with the first feeding cylinder in a front-back adjusting mode, the first feeding cylinder is provided with the first wire adjusting bracket, the first feeding cylinder is fixedly connected with a shell of the first feeding cylinder, and the first feeding cylinder is fixedly connected with the first feeding cylinder shell.

Preferably, a wire clamping air cylinder is arranged on one side of the wire passing adjusting support, a shell of the wire clamping air cylinder is fixedly connected with the wire passing adjusting plate, a wire clamping rod is arranged above the wire clamping air cylinder, the wire clamping rod penetrates through the wire passing adjusting support and the wire passing adjusting plate to be movably arranged, and the wire clamping rod is horizontally and drivingly connected with the output end of the wire clamping air cylinder.

The harness wire draw hook assembly comprises a hook plate frame, a steel heald hook plate, a hook plate cylinder, a sheet hook cylinder and a steel heald positioning groove, wherein the steel heald hook plate is arranged at the rear part between a steel heald wire arranging plate and a steel heald head clamping block, the hook plate frame is arranged at the rear part of the steel heald hook plate, the hook plate cylinder is arranged at the rear part of the hook plate frame, the output end of the hook plate cylinder penetrates through the hook plate frame to be in front-rear transmission connection with a shell of the steel heald hook plate, the sheet hook is arranged in the steel heald hook plate, the sheet hook cylinders are arranged at two sides of the integral rear end of the sheet hook, the output end of the sheet hook cylinder is in front-rear transmission connection with the sheet hook, the steel heald positioning groove is arranged below the sheet hook, the steel heald positioning groove is fixedly connected with the shell of the steel heald wire arranging plate, and the sheet hook and the steel heald positioning groove are in front transmission to the steel heald wire arranging plate.

The steel heald wire feeding assembly comprises a steel heald adjusting base, a steel heald base lifting cylinder, a steel heald mounting plate, a steel heald adjusting plate and a second feeding cylinder, wherein the steel heald adjusting base is arranged below the adjusting block, the steel heald base lifting cylinder is arranged at the lower end of the steel heald adjusting base, and the output end of the steel heald base lifting cylinder is connected with the steel heald adjusting base in a lifting manner.

Preferably, the upper end of the heald adjusting base is provided with a heald mounting plate which is fixedly connected with the heald adjusting base, the front end of the heald mounting plate is provided with a heald adjusting plate, the two sides of the rear end of the heald mounting plate are respectively provided with a second feeding cylinder, and the output end of each second feeding cylinder penetrates through the heald mounting plate to be in front-back moving transmission connection with the heald adjusting plate.

The invention has the beneficial effects that:

1. The existing spinning and manufacturing eyelet correcting machine has the problems that the connection precision between the harness cord and the steel heald wire is low and the efficiency is low because the harness cord and the steel heald wire are positioned and fixed manually; the device comprises a harness wire feeding component, a harness wire adjusting plate, a harness wire clamping rod, a harness wire positioning and deviation preventing device, a harness wire clamping rod, a clamping rod and a clamping rod, wherein the harness wire clamping rod is driven by the harness wire feeding component to clamp the harness wire in front of the harness wire adjusting plate, so that the problem that the connection precision between the harness wire and a steel heald winding displacement is low and the efficiency is low due to the fact that the harness wire and the steel heald winding displacement positioning and fixing operation is usually carried out manually by the conventional weaving device;

2. Through setting up of steel heald calibration subassembly, utilize the cover plate cylinder to drive steel heald cover plate and the steel heald of linking to each other calibrate hard axle and carry out the centre gripping extrusion to the steel heald cable in the steel heald winding displacement board groove fixed to when making the harness wire pass the string hook of steel heald upper segment, the steel heald end can remain stable, thereby effectively improved the machining precision of being connected between the installation school eye machine processing steel heald and the harness wire.

3. Firstly, a sleeving bracket of a steel heald cable passes through a bracket rod in front of a steel heald mounting plate, then the upper section part of the steel heald cable is embedded into a groove of a steel heald cable arranging plate for fixing, then a steel heald head clamping block is turned downwards to fixedly lock the end head of the upper section of the steel heald cable, then a cover plate cylinder drives the steel heald cover plate and a steel heald calibration hard shaft to fix the steel heald cable arranged in the steel heald cable arranging plate, a hook plate cylinder drives a steel heald hook plate to move forwards, a sheet hook cylinder drives a sheet hook to stretch, the steel heald cable is fixed in a steel heald positioning groove, meanwhile, a sheet hook passes through, then a harness wire above a machine is pulled downwards to pass through in front of a sheet hook penetrating through the end head hook of the steel heald cable, then the wire clamping cylinder drives a wire clamping rod to move and fix the harness wire in front of the harness wire adjusting plate, the hook disc cylinder drives the steel heald hook disc to integrally pull back, so that the harness wires hooked on the sheet hooks pass through hooks at the ends of the steel heald cables, the redundant harness wires are pulled out of the machine backwards, the rack block lifting cylinder pushes the rack block to move upwards and match with the cable cutting cylinder group to cut off the redundant harness wires pulled out backwards, the wire ends of the harness wires are pressed, adhered and heated to each other to form harness wire knots, the steel heald calibration assembly and the harness wire feeding assembly are driven to move up and down along with the lifting cylinder of the adjusting block to drive the assembly to move up and down to realize that the harness wire knots move down into thermoplastic sleeves arranged on the steel heald jackets, and finally, the thermoplastic heating module heats and thermoplastic sleeves at the knots between the harness wires and the steel heald hooks to realize the thermoplastic wrapping processing steps of the knots, so that the assembly and the manufacturing of the harness wires are completed.

Drawings

FIG. 1 shows a schematic overall side perspective view of the present invention textile machine;

FIG. 2 shows a schematic view of the overall front perspective of the present invention textile machine;

FIG. 3 shows a schematic perspective view of a harness cord feeding assembly of the present invention for a textile machine;

FIG. 4 shows a schematic perspective view of the assembly components of the textile assembly eye-checking machine of the present invention;

FIG. 5 shows a schematic rear perspective view of the assembly components of the textile assembly eye-checking machine of the present invention;

FIG. 6 shows a schematic view of an exploded perspective view of a steel heald wire plate of the eyelet machine of the present invention;

FIG. 7 is a schematic view showing a combined perspective construction of an assembly component and a steel heald calibration component of the textile assembly eyeshade corrector of the present invention;

FIG. 8 is a schematic view showing a rear perspective construction of an assembly and a steel heald calibration assembly of the textile assembly eye-checking machine of the present invention;

FIG. 9 is a schematic perspective view showing a steel heald wire feeding assembly of the eyelet machine of the present invention;

fig. 10 shows a schematic perspective view of a harness cord retractor assembly of the present invention for a textile machine.

The drawing comprises a 1, a building component, a 2, a harness wire feeding component, a3, a harness wire pulling hook component, a 4, a steel heald wire feeding component, a 5, a whole base, a 6, a steel heald calibration component, a 7, a thermoplastic heating module, a 101, an adjusting block, a 102, a linkage block, a 103, a steel heald clamping block, a 104, a U-shaped wire mounting backboard, a 105, an adjusting block lifting cylinder, a 106, a rack block, a 107, a rack block lifting cylinder, a 108, a steel heald wire pulling plate, a 201, a harness wire adjusting bracket, a 202, a first feeding cylinder, 203, a harness wire adjusting plate, 204, a wire clamping cylinder, 205, a wire clamping rod, 301, a hook plate frame, 302, a steel heald hook plate, 303, a hook plate cylinder, 304, a sheet hook, a 306, a steel heald positioning groove, 401, a steel heald adjusting base, a 402, a steel heald base lifting cylinder, a 403, a steel heald mounting plate, a 404, a steel heald adjusting plate, a 405, a second feeding cylinder, a 601, a cover plate, a 602, a steel cover plate, a 603, a steel cover plate, a hard wire clamping plate, a wire clamping cylinder, a wire cutting cable set.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Referring to fig. 1-10, the embodiment of the invention provides a spinning assembly eyelet correcting machine, which comprises an assembly component 1, a harness wire feeding component 2 and a harness wire calibrating component 6, wherein the harness wire feeding component 2 and the harness wire arranging feeding component 4 are respectively arranged at the upper end and the lower end of the assembly component 1, the harness wire calibrating component 6 and the harness wire pulling hook component 3 are respectively arranged at the front end and the rear end of the assembly component 1, the lower end of the harness wire arranging feeding component 4 is provided with an integral base 5, a thermoplastic heating module 7 is arranged in front of the harness wire calibrating component 6, the harness wire feeding component 2 comprises a harness wire adjusting bracket 201, a first feeding cylinder 202, a harness wire adjusting plate 203, a wire clamping cylinder 204 and a wire clamping rod 205, and the harness wire calibrating component 6 comprises a cover plate cylinder 601, a harness plate 602, a harness wire calibrating hard shaft 603 and a cable cutting cylinder group 604.

Referring to fig. 1-10, in the embodiment, the assembly 1 comprises an adjusting block 101, a linkage block 102, a steel heald clamping block 103, a U-shaped flat cable mounting back plate 104, an adjusting block lifting cylinder 105, a rack block 106, a rack block lifting cylinder 107 and a steel heald flat cable plate 108, wherein the linkage block 102 is arranged above the adjusting block 101 and fixedly connected with the adjusting block 101, the adjusting block 101 is in lifting sliding connection with a vertical sliding rod of the integral base 5, the steel heald clamping block 103 is arranged at the front end of the linkage block 102, the steel heald clamping block 103 is rotatably connected with the linkage block 102, one side of the steel heald clamping block 103 is provided with a rotary elastic screw, the rotary elastic screw is in threaded locking connection with the steel heald clamping block 103 and a rotary shaft between the linkage block 102, the U-shaped flat cable mounting back plate 104 is arranged at the front end of the adjusting block 101, the U-shaped flat cable mounting back plate 104 is fixedly connected with a bolt of the adjusting block 101, the rack block 108 is arranged at the upper end of the U-shaped flat cable mounting back plate 104, the rack block 106 is arranged at the center lower end of the rack block 106 and is in lifting sliding connection with the vertical sliding rod of the integral base 5, the rack block 102 is arranged at the lifting back plate 107, the lifting end of the lifting back plate 107 is connected with the lifting back plate 104 of the adjusting block 101, and the lifting back plate is in threaded connection with the lifting back plate 107 is arranged at the lifting back plate of the lifting back plate 101.

Referring to fig. 1-10, in the embodiment, a steel heald cover plate 602 is arranged in front of a steel heald wire arranging plate 108, a steel heald calibrating hard shaft 603 is fixedly arranged at the upper end of the steel heald cover plate 602, a cover plate cylinder 601 is fixedly arranged at one side of the adjusting block 101 and is in pneumatic transmission connection with the steel heald cover plate 602, the steel heald cover plate 602 and the steel heald calibrating hard shaft 603 compress and calibrate a steel heald wire in the steel heald wire arranging plate 108 to prevent a deviation problem, a wire cutting cylinder group 604 is arranged at the upper end of the cover plate cylinder 601 and is fixedly connected with an adjusting block 101, a harness wire adjusting plate 203 is arranged above the linkage block 102, a first feeding cylinder 202 is arranged at the upper end of the harness wire adjusting plate 203 and is fixedly connected with the front and rear adjusting of the harness wire adjusting plate 203, a harness wire adjusting bracket 201 is arranged at the rear end of the first feeding cylinder 202 and is fixedly connected with a housing of the first feeding cylinder 202, the harness wire adjusting bracket 201 is fixedly connected with the housing of the first harness wire adjusting plate 202 and is fixedly connected with the harness wire clamping cylinder 205, a wire clamping rod 205 is fixedly connected with one side of the housing of the harness wire clamping plate 203 and is fixedly connected with the harness wire clamping rod 204, and the harness wire clamping rod 205 is fixedly arranged at one side of the harness wire clamping rod 205.

Referring to fig. 1 to 10, in the present embodiment, the harness wire draw hook assembly 3 includes a hook plate rack 301, a steel heald hook plate 302, a hook plate cylinder 303, a sheet hook 304, a sheet hook cylinder 305, and a steel heald positioning slot 306; A steel heald hook plate 302 is arranged behind a steel heald wire plate 108 and a steel heald head clamping block 103, a hook plate rack 301 is arranged behind the steel heald hook plate 302, a hook plate cylinder 303 is arranged behind the hook plate rack 301, the output end of the hook plate cylinder 303 penetrates through the hook plate rack 301 and is in front-back transmission connection with the shell of the steel heald wire plate 302, a steel hook 304 is arranged inside the steel heald hook plate 302, a steel hook cylinder 305 is arranged on two sides of the integral rear end of the steel heald hook 304, the output end of the steel hook cylinder 305 is in front-back transmission connection with the steel heald hook 304, a steel heald positioning groove 306 is arranged below the steel hook 304, the steel heald positioning groove 306 is fixedly connected with the shell of the steel heald wire plate 302, the steel heald hook 304 and the steel heald positioning groove 306 are in front transmission connection with the steel heald wire plate 108, a steel heald wire feeding assembly 4 comprises a steel heald adjusting base 401, a steel heald base lifting cylinder 402, a steel mounting plate 403, a steel adjusting plate 404 and a second air cylinder 405, the lower end of the adjusting base 403 is arranged below the adjusting base 403 is connected with the steel heald wire plate 403, the lower end of the adjusting base 401 is fixedly connected with the steel heald wire plate 401, and the lower end of the steel heald wire lifting plate 401 is connected with the steel heald wire plate 108, and the output end of the second feeding cylinder 405 passes through the heald mounting plate 403 and is in transmission connection with the heald adjusting plate 404 in a forward and backward movement.

During operation, the sleeving bracket of the steel heald cable passes through the bracket rod in front of the steel heald mounting plate 403, then the upper section part of the steel heald cable is embedded into the groove of the steel heald cable arranging plate 108 to be fixed, then the steel heald head clamping block 103 is turned downwards to fixedly lock the end head of the upper section of the steel heald cable, then the cover plate cylinder 601 drives the steel heald cover plate 602 and the steel heald alignment hard shaft 603 to fix the steel heald cable arranged in the steel heald cable arranging plate 108, then the hook plate cylinder 303 drives the steel heald hook plate 302 to move forwards, the sheet hook cylinder 305 drives the sheet hook 304 to extend, the steel heald cable is fixed in the steel heald positioning groove 306, the sheet hook passes at the same time, then the harness wire above the machine is pulled downwards to pass in front of the harness wire adjusting plate 203 and wound in the sheet hook 304 passing through the inner part of the hook wire end of the steel heald cable, then the wire clamping cylinder 204 drives the wire clamping rod 205 to move and fix the harness wire in front of the harness wire adjusting plate 203, the hook disc cylinder 303 drives the steel heald hook disc 302 to integrally pull back, so that the harness wires hooked on the sheet hooks 304 pass through hooks at the ends of the steel heald cables, the redundant harness wires are pulled back out of the machine, the rack block lifting cylinder 107 pushes the rack block 106 to move upwards and match the cable cutting cylinder group 604 to cut off the redundant harness wires pulled back, the ends of the harness wires are pressed, adhered and heated by the harness wire cutting cylinder group 604 to form harness wire knots, the steel heald calibrating component 6 and the harness wire feeding component 2 draw a knife and then drive the assembly component 1 to move up and down along with the adjusting block lifting cylinder 105 to realize that the harness wire knots move downwards into thermoplastic sleeves sleeved outside the steel healds, finally, the thermoplastic heating module 7 heats and thermoplastic the thermoplastic sleeves at the knots between the harness wires and the steel heald hooks to realize the knot thermoplastic wrapping processing step, and further finish the assembly processing of the harness wires, the clamping rod 205 is driven by the clamping air cylinder 204 of the harness wire feeding assembly 2 to clamp the harness wire in front of the harness wire adjusting plate 203, so that the harness wire positioning deviation is avoided, the problem that the connection precision between the harness wire and the harness wire is low in efficiency due to the fact that the harness wire and the harness wire are positioned and fixed manually is solved by the conventional textile installation eye correcting machine, the harness wire cable in the groove of the harness wire arranging plate 108 is clamped and extruded and fixed by the cover plate air cylinder 601 to drive the harness cover plate 602 and the connected harness wire correcting hard shaft 603, and therefore when the harness wire passes through a hook of the upper section of the harness wire, the harness wire end can be kept stable, and the machining precision of connection between the harness wire and the harness wire is effectively improved.

Through the steps, the clamping rod 205 is driven by the clamping cylinder 204 of the harness cord feeding assembly 2 to clamp the harness cord in front of the harness cord adjusting plate 203, so that the problem that the harness cord positioning deviation is avoided, and the problem that the connection precision between the harness cord and the steel heald winding displacement is low and the problem that the existing textile manufacturing eye correcting machine is low due to the fact that the harness cord and the steel heald winding displacement positioning and fixing operation is usually carried out manually is solved.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims

1. The spinning assembly eye calibrating machine comprises an assembly component (1), a harness wire feeding component (2) and a harness wire calibrating component (6) and is characterized in that the harness wire feeding component (2) and the harness wire feeding component (4) are respectively arranged at the upper end and the lower end of the assembly component (1), the harness wire calibrating component (6) and the harness wire drawing component (3) are respectively arranged at the front end and the rear end of the assembly component (1), the lower end of the harness wire feeding component (4) is provided with an integral base (5), a thermoplastic heating module (7) is arranged in front of the harness wire calibrating component (6), the harness wire feeding component (2) comprises a harness wire adjusting bracket (201), a first feeding cylinder (202), a harness wire adjusting plate (203), a wire clamping cylinder (204) and a wire clamping rod (205), and the harness wire calibrating component (6) comprises a cover plate cylinder (601), a harness cover plate (602), a harness wire calibrating hard shaft (603) and a cable cutting cylinder group (604);

The assembly component (1) comprises an adjusting block (101), a linkage block (102), a steel heald clamping block (103), a U-shaped flat cable mounting back plate (104), an adjusting block lifting cylinder (105), a rack block (106), a rack block lifting cylinder (107) and a steel heald flat cable plate (108), wherein the linkage block (102) is arranged above the adjusting block (101), the linkage block (102) is fixedly connected with the adjusting block (101), the adjusting block (101) is in lifting sliding connection with a vertical sliding rod of the integral base (5), the steel heald clamping block (103) is arranged at the front end of the linkage block (102), the steel heald clamping block (103) is in rotary connection with the linkage block (102), one side of the steel heald clamping block (103) is provided with a rotary elastic screw, and a rotary shaft between the rotary elastic screw and the steel heald clamping block (103) and the rotary elastic screw are in threaded locking connection with a rotary shaft between the steel heald clamping block (102);

The upper part of the linkage block (102) is provided with a harness wire adjusting plate (203), the upper end of the harness wire adjusting plate (203) is provided with a first feeding cylinder (202), and the output end of the first feeding cylinder (202) is connected with the harness wire adjusting plate (203) in a front-back adjusting way;

A wire clamping air cylinder (204) is arranged on one side of the wire clamping adjusting support (201), a shell of the wire clamping air cylinder (204) is fixedly connected with the wire clamping adjusting plate (203), a wire clamping rod (205) is arranged above the wire clamping air cylinder (204), the wire clamping rod (205) penetrates through the wire clamping adjusting support (201) and the wire clamping adjusting plate (203) to be movably arranged, and the wire clamping rod (205) is horizontally and drivingly connected with the output end of the wire clamping air cylinder (204).

2. The spinning device eye correcting machine is characterized in that a U-shaped flat cable installation back plate (104) is arranged on the front end face of an adjusting block (101), the U-shaped flat cable installation back plate (104) is fixedly connected with the adjusting block (101) through bolts, a rack block (106) is arranged at the upper end of the U-shaped flat cable installation back plate (104), a rack block lifting cylinder (107) is arranged at the lower center end of the rack block (106), the output end of the rack block lifting cylinder (107) is in lifting transmission connection with the rack block (106), the shell of the rack block lifting cylinder (107) is fixedly connected with the adjusting block (101), a steel heald flat cable installation back plate (108) is arranged at the front end of the U-shaped flat cable installation back plate (104), the steel heald flat cable installation back plate (108) is fixedly connected with the U-shaped flat cable installation back plate (104) through bolts, an adjusting block lifting cylinder (105) is arranged at the lower end of the U-shaped flat cable installation back plate (104), and the output end of the adjusting block lifting cylinder (105) is in lifting transmission connection with the adjusting block (101).

3. The spinning device eye correcting machine according to claim 2 is characterized in that a steel heald covering plate (602) is arranged in front of a steel heald wire arranging plate (108), a steel heald correcting hard shaft (603) is fixedly arranged at the upper end of the steel heald covering plate (602), a covering plate cylinder (601) is fixedly arranged on one side of an adjusting block (101), the output end of the covering plate cylinder (601) is in pneumatic transmission connection with the steel heald covering plate (602), and the steel heald covering plate (602) and the steel heald correcting hard shaft (603) are used for correcting compression of steel heald wires in the steel heald wire arranging plate (108) to prevent deviation.

4. The weaving machine as claimed in claim 3, characterized in that a cable cutting cylinder group (604) is arranged at the upper end of the cover plate cylinder (601), and the outer shell of the cable cutting cylinder group (604) is fixedly connected with the adjusting block (101).

5. The weaving machine according to claim 2, wherein the harness wire draw hook assembly (3) comprises a hook plate frame (301), a steel heald hook plate (302), a hook plate cylinder (303), a sheet hook (304), a sheet hook cylinder (305) and a steel heald positioning groove (306), wherein a steel heald hook plate (302) is arranged at the rear between a steel heald wire arranging plate (108) and a steel heald head clamping block (103), a hook plate frame (301) is arranged at the rear of the steel heald hook plate (302), a hook plate cylinder (303) is arranged at the rear of the hook plate frame (301), the output end of the hook plate cylinder (303) penetrates through the hook plate frame (301) to be in front-rear transmission connection with a shell of the steel heald hook plate (302), the sheet hook (304) is arranged at both sides of the whole rear end of the sheet hook plate (304), the output end of the sheet hook cylinder (305) is in front-rear transmission connection with the sheet hook plate (304), the steel hook positioning groove (306) is arranged below the sheet hook plate (304), and the sheet hook plate (304) is connected with the steel heald wire arranging plate (108) in front-rear transmission connection with the sheet hook plate (304), and the sheet hook plate (306) is fixed on the steel heald wire arranging plate (108) in front-back transmission connection with the steel heald wire clamping block (302).

6. The weaving device eye correcting machine according to claim 1, wherein the steel heald wire feeding assembly (4) comprises a steel heald adjusting base (401), a steel heald base lifting cylinder (402), a steel heald mounting plate (403), a steel heald adjusting plate (404) and a second feeding cylinder (405), the steel heald adjusting base (401) is arranged below the adjusting block (101), the steel heald base lifting cylinder (402) is arranged at the lower end of the steel heald adjusting base (401), and the output end of the steel heald base lifting cylinder (402) is connected with the steel heald adjusting base (401) in a lifting mode.

7. The weaving device eye correcting machine according to claim 6, wherein a steel heald mounting plate (403) is arranged at the upper end of the steel heald adjusting base (401), the steel heald mounting plate (403) is fixedly connected with the steel heald adjusting base (401), a steel heald adjusting plate (404) is arranged at the front end of the steel heald mounting plate (403), second feeding cylinders (405) are arranged at two sides of the rear end of the steel heald mounting plate (403), and the output end of the second feeding cylinders (405) penetrates through the steel heald mounting plate (403) to be connected with the steel heald adjusting plate (404) in a front-back moving transmission mode.