CN118143470B - Laser cloth cutting machine for processing woven bags - Google Patents

Abstract

The invention relates to the technical field of laser cloth cutting machines, in particular to a laser cloth cutting machine for processing woven bags, which comprises a laser cutting machine body, a cutting structure, an air blowing structure, a collecting structure, a winding structure, a mounting structure and a mounting frame; the setting of cutting structure is convenient for carry out cutting processing to the braided bag, be convenient for overhaul the maintenance to the laser cutting head simultaneously, and be convenient for blow the waste material of adhesion on the braided bag after cutting through the setting of blowing structure, the setting of collecting structure is convenient for collect a large amount of waste materials, thereby after the braided bag processing is accomplished, only need collect a small amount of waste materials, the cleaning efficiency has been improved, the setting of roll-up structure is convenient for carry out the roll-up to the braided bag after the cutting processing, the setting of mounting structure is convenient for dismantle between two connecting blocks in the roll-up structure, thereby be convenient for dismantle the change to the roll-up roller after dismantling the connecting block fast, the change efficiency of roll-up roller has been improved.

Description

Laser cloth cutting machine for processing woven bags

Technical Field

The invention relates to the technical field of laser cloth cutting machines, in particular to a laser cloth cutting machine for processing woven bags.

Background

The woven bag is a light and reusable packaging material, is commonly used for shipping goods, such as cement, chemical fertilizers, grains and the like, is generally made of plastic materials such as polypropylene, polyethylene and the like, has the advantages of water resistance, moisture resistance, impact resistance and the like, and is cut by a laser cutting machine in the production and processing process.

The traditional laser cutting head is driven by the motor, the screw rod and the sliding block in a matched manner, and the laser cutting head is arranged at the bottom of the sliding block, so that the overhaul and the maintenance are inconvenient; in the cutting process of the laser cutting machine, the cut woven bag is generally rolled up, however, the waste cut from the woven bag generally automatically falls onto the ground in the rolling process, and meanwhile, part of the waste is adhered to the woven bag; meanwhile, a large amount of waste directly falls on the ground, and when the woven bag is rolled up, a large amount of waste on the ground is required to be collected and cleaned, so that the cleaning efficiency is low; and the winding roller for winding the woven bag is installed between the rotating column on the installation frame through the bolt, and the replacement efficiency is low when the winding roller is replaced through the bolt installation.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a laser cloth cutting machine for processing woven bags.

The technical scheme adopted for solving the technical problems is as follows: a laser cloth cutting machine for processing woven bags comprises a laser cutting machine body; the cutting structure is arranged on the laser cutting machine body; the mounting frame is mounted on the laser cutting machine body; the blowing structure is arranged on the mounting frame; the collecting structure is arranged on the mounting frame; the rolling structure is arranged on the mounting frame; the mounting structure is arranged on the winding structure;

the cutting structure comprises a first linear motor, the first linear motor is arranged on the laser cutting machine body, a second linear motor is arranged on a sliding table of the first linear motor, two hydraulic rods are arranged on the sliding table of the second linear motor, and a laser cutting head is arranged at the telescopic end of each hydraulic rod;

the winding structure comprises rails, two rails are arranged on the mounting frame, two sliding connection blocks are arranged on the rails, two connecting blocks are connected on the sliding blocks, two winding rollers are detachably connected between the connecting blocks, the connecting blocks are connected with the rails in a sliding mode, the connecting blocks are connected with the sliding mode, the connecting blocks are arranged below the connecting blocks in a sliding mode, the connecting blocks are connected with the sliding blocks in a fixed mode, the mounting structure comprises positioning columns, two positioning columns are fixedly connected onto the connecting blocks below the connecting blocks, the connecting blocks are connected with the positioning columns in an inserting mode, the connecting blocks are connected with the positioning columns in a sliding mode, and a pulling plate is fixedly connected onto the mounting blocks.

Specifically, fixedly connected with guide post on the track, sliding connection between slider and the guide post, fixedly connected with keeps off the ring on the guide post, contradict between slider and the fender ring.

Specifically, two all fixedly connected with fixed plate on the track, two rotate between the fixed plate and be connected with the connecting axle, fixedly connected with spliced pole on the connecting axle.

Specifically, the right is provided with a second motor on the fixed plate, an output shaft of the second motor is fixedly connected with a connecting shaft, and a tension spring is fixedly connected between the two sliding blocks and the rail.

Specifically, the top be equipped with on the connecting block with the constant head tank of reference column cooperation use, fixedly connected with spring between installation piece and the connecting block.

Specifically, the structure of blowing includes the installation pole, install two installation poles on the mounting bracket, two fixedly connected with installing frame between the installation pole, install the trachea on the installing frame, be equipped with a plurality of gas pockets on the trachea, install the air pump on the installing frame, the hose is installed to the gas outlet of air pump, the communication between the other end and the trachea of hose.

Specifically, two fixedly connected with dead lever on the dead lever, two equal sliding connection has the slide on the dead lever, two fixedly connected with brush between the slide, the left rotate on the dead lever and be connected with first lead screw, the left threaded connection between slide and the first lead screw, the right fixedly connected with guide bar on the dead lever, the right sliding connection between slide and the guide bar.

Specifically, the left side fixedly connected with first motor on the dead lever, fixedly connected with between output shaft and the first lead screw of first motor, two rotate between the dead lever and be connected with two guide rolls.

Specifically, collect the structure and include collecting the frame, can dismantle on the mounting bracket and be connected with the collection frame, fixedly connected with guide rail on the mounting bracket, sliding connection between collection frame and the guide rail, sliding connection has the fixed column on the guide rail, the block between fixed column and the fixed slot on the mounting bracket.

Specifically, fixedly connected with connecting plate on the fixed column, sliding connection between connecting plate and the guide rail, the rotation is connected with the second lead screw on the guide rail, threaded connection between connecting plate and the second lead screw.

The beneficial effects of the invention are as follows:

(1) According to the laser cloth cutting machine for processing the woven bags, the cutting structure is arranged on the laser cutting machine body, the air blowing structure is arranged on the mounting frame, the cutting structure is convenient for cutting the woven bags, meanwhile, the laser cutting head is convenient for overhauling and maintaining, and waste adhered to the woven bags after cutting is convenient to blow off through the air blowing structure.

(2) According to the laser cloth cutting machine for processing the woven bags, the collection structure is arranged on the laser cutting machine body, and the collection structure is convenient for collecting a large amount of waste materials, so that only a small amount of waste materials are required to be collected after the woven bags are processed, and the cleaning efficiency is improved.

(3) According to the laser cloth cutting machine for processing the woven bags, the winding structure is arranged on the mounting frame, the mounting structure is arranged on the winding structure, the woven bags after cutting processing are conveniently wound up, and the mounting structure is convenient for disassembling between the two connecting blocks in the winding structure, so that the winding roller is conveniently disassembled and replaced after the connecting blocks are disassembled quickly, and the replacement efficiency of the winding roller is improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the whole structure of a preferred embodiment of a laser cloth cutting machine for processing woven bags according to the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of the portion C shown in FIG. 1;

FIG. 5 is an enlarged schematic view of the structure of the portion D shown in FIG. 1;

FIG. 6 is an enlarged schematic view of the E-section structure shown in FIG. 1;

FIG. 7 is a schematic view of a connection structure of a guide post and a rail according to the present invention;

FIG. 8 is a schematic diagram of a connection structure of a pulling plate and a connection block according to the present invention;

fig. 9 is an enlarged schematic view of the F-section structure shown in fig. 8;

FIG. 10 is a schematic view of the connection structure of the collecting frame and the guide rail of the present invention;

Fig. 11 is an enlarged schematic view of the G portion structure shown in fig. 10;

Fig. 12 is a schematic diagram of a connection structure between a fixing post and a connection plate according to the present invention;

FIG. 13 is a schematic view of a connection structure between a positioning column and a connection block according to the present invention;

Fig. 14 is a schematic view of the structure of the trachea and the air hole of the invention.

In the figure: 1. a laser cutter body; 2. cutting the structure; 201. a first linear motor; 202. a second linear motor; 203. a hydraulic rod; 204. a laser cutting head; 3. a blowing structure; 301. a mounting rod; 302. a mounting frame; 303. an air pipe; 304. air holes; 305. a hose; 306. an air pump; 307. a fixed rod; 308. a slide plate; 309. a brush; 310. a first screw rod; 311. a first motor; 312. a guide rod; 313. a guide roller; 4. a collection structure; 401. a collection frame; 402. a guide rail; 403. fixing the column; 404. a fixing groove; 405. a connecting plate; 406. a second screw rod; 5. a winding structure; 501. a track; 502. a slide block; 503. a connecting block; 504. a winding roller; 505. a guide post; 506. a baffle ring; 507. a tension spring; 508. a fixing plate; 509. a connecting shaft; 510. a connecting column; 511. a second motor; 6. a mounting structure; 601. positioning columns; 602. a positioning groove; 603. a mounting block; 604. a mounting groove; 605. a spring; 606. pulling a plate; 7. and (5) mounting a frame.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 14, a laser cloth cutting machine for processing a woven bag according to the present invention includes a laser cutter body 1; a cutting structure 2 arranged on the laser cutting machine body 1; a mounting frame 7 mounted on the laser cutting machine body 1; the blowing structure 3 is arranged on the mounting frame 7; a collecting structure 4 provided on the mounting frame 7; a winding structure 5 arranged on the mounting frame 7; a mounting structure 6 provided on the winding structure 5;

The cutting structure 2 comprises a first linear motor 201, the first linear motor 201 is installed on the laser cutting machine body 1, a second linear motor 202 is installed on a sliding table of the first linear motor 201, two hydraulic rods 203 are installed on a sliding table of the second linear motor 202, and a laser cutting head 204 is installed at a telescopic end of each hydraulic rod 203;

The rolling structure 5 comprises rails 501, two rails 501 are mounted on a mounting frame 7, two sliding connection blocks 502 are respectively connected to the rails 501, two connecting blocks 503 are respectively connected to the two sliding blocks 502, rolling rollers 504 are detachably connected between the connecting blocks 503, the connecting blocks 503 are slidably connected with the rails 501, the connecting blocks 503 are slidably connected with the sliding blocks 502, the connecting blocks 503 are fixedly connected with the sliding blocks 502, the mounting structure 6 comprises positioning columns 601, two positioning columns 601 are fixedly connected to the connecting blocks 503, the connecting blocks 503 are inserted between the connecting blocks 503 and the positioning columns 601, mounting blocks 603 are slidably connected to the connecting blocks 503, clamping blocks are clamped between the mounting blocks 603 and mounting grooves 604 on the positioning columns 601, and pulling plates 606 are fixedly connected to the mounting blocks 603.

Specifically, fixedly connected with guide post 505 on track 501, sliding connection between slider 502 and the guide post 505, fixedly connected with baffle ring 506 on the guide post 505, contradict between slider 502 and the baffle ring 506, two equal fixedly connected with fixed plate 508 on the track 501, two rotate between the fixed plate 508 and be connected with connecting axle 509, fixedly connected with connecting post 510 on the connecting axle 509, during the roll-up, the end connection of braided bag is on roll-up roller 504, contradicts between braided bag on roll-up roller 504 and the connecting post 510, accessible start second motor 511, can drive connecting axle 509 rotation when the output shaft of second motor 511 rotates, can drive connecting post 510 rotation when connecting post 510 rotates, can make braided bag roll-up on roll-up roller 504, simultaneously roll-up roller 504 both ends respectively with two connecting blocks between 503 rotation, simultaneously with roll-up roller 504 does not break the roll-up, the diameter of braided bag grow, roll-up roller 504 can drive slider 502 and upwards slide, make slider 502 and baffle ring 502 conflict, the guide post 502 is more closely contacted with the roll-up roller 502 through the setting up that makes the sliding connection between the guide post 505 more smooth, the roll-up roller 502 can take place, make the roll-up effect of sliding connection between the guide post 505 more smooth roll-up is more convenient for setting up, and the roll-up is more smooth when the roll-up roller 502 is provided.

Specifically, the right install the second motor 511 on the fixed plate 508, fixed connection between the output shaft of second motor 511 and the connecting axle 509, two fixedly connected with extension spring 507 between slider 502 and the track 501, the top be equipped with on the connecting block 503 with the constant head tank 602 that the reference column 601 used in cooperation, fixedly connected with spring 605 between installation piece 603 and the connecting block 503, when need change the roll-up roller 504, through pulling the arm-tie 606 forward in proper order, can drive installation piece 603 and slide forward when the arm-tie 606 slides forward, spring 605 shrink when installation piece 603 slides forward, at this moment installation piece 603 no longer with the front between the mounting groove 604 on the reference column 601 block, at this moment can slide between connection block 503 and the reference column 601 of top, after connection block 503 of two tops is all dismantled, at this moment the top of roll-up roller 504 is not sheltered from, can carry down the roll-up roller 504 to change, be convenient for dismantle between connection block 503 and the below 503 of top through reference column 601, the quick change efficiency has been convenient for change the roll-up roller when changing the roll-up roller 503.

Specifically, the blowing structure 3 includes a mounting rod 301, two mounting rods 301 are mounted on the mounting frame 7, a mounting frame 302 is fixedly connected between the two mounting rods 301, an air pipe 303 is mounted on the mounting frame 302, a plurality of air holes 304 are formed in the air pipe 303, an air pump 306 is mounted on the mounting frame 302, a hose 305 is mounted at an air outlet of the air pump 306, the other end of the hose 305 is communicated with the air pipe 303, two mounting rods 301 are fixedly connected with fixing rods 307, two fixing rods 307 are both in sliding connection with sliding plates 308, a brush 309 is fixedly connected between the two sliding plates 308, a first screw rod 310 is rotatably connected on the left fixing rod 307, a guide rod 312 is fixedly connected on the right fixing rod 307, the right slide plate 308 is slidably connected with the guide rods 312, the left fixed rod 307 is fixedly connected with a first motor 311, an output shaft of the first motor 311 is fixedly connected with a first screw rod 310, two guide rollers 313 are rotatably connected between the two fixed rods 307, the second linear motor 202 is driven to move back and forth by a sliding table of the first linear motor 201, simultaneously, the two hydraulic rods 203 are driven to move left and right by matching with a sliding table of the second linear motor 202, the two hydraulic rods 203 drive the two laser cutting heads 204 to move, the two laser cutting heads cut and process a woven bag, simultaneously, the laser cutting heads 204 are driven to move to the front of the laser cutting machine 1 by matching with the two linear motors, the laser cutting heads 204 are arranged in front of a telescopic end of the hydraulic rods 203, so that overhaul and maintenance are convenient for the laser cutting heads 204, and when the cut woven bag is coiled, the woven bag can pass through between two guide rollers 313, the accessible starts air pump 306 when rolling, during the operation of air pump 306, the air current can be followed hose 305 and is got into trachea 303, a plurality of gas pockets 304 on the trachea 303 flow out again, gas pockets 304 are against the woven bag, simultaneously accessible start first motor 311, can drive first lead screw 310 rotation when the output shaft of first motor 311 rotates, the slide 308 forward and backward slip on screw drive left when first lead screw 310 rotates, the slide 308 on left can drive brush 309 and slide forward and backward when sliding, brush 309 can drive slide between slide 308 on right and the guide bar 312, the setting of guide bar 312 makes slide on right more steady, can constantly with not dropping between woven bag and the waste material when brush 309 moves, cooperation decurrent air current can blow down the waste material on the woven bag better simultaneously.

Specifically, collect structure 4 includes collection frame 401, can dismantle on the mounting bracket 7 and be connected with collection frame 401, fixedly connected with guide rail 402 on the mounting bracket 7, sliding connection between collection frame 401 and the guide rail 402, sliding connection has fixed column 403 on the guide rail 402, the block between fixed column 403 and the fixed slot 404 on the mounting bracket 7, fixedly connected with connecting plate 405 on the fixed column 403, sliding connection between connecting plate 405 and the guide rail 402, it is connected with second lead screw 406 to rotate on the guide rail 402, threaded connection between connecting plate 405 and the second lead screw 406, the waste material that drops simultaneously can drop to collection frame 401 in, when collection frame 401 needs to be changed, the interior hexagonal groove on second lead screw 406 is inserted to the accessible interior hexagonal spanner, through rotating second lead screw 406, and screw drive connecting plate 405 upwards slides when second lead screw 406 rotates, can drive fixed column 403 upwards when connecting plate 405 upwards slides, makes the block between fixed column 403 no longer and the fixed slot 404 on laser cutting machine body 1, can follow guide rail 401 and carry out the collection frame 401 along the guide rail and carry out the improvement of the cutting machine, thereby the cut efficiency is improved to the laser cutting machine body, the waste material is convenient for collect the waste material, and is convenient for collect the waste material is carried out by a small amount after the laser cutting machine 1, and the collection frame 401 is convenient for collect the waste material is cut by a small amount, and the machine is cut 1 is cut and is convenient for collect.

When the device is used, the sliding table of the first linear motor 201 drives the second linear motor 202 to move forwards and backwards, meanwhile, the sliding table matched with the second linear motor 202 drives the two hydraulic rods 203 to move left and right, so that the two hydraulic rods 203 drive the two laser cutting heads 204 to move, the two laser cutting heads cut and process the woven bag, meanwhile, the two linear motors are matched to drive the laser cutting heads 204 to move to the front of the laser cutting machine 1, the laser cutting heads 204 are arranged in front of the telescopic ends of the hydraulic rods 203, so that maintenance is convenient for the laser cutting heads 204, at the moment, when the cut woven bag is rolled, the woven bag passes through the gap between the two guide rollers 313, when the air pump 306 is started, air flow enters the air pipe 303 from the hose 305, then flows out from the air holes 304 on the air pipe 303, the air holes 304 face the woven bag, meanwhile, the first motor 311 is started, the output shaft of the first motor 311 rotates to drive the first screw rod 310 to rotate, the left brush 308 is driven to slide forwards and backwards when the first screw rod 310 rotates, the left brush 308 slides forwards and backwards, the left brush 308 slides forwards and slides forwards, the left brush 308 slides forwards and slides downwards, and the brush 308 slides forwards and slides downwards along the gap rod 312 and falls forwards and is arranged between the guide rollers 309 and the gap bar is better when the brush 308 slides forwards and the brush is matched with the gap rod is arranged, and the gap material bag is more tightly, and the waste material is more than the waste bag is cut, and is more completely, the waste bag is left and is cut, and is left;

When the bag is rolled, the end parts of the woven bags are connected to the rolling roller 504, the woven bags on the rolling roller 504 are abutted against the connecting column 510, the second motor 511 is started, the connecting shaft 509 is driven to rotate when the output shaft of the second motor 511 rotates, the connecting column 510 is driven to rotate when the connecting shaft 509 rotates, the woven bags are rolled on the rolling roller 504 when the connecting column 510 rotates, meanwhile, the two ends of the rolling roller 504 rotate with the two connecting blocks 503 respectively, the diameter of the woven bags becomes larger along with the continuous rolling of the rolling roller 504, the rolling roller 504 can drive the sliding block 502 to slide upwards, the sliding block 502 does not abut against the baffle ring 506 any more, the tension spring 507 stretches when the sliding block 502 slides upwards, downward force is applied to the rolling roller 504 through the arrangement of the tension spring 507, the woven bags on the rolling roller 504 are more tightly contacted with the connecting column 510, the rolling effect is better, meanwhile, the sliding block 502 can slide with the guide column 505, and the sliding of the guide column 505 enables the sliding of the sliding block 502 to slide more stably;

When the winding roller 504 needs to be replaced, the pulling plate 606 is pulled forward in sequence, the mounting block 603 is driven to slide forward when the pulling plate 606 slides forward, the spring 605 is contracted when the mounting block 603 slides forward, the mounting block 603 is not clamped with the mounting groove 604 on the front positioning column 601, the upper connecting block 503 and the positioning column 601 can be slipped off, after the upper parts of the winding roller 504 are disassembled, the winding roller 504 can be carried down for replacement, the upper connecting block 503 and the lower connecting block 503 are convenient to be disassembled through the positioning column 601 and the mounting block 603, the quick replacement is convenient when the winding roller 504 is replaced, and the replacement efficiency is improved;

Simultaneously the waste material that drops can drop to collect in the frame 401, when collecting the frame 401 needs to change, the accessible interior hexagonal spanner inserts in the interior hexagonal groove on the second lead screw 406, through rotating the second lead screw 406, screw drive connecting plate 405 upwards slides when the second lead screw 406 rotates, can drive fixed column 403 upwards slide when connecting plate 405 upwards slides, make the fixed column 403 no longer with the fixed slot 404 on the laser cutting machine body 1 between the block, can slide out the laser cutting machine body 1 along guide rail 402 with collecting the frame 401 this moment, be convenient for collect a large amount of waste materials that drop through collecting the frame 401, thereby after the braided bag processing is accomplished, only need collect a small amount of waste materials, cleaning efficiency has been improved, and through the block between fixed column 403 and the laser cutting machine body 1, be convenient for fix collecting the frame 401, the steadiness has been improved.

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 characteristics 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 disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (4)

1. The laser cloth cutting machine for processing the woven bag is characterized by comprising a laser cutting machine body (1); a cutting structure (2) arranged on the laser cutting machine body (1); a mounting rack (7) mounted on the laser cutting machine body (1); the blowing structure (3) is arranged on the mounting frame (7); a collecting structure (4) arranged on the mounting frame (7); the rolling structure (5) is arranged on the mounting frame (7); a mounting structure (6) provided on the winding structure (5);

The cutting structure (2) comprises a first linear motor (201), the first linear motor (201) is installed on the laser cutting machine body (1), a second linear motor (202) is installed on a sliding table of the first linear motor (201), two hydraulic rods (203) are installed on the sliding table of the second linear motor (202), and a laser cutting head (204) is installed at the telescopic end of each hydraulic rod (203);

The blowing structure (3) comprises mounting rods (301), two mounting rods (301) are mounted on the mounting frame (7), a mounting frame (302) is fixedly connected between the two mounting rods (301), an air pipe (303) is mounted on the mounting frame (302), a plurality of air holes (304) are formed in the air pipe (303), an air pump (306) is mounted on the mounting frame (302), a hose (305) is mounted at an air outlet of the air pump (306), and the other end of the hose (305) is communicated with the air pipe (303);

The collecting structure (4) comprises a collecting frame (401), the collecting frame (401) is detachably connected to the mounting frame (7), a guide rail (402) is fixedly connected to the mounting frame (7), the collecting frame (401) is slidably connected with the guide rail (402), a fixing column (403) is slidably connected to the guide rail (402), and the fixing column (403) is clamped with a fixing groove (404) on the mounting frame (7);

The rolling structure (5) comprises rails (501), two rails (501) are arranged on a mounting frame (7), two sliding blocks (502) are connected to the rails (501) in a sliding mode, two connecting blocks (601) are connected to the two sliding blocks (502), a rolling roller (504) is detachably connected between the four connecting blocks (503), the connecting blocks (503) are connected with the rails (501) in a sliding mode, the connecting blocks (503) and the sliding blocks (502) above are connected in a sliding mode, the connecting blocks (503) and the sliding blocks (502) below are fixedly connected, tension springs (507) are fixedly connected between the two sliding blocks (502) and the rails (501), the mounting structure (6) comprises positioning columns (601), two positioning columns (601) are fixedly connected to the connecting blocks (503) below, the connecting blocks (503) and the positioning columns (601) above are connected in an inserting mode, mounting blocks (603) are connected to the connecting blocks (503) in a sliding mode, and mounting grooves (603) on the clamping blocks (606) in front are fixedly connected to the positioning columns (606);

a guide post (505) is fixedly connected to the track (501), the sliding block (502) is slidably connected with the guide post (505), a baffle ring (506) is fixedly connected to the guide post (505), and the sliding block (502) is abutted against the baffle ring (506); a fixed plate (508) is fixedly connected to both the rails (501), a connecting shaft (509) is rotatably connected between the two fixed plates (508), and a connecting column (510) is fixedly connected to the connecting shaft (509); the right fixed plate (508) is provided with a second motor (511), and an output shaft of the second motor (511) is fixedly connected with a connecting shaft (509); the upper connecting block (503) is provided with a positioning groove (602) matched with the positioning column (601), and a spring (605) is fixedly connected between the mounting block (603) and the connecting block (503).

2. The laser cloth cutting machine for processing woven bags according to claim 1, wherein: two fixedly connected with dead lever (307) on installation pole (301), two all sliding connection has slide (308) on dead lever (307), two fixedly connected with brush (309) between slide (308), the left side rotationally is connected with first lead screw (310) on dead lever (307), the left side sliding connection between slide (308) and first lead screw (310), the right side fixedly connected with guide bar (312) on dead lever (307), the right side sliding connection between slide (308) and guide bar (312).

3. The laser cloth cutting machine for processing woven bags according to claim 2, wherein: the left fixing rod (307) is fixedly connected with a first motor (311), an output shaft of the first motor (311) is fixedly connected with a first screw rod (310), and two guide rollers (313) are rotatably connected between the two fixing rods (307).

4. The laser cloth cutting machine for processing woven bags according to claim 1, wherein: fixedly connected with connecting plate (405) on fixed column (403), sliding connection between connecting plate (405) and guide rail (402), rotate on guide rail (402) and be connected with second lead screw (406), threaded connection between connecting plate (405) and second lead screw (406).