CN220538241U - Automatic cloth cutting bench for clothing processing - Google Patents

Abstract

The utility model relates to a technical field of clothing processing especially relates to an automatic cloth cutting rack for clothing processing, and it includes workstation, support frame, guiding mechanism, presss from both sides cloth mechanism, cloth cutting mechanism and granny rag mechanism, the workstation sets up subaerial, the support frame sets up be used for placing the cloth on the workstation, guiding mechanism sets up be used for providing the direction for the motion of cloth on the workstation, press from both sides cloth mechanism setting and be used for pressing from both sides tight cloth on the workstation and take up cloth and make it not sagging to the cutting of cloth, cloth cutting mechanism sets up on the workstation and be used for cutting the cloth, granny rag mechanism sets up on the workstation and be used for pulling cloth motion. The cloth cutting machine has the effect of improving the cutting accuracy of the cloth cutting machine.

Description

Automatic cloth cutting bench for clothing processing

Technical Field

The application relates to the technical field of clothing processing, in particular to an automatic cloth cutting bench for clothing processing.

Background

The cloth is used as a textile material, is widely applied in industrial production, and has quite large usage amount, so that the traditional manual cloth cutting process has low efficiency and poor dimensional accuracy, cannot meet the increasing usage amount, and the automatic cloth cutting machine has the characteristics of accurate cutting and high efficiency.

Currently, chinese patent with publication number CN215625751U discloses a cloth cutting machine, which includes a workbench, a cloth cutting knife and a driving mechanism, wherein the driving mechanism drives cloth to advance on the workbench when cutting cloth, and the cloth cutting knife cuts cloth when the cloth reaches a specified size.

In the process of realizing the application, the inventor finds that at least the following problems exist in the technology, and the cloth is soft in texture and sags under the action of gravity, so that the cloth is easy to wrinkle when being cut by the cloth cutting machine, and the cut surface is uneven.

Disclosure of Invention

In order to improve the cutting evenness of a cloth cutting machine, the application provides an automatic cloth cutting bench for clothing processing.

The application provides an automatic cloth cutting rack for clothing processing adopts following technical scheme:

the utility model provides an automatic cloth cutting rack for clothing processing, includes workstation, support frame, guiding mechanism, presss from both sides cloth mechanism, cloth cutting mechanism and granny rag mechanism, the workstation sets up subaerial, the support frame sets up be used for placing the cloth on the workstation, guiding mechanism sets up be used for providing the direction for the motion of cloth on the workstation, press from both sides cloth mechanism and set up be used for pressing from both sides tight cloth and reduce the whereabouts of cloth on the workstation, cloth cutting mechanism sets up on the workstation and be used for cutting the cloth, granny rag mechanism sets up on the workstation and be used for pulling cloth motion.

Through adopting above-mentioned technical scheme, when carrying out the cutting of cloth, the cloth motion of granny rag mechanism pulling, guiding mechanism provide the direction for the cloth, when stretching the length that the cloth needs, press from both sides cloth mechanism and press from both sides the cloth tightly, and then make the cloth level and smooth, then the cutting of cloth mechanism to the cloth, and then accomplish the cutting of cloth, improve the cutting accuracy of cloth cutting machine.

Optionally, the guiding mechanism comprises a guiding roller, and the guiding roller is rotatably connected to the workbench and is used for guiding the cloth.

Through adopting above-mentioned technical scheme, the setting of guide roll turns into the direction parallel with the workstation with the direction of motion of cloth, and then the pulling and the cutting of cloth of being convenient for.

Optionally, the cloth clamping mechanism comprises a cloth clamping assembly, the cloth clamping assembly comprises a first air cylinder, a first clamping plate and a first fixing plate, the first air cylinder is arranged on the workbench, the first clamping plate is arranged on a piston shaft of the first air cylinder, the first fixing plate is arranged on the workbench, and cloth passes through between the first fixing plate and the first clamping plate.

Through adopting above-mentioned technical scheme, when carrying out the clamp of cloth, first cylinder starts, and first cylinder drives first clamping plate motion, and first clamping plate and first fixed plate press from both sides the cloth tightly, and then have realized the effect of self-holding cloth, have reduced the probability that the fold appears in the cloth, have improved the cutting accuracy of fabric cutting machine.

Optionally, the cloth clamping mechanism further comprises a tensioning assembly, the tensioning assembly comprises a second air cylinder, a second clamping plate and a second fixing plate, the second air cylinder is arranged on the workbench, the second clamping plate is arranged on a piston shaft of the second air cylinder, and the second fixing plate is arranged on the workbench.

Through adopting above-mentioned technical scheme, when carrying out the clamp of cloth, the second cylinder starts, and the second cylinder drives the motion of second clamping plate, and second clamping plate and second fixed plate press from both sides the cloth tightly, and then have realized the effect of self-holding cloth, have further reduced the probability that the fold appears in the cloth, have reduced the probability that the cloth sagged because of the action of gravity simultaneously for the cutting of cutter is more smooth and easy.

Optionally, the cloth cutting mechanism includes third bracing piece, mounting panel, cutter and power component, the third bracing piece sets up on the workstation, the mounting panel sets up on the third bracing piece, power component sets up on the mounting panel, the cutter sets up on the power component, power component drives the cutter moves.

Through adopting above-mentioned technical scheme, when carrying out the cutting of cloth, power component drives the cutter and moves along the width direction of workstation, and the cutter cuts into the size of needs with the cloth, and then simply realizes the cutting of cloth effectively.

Optionally, the power component includes first sliding plate, first motor, first gear and first rack, first sliding plate sliding connection is in on the mounting panel, first sliding plate with the cutter is connected, first motor sets up on the first sliding plate, first gear key connects on the output shaft of first motor, first rack sets up on the mounting panel, first rack with first gear engagement.

Through adopting above-mentioned technical scheme, when carrying out the cutting cloth, first motor starts, and first motor drives first gear rotation, and first gear and first rack meshing, and then drive first motor motion, first motor motion drives first sliding plate and slides in first spout, and first sliding plate drives the cutter and cuts the cloth, and then simple realization cutter's motion.

Optionally, the spreading mechanism includes connecting rod, fourth clamping plate, third cylinder and actuating assembly, the connecting rod passes through actuating assembly slides and sets up on the workstation, the fourth clamping plate sets up on the connecting rod, the connecting rod with the axis of fourth clamping plate is perpendicular, the third cylinder sets up on the actuating assembly, the third clamping plate sets up on the third cylinder, the third cylinder drives the third clamping plate is close to the fourth clamping plate and then presss from both sides the cloth tightly.

Through adopting above-mentioned technical scheme, when carrying out the granny rag, the third cylinder starts, and the third cylinder drives third clamping plate to fourth clamping plate motion, and third clamping plate and fourth clamping plate press from both sides the cloth tight, and drive assembly drives connecting rod and third cylinder motion this moment, and the connecting rod drives fourth clamping plate motion, and the third cylinder drives third clamping plate motion, and third clamping plate and second connecting plate drive the cloth motion together, and then realized the automatic movement of cloth.

Optionally, open on the terminal surface that the workstation kept away from ground has the recess that runs through, on the lateral wall of recess length direction perpendicular to ground along length direction seted up the second spout, drive assembly includes second sliding plate, second motor, second gear and second rack, sliding connection respectively is in two at the both ends of second sliding plate in the second spout, the connecting rod with the third cylinder all sets up on the second sliding plate, the second motor sets up on the second sliding plate, second gear key connects on the output shaft of second motor, the second rack sets up in the second spout, the second rack with second gear engagement.

Through adopting above-mentioned technical scheme, when carrying out the granny rag, the third cylinder starts, the third cylinder drives the motion of third clamping plate to the fourth clamping plate, and then press from both sides the cloth tightly, the second motor starts, the second motor drives the second gear rotation, second gear and second rack meshing, and then drive the second motor motion, the second motor motion drives the second sliding plate and slides in the second spout, the second sliding plate drives connecting rod and third cylinder motion, the connecting rod drives the motion of fourth clamping plate, the third cylinder drives the motion of third clamping plate, third clamping plate and second connecting plate drive the cloth motion together, and then simply and conveniently realized the automatic movement of cloth.

Optionally, the side wall that workstation length direction perpendicular to ground and mutual keeping away from is provided with the scale strip, be provided with the distance scale on the scale strip, the initial point of scale strip with the position alignment of cutter.

By adopting the technical scheme, the setting of the scale bar is used for calibrating whether the set cloth cutting length is accurate, so that the probability of inaccurate cutting length caused by system errors or part aging is reduced.

Optionally, a storage mechanism is arranged on the ground, the storage mechanism comprises a storage plate and a hydraulic cylinder, the hydraulic cylinder is arranged on the ground, the storage plate is arranged on the hydraulic cylinder, and the storage plate is slidably connected in the groove.

Through adopting above-mentioned technical scheme, after the cloth cutting is accomplished, the pneumatic cylinder starts and drives to deposit the board and rise, and the cloth that the cutting was accomplished falls on depositing the board, and then has realized depositing of cloth.

In summary, the present application includes the following beneficial technical effects:

1. the cutting accuracy of the cloth cutting machine is improved;

2. calibrating the set cutting length;

3. and automatically collecting and storing the cloth.

Drawings

FIG. 1 is a schematic view of a structure of an automatic cloth cutting rack for clothing processing in an embodiment of the present application;

FIG. 2 is a schematic structural view of a guiding mechanism and a cloth clamping assembly according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a cloth cutting mechanism in an embodiment of the present application;

FIG. 4 is a schematic view of a tensioning assembly according to an embodiment of the present application;

FIG. 5 is a schematic view of a fabric pulling mechanism according to an embodiment of the present disclosure;

fig. 6 is a schematic structural view of a storage mechanism in an embodiment of the present application.

Reference numerals: 100. a work table; 110. a groove; 120. a second chute; 200. a support frame; 300. a guide mechanism; 310. a first support bar; 320. a guide roller; 400. a cloth clamping mechanism; 410. a cloth clamping assembly; 411. a second support bar; 4111. a first connection groove; 412. a first cylinder; 413. a first clamping plate; 414. a first fixing plate; 4141. a through groove; 420. a tensioning assembly; 421. a fourth support bar; 4211. a second connecting groove; 422. a second cylinder; 423. a second clamping plate; 424. a second fixing plate; 500. a cloth cutting mechanism; 510. a third support bar; 520. a mounting plate; 521. a first chute; 530. a cutter; 540. a power assembly; 541. a first motor; 542. a first sliding plate; 543. a first gear; 544. a first rack; 600. a cloth pulling mechanism; 610. a connecting rod; 620. a fourth clamping plate; 630. a third clamping plate; 640. a third cylinder; 650. a drive assembly; 651. a second sliding plate; 652. a second motor; 653. a second gear; 654. a second rack; 700. a storage mechanism; 710. a storage plate; 720. a hydraulic cylinder; 800. a scale bar.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-6.

The embodiment of the application discloses an automatic cloth cutting bench for clothing processing.

Referring to fig. 1, an automatic cloth cutting bench for clothing processing includes a work table 100 disposed on a ground, wherein the work table 100 is provided with a support frame 200 for placing cloth, a guide mechanism 300 for providing a guide function for the cloth, a cloth clamping mechanism 400 for clamping the cloth, a cloth cutting mechanism 500 for cutting the cloth, and a cloth pulling mechanism 600 for pulling the cloth to move, the ground is provided with a storage mechanism 700 for storing the cut cloth, the end surface of the work table 100 far from the ground is provided with a through groove 110, and the storage mechanism 700 is disposed between the ground and the groove 110; when the cloth is cut, the cloth pulling mechanism 600 pulls the cloth to move, the guiding mechanism 300 provides the guiding for the cloth, when the length required by the cloth is stretched, the cloth clamping mechanism 400 clamps the cloth, so that the cloth is smooth, then the cloth cutting mechanism 500 cuts the cloth, the cutting of the cloth is finished, the cutting accuracy of the cloth cutting machine is improved, and the cut cloth falls onto the storage mechanism 700 to be stored.

A scale bar 800 is fixedly connected to the side wall of the workbench 100, which is perpendicular to the ground, along the length direction, and distance scales are carved on the scale bar 800 along the length direction; the setting of the scale bar 800 calibrates the length of the cut cloth, thereby reducing the probability of inaccurate cut length due to system errors or part aging.

Referring to fig. 2, the guide mechanism 300 includes two first support rods 310, wherein the two first support rods 310 are fixedly connected to an end surface of the workbench 100 far from the ground and symmetrically arranged along an axis of the workbench 100 in a length direction, guide rollers 320 for changing a moving direction of cloth are rotatably connected to the end surface of the two first support rods 310 far from the ground together, a rolling direction of the guide rollers 320 is the same as the moving direction of the cloth, and the cloth passes through a gap between the guide rollers and the workbench and is tangent to the guide rollers.

The cloth clamping mechanism 400 comprises a cloth clamping assembly 410, the cloth clamping assembly 410 comprises two second supporting rods 411, the two second supporting rods 411 are fixedly connected to the end face of the workbench 100 far away from the ground and are symmetrically arranged along the axis of the length direction of the workbench 100, the second supporting rods 411 are located on one side of the first supporting rods 310 far away from the supporting frame 200, the first fixing plates 414 are fixedly connected to the side walls of the two second supporting rods 411, which are close to each other, a plurality of penetrating grooves 4141 are formed in the side walls of the first fixing plates 414 far away from the guide roller 320, the penetrating grooves 4141 are formed in the direction perpendicular to the ground and are convenient for the cloth stretching mechanism 600 to clamp cloth, the penetrating first connecting grooves 4111 are formed in the side walls of the two second supporting rods 411, which are close to each other, the first connecting grooves 4111 are formed in the direction perpendicular to the ground, the first connecting grooves 4111 are connected with first clamping plates 413 in a sliding mode, two first cylinders 412 are fixedly connected to the workbench 100, the two first cylinders 412 are located on one side of the two second supporting rods 411, which are far away from each other, and the piston shafts 413 of the two first cylinders 412 are respectively connected with the first clamping plates in a clamping mode and the direction of the two ends of the first connecting plates are close to the first connecting plates to the two ends of the first connecting plates which are fixedly connected to the two ends of the first connecting plates which clamp cloth.

When the cloth is clamped, the first cylinder 412 is activated, the first cylinder 412 drives the first clamping plate 413 to slide toward the first fixing plate 414 in the first connecting groove 4111, and the first clamping plate 413 and the first fixing plate 414 cooperate to clamp the cloth.

Referring to fig. 3, the cloth cutting mechanism 500 includes two third support rods 510, the two third support rods 510 are fixedly connected to an end surface of the workbench 100 far away from the ground and symmetrically arranged along an axis of the workbench 100 in a length direction, the third support rods 510 are located at one side of the second support rod 411 far away from the first support rod 310, one ends of the two third support rods 510 far away from the workbench 100 are integrally connected with a mounting plate 520 together, a cutter 530 is slidably arranged on the mounting plate 520, and a power assembly 540 for driving the cutter 530 to slide is arranged on the mounting plate 520.

The mounting plate 520 is close to the terminal surface of workstation 100 and opens has first spout 521, power pack 540 includes first sliding plate 542, first sliding plate 542 sliding connection is in first spout 521, the terminal surface that first sliding plate 542 is close to workstation 100 and cutter 530 fixed connection, fixedly connected with first motor 541 on the terminal surface that first sliding plate 542 kept away from workstation 100, key connection has first gear 543 on the output shaft of first motor 541, fixedly connected with first rack 544 on the lateral wall that first spout 521 is close to workstation 100, first rack 544 meshes with first gear 543.

When the cloth is cut, the first motor 541 is started, the first motor 541 drives the first gear 543 to rotate, the first gear 543 is meshed with the first rack 544, and then the first motor 541 is driven to move, the first motor 541 moves to drive the first sliding plate 542 to slide in the first chute 521, and the first sliding plate 542 drives the cutter 530 to cut the cloth, so that the cloth is simply cut.

Referring to fig. 4, the cloth clamping mechanism 400 includes a tensioning assembly 420, the tensioning assembly 420 includes two fourth support rods 421, the two fourth support rods 421 are fixedly connected to an end surface of the workbench 100 far away from the ground and are symmetrically arranged along an axis of the workbench 100 in a length direction, the fourth support rods 421 are located at one side of the third support rod 510 far away from the second support rods 411, second fixing plates 424 are fixedly connected to side walls of the two fourth support rods 421 close to each other, penetrating second connecting grooves 4211 are formed in side walls of the two fourth support rods 421 close to each other, the second connecting grooves 4211 are formed in a direction perpendicular to the ground, second clamping plates 423 are slidably connected in the second connecting grooves 4211, a second air cylinder 422 is fixedly connected to the workbench 100, the second air cylinder 422 is located at one side of the two fourth support rods 421 far away from each other, and a piston shaft of the second air cylinder 422 is fixedly connected with the side wall of the second clamping plates 423 close to the ground and drives the second clamping plates 423 to clamp cloth; when the cloth is clamped, the second air cylinder 422 is started, the second air cylinder 422 drives the second clamping plate 423 to slide towards the second fixing plate 424 in the second connecting groove 4211, and the second clamping plate 423 and the second fixing plate 424 work together to clamp the cloth.

Referring to fig. 5, a second sliding groove 120 is formed in a side wall of the groove 110, which is perpendicular to the ground, along the length direction, the spreading mechanism 600 includes a driving assembly 650, the driving assembly 650 includes a second sliding plate 651, two ends of the second sliding plate 651 in the length direction are respectively and slidably connected in the two second sliding grooves 120, one end of the second sliding plate 651, which slides in the second sliding groove 120, is fixedly connected with a second motor 652, an output shaft of the second motor 652 is connected with a second gear 653 in a key manner, a second rack 654 is fixedly connected to a side wall of the second sliding groove 120, which is close to the ground, and the second rack 654 is meshed with the second gear 653; the end face, far away from the ground, of the second sliding plate 651 is fixedly connected with a connecting rod 610, the arrangement of the connecting rod 610 corresponds to the penetrating groove 4141, one end, far away from the ground, of the connecting rod 610 is integrally connected with a fourth clamping plate 620, the fourth clamping plate 620 is perpendicular to the axis of the connecting rod 610, the end face, far away from the ground, of the second sliding plate 651 is fixedly connected with a third cylinder 640, a piston shaft of the third cylinder 640 is fixedly connected with a third clamping plate 630, and the third clamping plate 630 is in sliding connection with the side wall, close to the third cylinder 640, of the connecting rod 610.

When the cloth is pulled, the third air cylinder 640 is started, the third air cylinder 640 drives the third clamping plate 630 to move towards the fourth clamping plate 620 so as to clamp the cloth, the second motor 652 is started at this time, the second motor 652 drives the second gear 653 to rotate, the second gear 653 is meshed with the second rack 654 so as to drive the second motor 652 to move, the second motor 652 moves to drive the second sliding plate 651 to slide in the second sliding groove 120, the second sliding plate 651 drives the connecting rod 610 and the third air cylinder 640 to move, the connecting rod 610 drives the fourth clamping plate 620 to move, the third air cylinder 640 drives the third clamping plate 630 to move, and the third clamping plate 630 and the second connecting plate drive the cloth to move together, so that automatic movement of the cloth is simply and conveniently realized.

Referring to fig. 6, the storage mechanism 700 includes four hydraulic cylinders 720, the four hydraulic cylinders 720 are all disposed on the ground, and hydraulic shafts of the four hydraulic cylinders 720 are fixedly connected with a storage plate 710 together, and the storage plate 710 is used for storing cut cloth; when the cutter 530 cuts the cloth, the hydraulic cylinder 720 is started, the hydraulic cylinder 720 drives the storage plate 710 to move towards the direction of the groove 110, and after the cutting is completed, the storage plate 710 receives the dropped cloth, so that the collection and storage of the cloth are completed.

The implementation principle of the automatic cloth cutting bench for clothing processing is as follows: when the cloth is cut, the third air cylinder 640 is started, the third air cylinder 640 drives the third clamping plate 630 to move towards the fourth clamping plate 620 so as to clamp the cloth, the second motor 652 is started at this time, the second motor 652 drives the second gear 653 to rotate, the second gear 653 is meshed with the second rack 654 so as to drive the second motor 652 to move, the second motor 652 moves to drive the second sliding plate 651 to slide in the second sliding groove 120, the second sliding plate 651 drives the connecting rod 610 and the third air cylinder 640 to move, the connecting rod 610 drives the fourth clamping plate 620 to move, the third air cylinder 640 drives the third clamping plate 630 to move, and the third clamping plate 630 and the second connecting plate together drive the cloth to move.

When the cloth moves to the set length, the first cylinder 412 is started, the first cylinder 412 drives the first clamping plate 413 to slide towards the first fixing plate 414 in the first connecting groove 4111, and the first clamping plate 413 and the first fixing plate 414 work together to clamp the cloth; simultaneously, the second air cylinder 422 is started, the second air cylinder 422 drives the second clamping plate 423 to slide towards the second fixing plate 424 in the second connecting groove 4211, and the second clamping plate 423 and the second fixing plate 424 jointly act to clamp cloth; at this time, the first motor 541 is started, the first motor 541 drives the first gear 543 to rotate, the first gear 543 is meshed with the first rack 544, and further drives the first motor 541 to move, the first motor 541 moves to drive the first sliding plate 542 to slide in the first chute 521, and the first sliding plate 542 drives the cutter 530 to cut the cloth, so as to complete cutting of the cloth.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The utility model provides an automatic cloth cutting rack for clothing processing, its characterized in that, includes workstation (100), support frame (200), guiding mechanism (300), presss from both sides cloth mechanism (400), cloth cutting mechanism (500) and granny rag mechanism (600), workstation (100) set up subaerial, support frame (200) set up be used for placing the cloth on workstation (100), guiding mechanism (300) set up be used for providing the direction for the motion of cloth on workstation (100), cloth cutting mechanism (400) set up be used for pressing from both sides tight cloth and reduce the sagging of cloth on workstation (100), cloth cutting mechanism (500) set up be in on workstation (100) and be used for cutting the cloth, granny rag mechanism (600) set up on workstation (100) and be used for pulling cloth motion.

2. The automatic cloth cutting stand for clothing processing according to claim 1, wherein the guide mechanism (300) includes a guide roller (320), and the guide roller (320) is rotatably connected to the table (100) and is used for guiding cloth.

3. The automatic cloth cutting bench for clothing processing according to claim 1, wherein the cloth clamping mechanism (400) comprises a cloth clamping assembly (410), the cloth clamping assembly (410) comprises a first air cylinder (412), a first clamping plate (413) and a first fixing plate (414), the first air cylinder (412) is arranged on the workbench (100), the first clamping plate (413) is arranged on a piston shaft of the first air cylinder (412), the first fixing plate (414) is arranged on the workbench (100), and cloth passes between the first fixing plate (414) and the first clamping plate (413).

4. The automatic cloth cutting bench for clothing processing according to claim 3, wherein the cloth clamping mechanism (400) further comprises a tensioning assembly (420), the tensioning assembly (420) comprises a second air cylinder (422), a second clamping plate (423) and a second fixing plate (424), the second air cylinder (422) is arranged on the workbench (100), the second clamping plate (423) is arranged on a piston shaft of the second air cylinder (422), and the second fixing plate (424) is arranged on the workbench (100).

5. The automatic cloth cutting bench for clothing processing according to any of claims 1-4, wherein the cloth cutting mechanism (500) comprises a third support rod (510), a mounting plate (520), a cutter (530) and a power assembly (540), the third support rod (510) is arranged on the workbench (100), the mounting plate (520) is arranged on the third support rod (510), the power assembly (540) is arranged on the mounting plate (520), the cutter (530) is arranged on the power assembly (540), and the power assembly (540) drives the cutter (530) to move.

6. The automatic cloth cutting bench for clothing processing of claim 5, wherein the power assembly (540) comprises a first sliding plate (542), a first motor (541), a first gear (543) and a first rack (544), the first sliding plate (542) is slidably connected to the mounting plate (520), the first sliding plate (542) is connected to the cutter (530), the first motor (541) is disposed on the first sliding plate (542), the first gear (543) is keyed to an output shaft of the first motor (541), the first rack (544) is disposed on the mounting plate (520), and the first rack (544) is meshed with the first gear (543).

7. The automatic cloth cutting bench for clothing processing according to claim 1, wherein the cloth pulling mechanism (600) comprises a connecting rod (610), a fourth clamping plate (620), a third clamping plate (630), a third air cylinder (640) and a driving assembly (650), the connecting rod (610) is slidably arranged on the workbench (100) through the driving assembly (650), the fourth clamping plate (620) is arranged on the connecting rod (610), the connecting rod (610) is perpendicular to the axis of the fourth clamping plate (620), the third air cylinder (640) is arranged on the driving assembly (650), the third clamping plate (630) is arranged on the third air cylinder (640), and the third air cylinder (640) drives the third clamping plate (630) to be close to the fourth clamping plate (620) so as to clamp cloth.

8. The automatic cloth cutting bench for clothing processing according to claim 7, wherein the end surface of the workbench (100) far away from the ground is provided with a through groove (110), the side wall of the groove (110) perpendicular to the ground in the length direction is provided with a second sliding groove (120) in the length direction, the driving assembly (650) comprises a second sliding plate (651), a second motor (652), a second gear (653) and a second rack (654), two ends of the second sliding plate (651) are respectively connected in the two second sliding grooves (120) in a sliding mode, the connecting rod (610) and the third cylinder (640) are both arranged on the second sliding plate (651), the second motor (652) is arranged on the second sliding plate (651), the second gear (653) is connected on an output shaft of the second motor (652) in a key mode, and the second rack (654) is arranged in the second sliding groove (120) and meshed with the second gear (653).

9. The automatic cloth cutting bench for clothing processing according to claim 5, wherein a scale bar (800) is provided on a side wall of the working table (100) which is perpendicular to the ground and is far away from each other, a distance scale is provided on the scale bar (800), and an initial point of the scale bar (800) is aligned with a position of the cutter (530).

10. The automatic cloth cutting bench for clothing processing according to claim 8, characterized in that a storage mechanism (700) is arranged on the ground, the storage mechanism (700) comprises a storage plate (710) and a hydraulic cylinder (720), the hydraulic cylinder (720) is arranged on the ground, the storage plate (710) is arranged on the hydraulic cylinder (720), and the storage plate (710) is slidably connected in the groove (110).