CN220619552U - Cloth cutting device for clothing processing - Google Patents

Abstract

The application relates to the technical field of clothing processing, in particular to a cloth cutting device for clothing processing, which comprises a workbench, a transverse moving mechanism, a longitudinal moving mechanism and a cutting mechanism, wherein the transverse moving mechanism is slidingly arranged on the workbench; the longitudinal moving mechanism comprises a sliding block and a longitudinal driving piece, the sliding block is arranged on the transverse moving mechanism and moves transversely along with the transverse moving mechanism, and the longitudinal driving piece is arranged on the transverse moving mechanism and drives the sliding block to move longitudinally; the cutting mechanism is arranged on the sliding block, the cutting mechanism comprises a cutting tool bit, the sliding block is further provided with a smoothing mechanism, the smoothing mechanism comprises a first smoothing component, the first smoothing component comprises a smoothing roller, the smoothing roller is arranged on the transverse moving mechanism and located on one side of the cutting tool bit, and the smoothing roller is in butt joint with cloth and smoothes the cloth. The utility model discloses a can improve the cutting effect of cloth.

Description

Cloth cutting device for clothing processing

Technical Field

The application relates to the technical field of clothing processing, in particular to a cloth cutting device for clothing processing.

Background

In the field of clothing processing, the main raw material of clothing processing is cloth, and the cloth is coiled after leaving the factory, and in order to be convenient for follow-up processing, the cloth needs to be cut integrally, and traditional technology adopts manual cutting, but along with technical development, the current multi-purpose cutting device cuts, and the cutting device can utilize the high frequency knife strip to cut a pile of cloth.

In view of the above-mentioned related art, the inventors believe that if a cloth is wrinkled, the high-frequency knife bar directly cuts the cloth, which may cause irregular cuts of the cloth, thereby affecting the cutting effect of the cloth.

Disclosure of Invention

In order to improve the cutting effect of cloth, the application provides a cloth cutting device for clothing processing.

The application provides a cloth cutting device of clothing processing adopts following technical scheme:

the cloth cutting device for clothing processing comprises a workbench, a transverse moving mechanism, a longitudinal moving mechanism and a cutting mechanism, wherein the transverse moving mechanism is arranged on the workbench in a sliding manner; the longitudinal moving mechanism comprises a sliding block and a longitudinal driving piece, the sliding block is arranged on the transverse moving mechanism and moves transversely along with the transverse moving mechanism, and the longitudinal driving piece is arranged on the transverse moving mechanism and drives the sliding block to move longitudinally; the cutting mechanism is arranged on the sliding block, the cutting mechanism comprises a cutting tool bit, the sliding block is further provided with a smoothing mechanism, the smoothing mechanism comprises a first smoothing component, the first smoothing component comprises a smoothing roller, the smoothing roller is arranged on the transverse moving mechanism and located on one side of the cutting tool bit, and the smoothing roller is in butt joint with cloth and smoothes the cloth.

Through adopting above-mentioned technical scheme, place the cloth behind the workstation, cut the tool bit along with slider removal process, smooth roller simultaneous movement and with cloth looks butt, smooth the roller and smooth the cloth, improve the cutting effect of cloth.

Preferably, the first smoothing component further comprises a supporting rod, two smoothing frames and a smoothing lifting piece, the supporting rod is arranged on the transverse moving mechanism, the two smoothing frames are respectively connected to the two ends of the supporting rod in a sliding mode along the vertical direction, and the smoothing roller is arranged between the two smoothing frames; the leveling lifting piece is used for driving the leveling frame to slide along the vertical direction and enabling the leveling roller to be abutted to the cloth.

Through adopting above-mentioned technical scheme, place the cloth behind the workstation, can smooth the lifting means and drive smooth frame and slide along vertical direction according to the thickness of cloth, smooth frame drive smooth roller and remove, make smooth roller can with cloth looks butt, smooth roller and be in the process of moving along with cutting the knife head, smooth the cloth, be convenient for cut the operation go on.

Preferably, the leveling lifting member comprises a lifting motor and a cam, the lifting motor is arranged on the supporting rod, the cam is arranged on an output shaft of the lifting motor, the cam is in butt joint with the leveling frame, and the cam rotates and drives the leveling frame to approach to the cloth.

Through adopting above-mentioned technical scheme, place the cloth behind the workstation, can start elevator motor according to the thickness of cloth, elevator motor drives cam motion, and the cam drives and smoothes the frame motion, smoothes the frame and drives and smoothes the roller motion, makes smoothes the roller and can with cloth looks butt, smoothes the roller and is moving the process along with cutting the cutter head together, smoothes the cloth, is convenient for cut the going on of operation.

Preferably, the first smoothing component further comprises a buffer rod and a buffer spring, the buffer rod is arranged on the smoothing frame, the buffer spring is arranged between the smoothing frame and the supporting rod, and the buffer spring has the potential of driving the smoothing frame to prop against the cam tightly.

Through adopting above-mentioned technical scheme, place the cloth behind the workstation, can start elevator motor according to the thickness of cloth, elevator motor drives the cam and moves to the direction that is close to the workstation, the cam drives and smooths the frame motion, smooths the frame and drives and smooths the roller and cloth looks butt, buffer spring is compressed, close elevator motor, buffer spring drives smooths the frame and moves to the direction that keeps away from the workstation, smooths the frame and drives and smooths the roller and no longer with the cloth looks butt, cuts the tool bit and cuts the cloth.

Preferably, the first smoothing assembly further comprises an adjusting member, and the smoothing roller is detachably connected to the smoothing frame through the adjusting member.

By adopting the technical scheme, the smoothing roller which is suitable for the cloth to be cut can be arranged on the smoothing frame according to the size of the cloth to be cut; when the smoothing roller is worn or dirty, the smoothing roller can be detached from the smoothing frame and replaced by a new smoothing roller.

Preferably, the adjusting piece comprises an adjusting block, the adjusting block is connected to the leveling frame in a sliding mode, a plug-in groove is formed in the adjusting block, and the leveling roller is plugged in the plug-in groove.

By adopting the technical scheme, the smoothing roller which is suitable for the cloth to be cut can be inserted into the inserting groove according to the size of the cloth to be cut; the adjusting block is arranged in a sliding manner, so that the smooth roller is convenient to mount and dismount; when the smoothing roller is worn or dirty, the smoothing roller can be separated from the inserting groove and replaced by a new smoothing roller.

Preferably, the adjusting piece further comprises a retraction rod and a return spring, the retraction rod is arranged on the adjusting block, the return spring is arranged between the retraction rod and the smoothing frame, and the return spring has the potential of driving the adjusting block to abut against the smoothing roller.

By adopting the technical scheme, the smoothing roller which is suitable for the cloth to be cut can be inserted into the inserting groove according to the size of the cloth to be cut, the two regulating blocks positioned on the two smoothing frames move in opposite directions, the reset spring is compressed, and the reset spring drives the regulating blocks to be abutted against the smoothing roller; when the smoothing roller is worn or dirty, the smoothing roller can be separated from the inserting groove and replaced by a new smoothing roller.

Preferably, the smoothing mechanism further comprises a second smoothing component, the second smoothing component comprises a smoothing rod, a smoothing flat head and a smoothing hydraulic cylinder, the smoothing rod is arranged on one side of the cutting knife head, the smoothing head is arranged on the smoothing rod, and a notch through which the cutting knife head can pass is formed in the smoothing head; the leveling hydraulic cylinder is arranged on the sliding block, and a piston rod of the leveling hydraulic cylinder is provided with the leveling rod.

Through adopting above-mentioned technical scheme, when the slider drives and cuts the cutter head and remove the cloth and wait to cut the position, start and smooth pneumatic cylinder and cut the pneumatic cylinder, smooth the piston rod of pneumatic cylinder and drive and smooth the crew cut and cloth butt, cut the piston rod of pneumatic cylinder and drive and cut cutter head and cloth butt, smooth the crew cut and follow and cut cutter head synchronous motion, smooth the crew cut the position and smooth with the cloth and wait to cut the position, cut the cutter head and cut the cloth.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the arrangement of the smoothing roller smoothes the folds on the cloth and improves the cutting effect of the cloth;

2. the smoothing roller is detachably connected with the smoothing frame, and the matched smoothing roller can be replaced according to the size of the cloth to be cut;

3. and the flat heads are arranged, so that the folds of the cloth at the position to be cut are smoothed, the cutting knife head is convenient to cut, and the cutting effect of the cloth is improved.

Drawings

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

FIG. 2 is a schematic view of a longitudinal movement mechanism according to an embodiment of the present application;

FIG. 3 is an exploded view of an adjustment member in an embodiment of the present application;

FIG. 4 is a schematic structural view of a second smoothing assembly in an embodiment of the present application.

Reference numerals illustrate: 100. a lateral movement mechanism; 110. a bracket; 120. a transverse moving frame; 130. a connecting plate; 131. a chute; 140. a lateral drive member; 141. a transverse motor; 142. a screw rod; 200. a longitudinal movement mechanism; 210. a slide block; 220. a longitudinal driving member; 221. a longitudinal motor; 222. a drive gear; 223. a rack; 300. a cutting mechanism; 310. cutting the cutter head; 320. cutting a hydraulic cylinder; 400. a smoothing mechanism; 410. a first smoothing assembly; 411. a support rod; 4111. a sliding hole; 412. a smoothing frame; 4121. a plug hole; 413. smoothing roller; 414. smoothing the lifting piece; 4141. a fixing seat; 4142. a lifting motor; 4143. a cam; 4144. a buffer rod; 4145. a buffer spring; 415. an adjusting member; 4151. an adjusting block; 4152. a plug-in groove; 4153. a retraction rod; 4154. a return spring; 420. a second smoothing assembly; 421. a smoothing lever; 422. smoothing the flat head; 423. a fan-shaped notch; 424. smoothing the hydraulic cylinder; 500. a working table.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a cloth cutting device for clothing processing.

Referring to fig. 1, the cloth cutting apparatus for clothing processing includes a workbench 500, a lateral movement mechanism 100, a longitudinal movement mechanism 200, a cutting mechanism 300 and a smoothing mechanism 400, wherein the lateral movement mechanism 100 is disposed on the workbench 500, and the lateral movement mechanism 100 is used for driving the cutting mechanism 300 and the smoothing mechanism 400 to move laterally; the longitudinal moving mechanism 200 is disposed on the transverse moving mechanism 100, and the longitudinal moving mechanism 200 is used for driving the cutting mechanism 300 to move longitudinally; the cutting mechanism 300 is arranged on the longitudinal moving mechanism 200, and the cutting mechanism 300 is used for cutting cloth; the smoothing mechanism 400 is disposed on the longitudinal moving mechanism 200, and the smoothing mechanism 400 is used for smoothing wrinkles on the cloth to be cut, so that the cutting mechanism 300 is convenient for cutting operation.

Referring to fig. 1, a workbench 500 is in a cuboid shape, a transverse moving mechanism 100 comprises two groups of brackets 110, the two groups of brackets 110 are symmetrically arranged along the length direction of the workbench 500, each group of brackets 110 comprises two brackets 110, the two brackets 110 are vertically and fixedly connected to one side of the workbench 500 and are symmetrically arranged along the length direction of the workbench 500, one ends of the two brackets 110 far away from the workbench 500 are fixedly connected with a transverse moving frame 120 together, one sides of the two transverse moving frames 120 close to each other are connected with a connecting plate 130 in a sliding manner together, and the connecting plate 130 is positioned between the two brackets 110 and slides along the length direction of the workbench 500; the transverse moving mechanism 100 further comprises a transverse driving member 140, the transverse driving member 140 comprises a transverse motor 141, the transverse motor 141 is located at one end of the transverse moving frame 120 close to one of the supports 110, the transverse motor 141 is located at the side face of the transverse moving frame 120 close to the connecting plate 130, an output shaft of the transverse motor 141 is fixedly connected with a screw rod 142, the screw rod 142 penetrates through the connecting plate 130 and is in threaded connection with the connecting plate 130, and one end, far away from the transverse motor 141, of the screw rod 142 is rotationally connected to the side face of the other support 110 close to the connecting plate 130.

The transverse motor 141 is started, the transverse motor 141 drives the screw rod 142 to rotate, and the screw rod 142 drives the connecting plate 130 to slide along the length direction of the workbench 500.

Referring to fig. 1 and 2, a chute 131 is formed on a side surface of the connection plate 130, which is close to the workbench 500, the chute 131 is formed along a width direction of the workbench 500, the longitudinal moving mechanism 200 comprises a slider 210, the slider 210 is integrally formed with a protrusion, and the protrusion is slidably connected in the chute 131; the side surface of the sliding block 210 far away from the transverse motor 141 is provided with a containing cavity, the longitudinal moving mechanism 200 also comprises a longitudinal driving piece 220, the longitudinal driving piece 220 comprises a longitudinal motor 221, the longitudinal motor 221 is placed in the containing cavity, and the output shaft of the longitudinal motor 221 is connected with a driving gear 222 in a key way; the longitudinal driving member 220 further includes a rack 223, the rack 223 is fixedly connected to the side surface of the connection plate 130 near the workbench 500, the setting direction of the rack 223 is consistent with the setting direction of the chute 131, and the driving gear 222 is meshed with the rack 223.

The longitudinal motor 221 is started, and the longitudinal motor 221 drives the driving gear 222 to move along the rack 223, so that the sliding block 210 is driven to slide along the width direction of the workbench 500.

Referring to fig. 1 and 2, the cutting mechanism 300 includes a cutting blade 310, the cutting blade 310 is a double-edged blade, the cutting blade 310 is disposed on a side of the slider 210 near the worktable 500, and the cutting blade 310 is disposed along a vertical direction; the cutting mechanism 300 further comprises a cutting hydraulic cylinder 320, the cutting hydraulic cylinder 320 is fixedly connected to the side surface of the slider 210, which is close to the workbench 500, and a piston rod of the cutting hydraulic cylinder 320 is detachably connected with the cutting blade head 310.

When the slider 210 drives the cutting blade 310 to move to the position where the cloth is to be cut, the cutting hydraulic cylinder 320 is started, and the piston rod of the cutting hydraulic cylinder 320 drives the cutting blade 310 to abut against the cloth, and the cutting blade 310 cuts the cloth.

Referring to fig. 2 and 3, the smoothing mechanism 400 includes two groups of first smoothing components 410, the two groups of first smoothing components 410 are respectively located at two sides of the slider 210, and the two groups of first smoothing components 410 are symmetrically arranged along the length direction of the workbench 500; the first leveling component 410 comprises a supporting rod 411, the supporting rod 411 passes through the sliding block 210 along the horizontal direction and is perpendicular to the sliding block 210, the side surface of the supporting rod 411, which is far away from the workbench 500, is fixedly connected with the side surface of the connecting plate 130, which is close to the workbench 500, the two ends of the supporting rod 411, which are far away from the sliding block 210, are respectively provided with a sliding hole 4111, leveling frames 412 are slidingly connected in the sliding holes 4111 along the vertical direction, and the side surfaces, which are close to each other, of the two leveling frames 412 are jointly detachably connected with a leveling roller 413; the first leveling component 410 further comprises a leveling lifting member 414, the leveling lifting member 414 comprises a fixing seat 4141, the fixing seat 4141 is vertically and fixedly connected to one side, close to the leveling roller 413, of the connecting plate 130, the fixing seat 4141 is located at one end, close to the leveling frame 412, of the connecting plate 130, the fixing seat 4141 is fixedly connected with a lifting motor 4142 on the side, close to the leveling frame 412, of the fixing seat 4141, an output shaft of the lifting motor 4142 is connected with a cam 4143, the cam 4143 is abutted against the end face, far away from the leveling roller 413, of the leveling frame 412, a buffer rod 4144 is vertically and fixedly connected to the side, close to the supporting rod 411, of the leveling frame 412, a buffer spring 4145 is fixedly connected to the side, far away from the buffer rod 4144, of the buffer spring 4145, on the side, far away from the supporting rod 411, of the leveling roller 413.

After the cloth is conveyed onto the workbench 500, the lifting motor 4142 is started, the lifting motor 4142 drives the cam 4143 to move in a direction approaching to the support rod 411, the cam 4143 drives the smoothing frame 412 to move, the buffer spring 4145 is compressed, the smoothing frame 412 drives the smoothing roller 413 to abut against the cloth, and the smoothing roller 413 smoothes the cloth; after the cloth is smoothed, the lifting motor 4142 is turned off, the buffer spring 4145 drives the smoothing frame 412 to move to the position of the lifting motor 4142, the smoothing frame 412 is reset, and the smoothing frame 412 is not abutted with the cloth any more; the slider 210 drives the cutting blade head to move to the position where the cloth is to be cut, and the cutting hydraulic cylinder 320 drives the cutting blade head 310 to abut against the cloth, and the cutting blade head 310 cuts the cloth.

Referring to fig. 2 and 3, the two smoothing frames 412 are provided with insertion holes 4121 on the sides close to each other, the insertion holes 4121 are located at one end of the smoothing frames 412 away from the supporting rods 411, the first smoothing assembly 410 comprises an adjusting piece 415, the adjusting piece 415 comprises an adjusting block 4151, the adjusting block 4151 is slidably connected in the insertion holes 4121, the side of the adjusting block 4151 close to the cutting head 310 is provided with insertion grooves 4152, and the smoothing roller 413 is inserted in the insertion grooves 4152; the side surface of the adjusting block 4151, which is close to the bracket 110, is vertically and fixedly connected with a retraction rod 4153, the side surface of the retraction rod 4153, which is close to the smoothing frame 412, is fixedly connected with a return spring 4154, and one end, which is far away from the retraction rod 4153, of the return spring 4154 is fixedly connected with the side surface of the smoothing frame 412, which is close to the cutting head 310.

According to the size of the cloth to be cut, the leveling rollers 413 matched with the cloth to be cut are inserted into the inserting grooves 4152, the two adjusting blocks 4151 positioned on the two leveling frames 412 move in opposite directions, the reset springs 4154 are compressed, and the reset springs 4154 drive the adjusting blocks 4151 to abut against the leveling rollers 413; when the smoothing roller 413 wears or becomes dirty, the smoothing roller 413 can be disengaged from the insertion groove 4152 and replaced with a new smoothing roller 413.

Referring to fig. 2 and 4, the smoothing mechanism 400 further includes two groups of second smoothing components 420, the two groups of second smoothing components 420 are respectively located at two sides of the cutting tool bit 310 and symmetrically arranged along the length direction of the workbench 500, the second smoothing components 420 include a smoothing rod 421, the smoothing rod 421 is slidably arranged on the side surface of the slider 210, which is fixedly connected with the cutting hydraulic cylinder 320, the smoothing rod 421 is parallel to the cutting tool bit 310, one end of the smoothing rod 421, which is far away from the slider 210, is integrally formed with a smoothing head 422, the smoothing head 422 is perpendicular to the smoothing rod 421, the smoothing head 422 is circular, a fan-shaped notch 423 is formed in the smoothing head 422, and the cutting tool bit 310 is located in the fan-shaped notch 423; the second leveling assembly 420 further comprises a leveling hydraulic cylinder 424, the leveling hydraulic cylinder 424 is fixedly connected to the side surface of the slider 210, which is fixedly connected with the cutting hydraulic cylinder 320, the leveling hydraulic cylinder 424 is located on one side of the cutting hydraulic cylinder 320, and one end of the leveling rod 421, which is close to the slider 210, is fixedly connected with a piston rod of the leveling hydraulic cylinder 424.

The slider 210 drives the cutting blade 310 to move to the position to be cut, the cutting hydraulic cylinder 320 and the smoothing hydraulic cylinder 424 are started, the cutting hydraulic cylinder 320 drives the cutting blade 310 to be abutted against the cloth, the piston rod of the smoothing hydraulic cylinder 424 drives the smoothing rod 421 to move to a position close to the workbench 500, the smoothing rod 421 drives the smoothing flat head 422 to move, the smoothing flat head 422 is abutted against the cloth, the cutting blade 310 and the smoothing head 422 synchronously move, the smoothing flat head 422 smoothes wrinkles at the position to be cut, and the cutting blade 310 cuts the cloth.

The implementation principle of the cloth cutting device for clothing processing in the embodiment of the application is as follows: according to the size of the cloth to be cut, the leveling rollers 413 matched with the size of the cloth are inserted into the inserting grooves 4152, the two adjusting blocks 4151 positioned on the two leveling frames 412 move in opposite directions, the reset springs 4154 are compressed, and the reset springs 4154 drive the adjusting blocks 4151 to abut against the leveling rollers 413; after the cloth is conveyed to the workbench 500, the lifting motor 4142 is started, the lifting motor 4142 drives the cam 4143 to move towards the direction close to the supporting rod 411, the cam 4143 drives the smoothing frame 412 to move, the buffer spring 4145 is compressed, and the smoothing frame 412 drives the smoothing roller 413 to abut against the cloth; starting a transverse motor 141, wherein the transverse motor 141 drives a screw rod 142 to rotate, the screw rod 142 drives a connecting plate 130 to slide along the length direction of a workbench 500, a smoothing roller 413 smoothes cloth along with the movement process of the connecting plate 130, a lifting motor 4142 is closed, a compressed buffer spring 4145 resets, a smoothing frame 412 is driven to move in a direction away from the workbench 500, and the smoothing roller 413 is not abutted with the cloth any more; starting a longitudinal motor 221, wherein the longitudinal motor 221 drives a driving gear 222 to move along a rack 223, so as to drive a sliding block 210 to slide along the width direction of a workbench 500, and the sliding block 210 drives a cutting knife head 310 to move to a cloth cutting position; the slider 210 drives the cutting blade 310 to move to the position where the cloth is to be cut, the cutting hydraulic cylinder 320 and the smoothing hydraulic cylinder 424 are started, the cutting hydraulic cylinder 320 drives the cutting blade 310 to be abutted against the cloth, the smoothing hydraulic cylinder 424 drives the smoothing head 422 to be abutted against the cloth, the cutting blade 310 and the smoothing head 422 synchronously move, the smoothing head 422 smoothes folds at the position where the cloth is to be cut, and the cutting blade cuts the cloth; after the cutting operation is finished, the cutting hydraulic cylinder 320 is started, the cutting hydraulic cylinder 320 drives the cutting tool bit 310 to move in the direction away from the workbench 500, the smoothing hydraulic cylinder 424 is started, the smoothing hydraulic cylinder 424 drives the smoothing rod 421 to move in the direction away from the workbench 500, and the smoothing hydraulic cylinder 424 drives the smoothing flat head 422 to be not abutted with cloth any more.

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 (8)

1. The cloth cutting device for clothing processing comprises a workbench (500), a transverse moving mechanism (100), a longitudinal moving mechanism (200) and a cutting mechanism (300), wherein the transverse moving mechanism (100) is arranged on the workbench (500) in a sliding manner; the longitudinal moving mechanism (200) comprises a sliding block (210) and a longitudinal driving piece (220), the sliding block (210) is arranged on the transverse moving mechanism (100) and moves transversely along with the transverse moving mechanism (100), and the longitudinal driving piece (220) is arranged on the transverse moving mechanism (100) and drives the sliding block (210) to move longitudinally; the cutting mechanism (300) is arranged on the sliding block (210), and the cutting mechanism (300) comprises a cutting tool bit (310), and is characterized in that: the utility model discloses a cloth cutting machine, including slider (210), slider (210) are last still to be provided with smooth mechanism (400), smooth mechanism (400) include first smooth subassembly (410), first smooth subassembly (410) are including smooth roller (413), smooth roller (413) set up in on lateral shifting mechanism (100) and be located cut knife head (310) one side, smooth roller (413) and cloth looks butt and smooth the cloth.

2. A cloth cutting apparatus for garment processing according to claim 1, wherein: the first leveling component (410) further comprises a supporting rod (411), two leveling frames (412) and leveling lifting pieces (414), wherein the supporting rod (411) is arranged on the transverse moving mechanism (100), the two leveling frames (412) are respectively connected to the two ends of the supporting rod (411) in a sliding mode along the vertical direction, and the leveling rollers (413) are arranged between the two leveling frames (412); the leveling lifting piece (414) is used for driving the leveling frame (412) to slide along the vertical direction and enabling the leveling roller (413) to be abutted with cloth.

3. A cloth cutting apparatus for garment processing according to claim 2, wherein: the leveling lifting piece (414) comprises a lifting motor (4142) and a cam (4143), the lifting motor (4142) is arranged on the supporting rod (411), the cam (4143) is arranged on an output shaft of the lifting motor (4142), the cam (4143) is abutted against the leveling frame (412), and the cam (4143) rotates and drives the leveling frame (412) to approach the cloth.

4. A cloth cutting apparatus for garment processing as defined in claim 3, wherein: the first leveling assembly (410) further comprises a buffer rod (4144) and a buffer spring (4145), the buffer rod (4144) is arranged on the leveling frame (412), the buffer spring (4145) is arranged between the leveling frame (412) and the supporting rod (411), and the buffer spring (4145) has the potential of driving the leveling frame (412) to abut against the cam (4143).

5. A cloth cutting apparatus for garment processing according to claim 2, wherein: the first leveling assembly (410) further comprises an adjusting piece (415), and the leveling roller (413) is detachably connected to the leveling frame (412) through the adjusting piece (415).

6. A cloth cutting apparatus for garment processing as defined in claim 5, wherein: the adjusting piece (415) comprises an adjusting block (4151), the adjusting block (4151) is connected to the leveling frame (412) in a sliding mode, the adjusting block (4151) is provided with a plug-in groove (4152), and the leveling roller (413) is plugged into the plug-in groove (4152).

7. A cloth cutting apparatus for garment processing as defined in claim 6, wherein: the adjusting piece (415) further comprises a retraction rod (4153) and a return spring (4154), the retraction rod (4153) is arranged on the adjusting block (4151), the return spring (4154) is arranged between the retraction rod (4153) and the leveling frame (412), and the return spring (4154) has the potential of driving the adjusting block (4151) to abut against the leveling roller (413).

8. A cloth cutting apparatus for garment processing according to claim 1, wherein: the smoothing mechanism (400) further comprises a second smoothing component (420), the second smoothing component (420) comprises a smoothing rod (421), a smoothing head (422) and a smoothing hydraulic cylinder (424), the smoothing rod (421) is arranged on one side of the cutting tool bit (310), the smoothing head (422) is arranged on the smoothing rod (421), and a notch through which the cutting tool bit (310) can pass is formed in the smoothing head (422); the leveling hydraulic cylinder (424) is arranged on the sliding block (210), and a piston rod of the leveling hydraulic cylinder (424) is provided with the leveling rod (421).