CN220685589U - Cloth cutting mechanism for jacket processing - Google Patents

Abstract

The utility model belongs to the technical field of jacket processing, and particularly relates to a cloth cutting mechanism for jacket processing, which comprises the following components: the cloth cutting machine and the fixed frame are fixedly connected to the cloth cutting machine, two first sliding grooves are formed in the inner wall of the fixed frame, and an extrusion plate is connected between the two first sliding grooves in a sliding mode; the driving assembly is positioned in the cloth cutting machine and is used for driving the extrusion plate to move; the two second sliding grooves are formed in the cloth cutting machine, a sliding block is connected between the two second sliding grooves in a sliding mode, a third sliding groove communicated with the outside is formed in the sliding block, a first extrusion block is connected in the third sliding groove in a sliding mode, and two springs fixed with the top surface of the third sliding groove are fixedly connected to the top surface of the first extrusion block; the utility model solves the problems that a long-time work can cause fatigue of a user, and the fatigue is easy to generate in the process of stretching and compacting the cloth, and the surface of the cloth is wrinkled, so that deviation is generated when the cloth is cut.

Description

Cloth cutting mechanism for jacket processing

Technical Field

The utility model belongs to the technical field of jacket processing, and particularly relates to a cloth cutting mechanism for jacket processing.

Background

Cloth cutting mechanisms, also known as cloth cutting machines, are specialized devices for cutting various cloths and textiles that automatically or semi-automatically perform cutting operations to achieve efficient and accurate cutting processes, which are commonly used in the clothing manufacturing, home textile, footwear manufacturing and other textile processing industries, and whose primary function is to perform high-speed, accurate cutting on the cloth according to a predetermined design pattern or size, which typically uses rotary, vibratory or laser cutting techniques, based on rails or templates of the cutting machine, to cut the cloth according to a predetermined shape, size or pattern.

For example, chinese patent publication No. CN205653645U discloses a cloth cutting machine, which comprises a cutting platform, a bracket arranged on the cutting platform, a motor, a control panel, a plurality of cloth pressing plates, and a plurality of cutting components slidably arranged on the bracket. The cutting platform comprises a cutting panel and a plurality of supporting legs arranged at the bottom of the cutting panel, a cutting groove is formed in the cutting panel, and the supporting legs are arranged above the cutting panel corresponding to the cutting groove and are connected with the cutting panel. The motor is connected with the bottom of tailorring the panel, and control panel is connected with the motor electricity for the drive tailorring the subassembly, a plurality of cloth pressing plates are located the both sides of tailorring the panel. The automatic cloth pressing device has the advantages that mechanical automation and rapid cutting can be realized through the device, the working efficiency is improved, the cloth pressing plate is arranged, the end part of cloth on the cutting panel can be tensioned, the cutting is convenient, the condition that the cutting section is uneven can not occur, the cloth waste is avoided, and the cutting quality is improved.

The above patent has the following problems:

this patent suffers from several drawbacks in use, such as: above-mentioned cutter is carrying out cutting process to the cloth, needs the user to stretch the cloth and compress tightly with the hand, draws the fold on the cloth to be flat, but long-time work can let the user produce tired, produces slackening at the in-process of stretching and compressing tightly the cloth easily, lets the surface of cloth produce the fold, produces the deviation when leading to the cloth to be cut. In view of this, we propose a cloth cutting mechanism for cloth processing.

Disclosure of Invention

The utility model aims to solve the technical problems that fatigue is generated by a user in long-time work, looseness is easily generated in the process of stretching and pressing cloth, wrinkles are generated on the surface of the cloth, and deviation is generated when the cloth is cut.

In view of the above, the present utility model provides a cloth cutting mechanism for jacket processing, comprising:

the cloth cutting machine comprises a cloth cutting machine and a fixed frame, wherein the fixed frame is fixedly connected to the cloth cutting machine, two first sliding grooves are formed in the inner wall of the fixed frame, and an extrusion plate is connected between the two first sliding grooves in a sliding manner;

the driving assembly is positioned in the cloth cutting machine and used for driving the extrusion plate to move;

the two second sliding grooves are formed in the cloth cutting machine, a sliding block is connected between the two second sliding grooves in a sliding mode, a third sliding groove communicated with the outside is formed in the sliding block, a first extrusion block is connected in the third sliding groove in a sliding mode, and two springs fixed with the top surface of the third sliding groove are fixedly connected to the top surface of the first extrusion block;

and the extrusion assembly is positioned in the sliding block and used for fixing the sliding block on the cloth cutting machine.

In this technical scheme, ensure that the user need not to straighten the cloth and compress tightly with the hand when cutting the cloth.

In the above technical solution, further, the driving assembly includes:

the sliding groove is formed in the cloth cutting machine, a rotating groove communicated with the outside is formed in the inner wall of the sliding groove, two through grooves are formed in the inner wall of the sliding groove and are respectively communicated with the two first sliding grooves, two first chain wheels are rotationally connected to the sliding groove, chains are meshed on the two first chain wheels, a second chain wheel is meshed in the chains, and a rotating rod is fixedly connected to one side of the second chain wheel;

the fixing component is positioned in the rotating groove and used for fixing the rotating rod;

the two gears are respectively connected in the two through grooves in a rotating mode, one end of each gear extends into the corresponding sliding groove and is fixed with the corresponding first sprocket, racks are meshed on one sides of the two gears, and the top ends of the two racks extend into the two first sliding grooves and are fixed with the extrusion plate.

In this technical scheme, ensure that the stripper plate can fix the one end of cloth.

In the above technical solution, further, the fixing assembly includes:

the thread sleeve is sleeved on the rotating rod and is in threaded connection with the rotating groove, and one end of the thread sleeve is provided with an extrusion groove;

the extrusion sleeve is sleeved on the rotating rod and fixedly connected with the inner wall of the rotating groove, and one end of the extrusion sleeve extends into the extrusion groove.

In this technical scheme, ensure that the bull stick can be fixed.

In the above technical scheme, further, the one end of extrusion cover is the slope setting, and the one end and the extrusion groove grafting cooperation of extrusion cover, the bull stick is connected with the screw thread cover rotation, the bull stick is connected with the extrusion cover rotation.

In this technical scheme, ensure that the one end of extrusion cover can normally insert the extrusion inslot, let the one end of extrusion cover by the extrusion groove extrusion, let the extrusion cover fix the bull stick in the rotation inslot unable rotation, ensure that the bull stick can normally rotate in the screw thread cover, ensure that the bull stick can normally rotate in the extrusion cover.

In the above technical scheme, further, the bull stick is located the rotation inslot and rotates with the rotation groove to be connected, the second sprocket is located the sliding tray and rotates with the sliding tray to be connected, the one end and the sliding tray rotation of gear are connected, rack and corresponding first spout sliding connection.

In this technical scheme, ensure that the bull stick can normally rotate in the rotary groove, ensure that the second sprocket can normally rotate in the sliding tray, ensure that the rack can normally slide in corresponding first spout.

In the above technical solution, further, the extrusion assembly includes:

the two fixing plates are respectively and fixedly connected in the two second sliding grooves;

the two fourth sliding grooves are formed in the bottom face of the sliding block, the two fourth sliding grooves are respectively communicated with the two second sliding grooves, a second extrusion block is connected in the fourth sliding grooves in a sliding mode, the lower half portion of the second extrusion block is located in the corresponding second sliding groove, the second extrusion block is internally connected with a threaded rod in a threaded mode, and one end of the threaded rod penetrates through the corresponding fourth sliding groove and extends to the outside.

In this technical scheme, ensure when the slider moves to suitable position, can be fixed on the cloth cutter and can't remove.

In the above technical scheme, further, second extrusion piece's lower half with corresponding second spout sliding connection, two threaded rods all rotate with the slider and be connected.

In this technical scheme, ensure that the second extrusion piece's lower half can normally slide in corresponding second spout, ensure that two threaded rods can normally rotate in the slider.

The beneficial effects of the utility model are as follows:

this cloth cutting mechanism is used in jacket processing, through the first spout and the stripper plate that set up, let the stripper plate can slide between two first spouts, can drive the stripper plate through the drive assembly that sets up and remove, let the stripper plate fix the one end of cloth on the cloth cutter unable removal, slider through setting up, first extrusion piece and spring, when the one end of cloth is fixed, the user can promote the slider, let the slider drive first extrusion piece with the cloth level, wherein first extrusion piece can receive two spring force, closely paste with the cloth throughout, long-time work can let the user produce tiredly, produce the relaxation at the in-process of tensile and compressing tightly the cloth easily, let the surface of cloth produce the fold, produce the problem of deviation when leading to the cloth to be cut.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view showing the internal structure of the fixing frame according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a cloth cutter according to the present utility model;

FIG. 4 is a schematic view showing an internal structure of a cloth cutter according to the present utility model;

FIG. 5 is a schematic view of an explosive structure of an area in the present utility model;

FIG. 6 is a schematic view of the internal structure of the slider according to the present utility model;

fig. 7 is an enlarged schematic view of the structure of fig. 1 at a.

The label in the figure is:

1. cloth cutting machine; 2. a fixed frame; 3. a first chute; 4. an extrusion plate; 5. a second chute; 6. a slide block; 7. a third chute; 8. a first extrusion block; 9. a spring; 10. a sliding groove; 11. a rotating groove; 12. a through groove; 13. a first sprocket; 14. a chain; 15. a second sprocket; 16. a rotating rod; 17. a gear; 18. a rack; 19. a thread sleeve; 20. an extrusion groove; 21. extruding the sleeve; 22. a fixing plate; 23. a fourth chute; 24. a second extrusion block; 25. a threaded rod.

Detailed Description

Technical solutions in the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some of the embodiments of the present application, but not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application are within the scope of the protection of the present application.

In the description of the present application, it is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. For ease of description, the dimensions of the various features shown in the drawings are not drawn to actual scale. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type and not limited to the number of objects, e.g., the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

It should be noted that, in the description of the present application, the terms "front, rear, upper, lower, left, right", "horizontal, vertical, horizontal", and "top, bottom", etc. generally refer to an azimuth or a positional relationship based on the azimuth or the positional relationship shown in the drawings, and merely for convenience of description of the present application and simplification of the description, the azimuth terms do not indicate and imply that the apparatus or element referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present application; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

It should be noted that, in this application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may also be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

Example 1:

the embodiment provides a cloth cutting mechanism is used in jacket processing, includes:

the cloth cutting machine 1 and the fixed frame 2, the fixed frame 2 is fixedly connected to the cloth cutting machine 1, two first sliding grooves 3 are formed in the inner wall of the fixed frame 2, and an extrusion plate 4 is connected between the two first sliding grooves 3 in a sliding manner;

the driving assembly is positioned in the cloth cutting machine 1 and is used for driving the extrusion plate 4 to move;

the two second sliding grooves 5 are formed in the cloth cutting machine 1, a sliding block 6 is connected between the two second sliding grooves 5 in a sliding manner, a third sliding groove 7 communicated with the outside is formed in the sliding block 6, a first extrusion block 8 is connected in the third sliding groove 7 in a sliding manner, and two springs 9 fixed with the top surface of the third sliding groove 7 are fixedly connected to the top surface of the first extrusion block 8;

the extrusion assembly is positioned in the sliding block 6 and is used for fixing the sliding block 6 on the cloth cutting machine 1.

It can be seen that in this embodiment, when in use, the user passes the below of first extrusion piece 8 and places in the below of stripper plate 4 with the one end of cloth, then the user pulls out the one end of cloth with the hand, then drive stripper plate 4 through drive assembly and remove, when stripper plate 4 removes the unable position of removing, stripper plate 4 fixes the one end of cloth this moment, then the user pushes slider 6 with the hand, let the both ends of slider 6 slide in two second spouts 5, when slider 6 removes, first extrusion piece 8 can receive the effect of two spring 9 elasticity and paste with the surface fabric all the time, in the in-process that slider 6 removed first extrusion piece 8 can be with the fold on cloth surface pulled out, when slider 6 removes the other end of cloth, the user passes through the extrusion subassembly and fixes slider 6 on cloth cutter 1, ensure that the user need not pull out the cloth with the hand and compress tightly when cutting the cloth.

Example 2:

the embodiment provides a cloth cutting mechanism for jacket processing, in addition to the technical scheme including the embodiment, the cloth cutting mechanism further has the following technical characteristics, and the driving assembly includes:

the sliding groove 10 is formed in the cloth cutting machine 1, a rotating groove 11 communicated with the outside is formed in the inner wall of the sliding groove 10, two through grooves 12 are formed in the inner wall of the sliding groove 10, the two through grooves 12 are respectively communicated with the two first sliding grooves 3, two first chain wheels 13 are rotationally connected to the sliding groove 10, chains 14 are meshed on the two first chain wheels 13, a second chain wheel 15 is meshed in the chains 14, and a rotating rod 16 is fixedly connected to one side of the second chain wheel 15;

a fixing assembly located in the rotation groove 11 and used for fixing the rotating rod 16;

the two gears 17 are respectively and rotatably connected in the two through grooves 12, one ends of the gears 17 extend into the sliding grooves 10 and are fixed with the corresponding first chain wheels 13, racks 18 are meshed with one sides of the two gears 17, and the top ends of the two racks 18 extend into the two first sliding grooves 3 and are fixed with the extrusion plate 4.

In this embodiment, it can be seen that, when the device is used, a user passes one end of the cloth through the lower part of the first extrusion block 8 and places the cloth under the extrusion plate 4, then the user pulls one end of the cloth flat by hand, then the extrusion of the rotating rod 16 is released by the fixing component, then the user rotates the rotating rod 16 by hand, the rotating rod 16 drives the second sprocket 15 to rotate in the sliding groove 10, when the second sprocket 15 rotates, the second sprocket 15 drives the two first sprockets 13 to rotate in the sliding groove 10 through the chain 14, when the first sprocket 13 rotates, the first sprocket 13 drives the corresponding gear 17 to rotate in the corresponding through groove 12, the rack 18 is driven by the meshing action of the corresponding gear 17 to move downwards, the two racks 18 drive the extrusion plate 4 to move downwards along the first sliding groove 3, when the extrusion plate 4 moves to a position where the extrusion plate cannot move, the rotating rod 16 is then fixed in the rotating groove 11 through the fixing component, and the extrusion plate 4 can fix one end of the cloth.

Example 3:

the embodiment provides a cloth cutting mechanism for jacket processing, in addition to the technical scheme including above-mentioned embodiment, still has following technical feature, and fixed subassembly includes:

the thread sleeve 19 is sleeved on the rotating rod 16 and is in threaded connection with the rotating groove 11, and one end of the thread sleeve 19 is provided with an extrusion groove 20;

the extrusion sleeve 21 is sleeved on the rotating rod 16 and fixedly connected with the inner wall of the rotating groove 11, and one end of the extrusion sleeve 21 extends into the extrusion groove 20.

It can be seen that, in this embodiment, when the user needs to rotate the rotating rod 16, the threaded sleeve 19 is rotated by hand, so that the threaded sleeve 19 drives the extrusion groove 20 to move away from the extrusion sleeve 21, so that the extrusion groove 20 releases the extrusion of the extrusion sleeve 21, and meanwhile, the extrusion sleeve 21 releases the extrusion of the rotating rod 16, at this time, the fixing of the rotating rod 16 is released, when the user needs to fix the rotating rod 16, the user rotates the threaded sleeve 19 by hand in the opposite direction, so that the threaded sleeve 19 drives the extrusion groove 20 to move toward the extrusion sleeve 21, so that the extrusion groove 20 extrudes one end of the extrusion sleeve 21, and meanwhile, the extrusion sleeve 21 extrudes the rotating rod 16, so that the rotating rod 16 is fixed in the rotation groove 11 and the rotating rod 16 can be fixed.

Example 4:

the embodiment provides a cloth cutting mechanism for jacket processing, which comprises the following technical scheme, and has the following technical characteristics that one end of an extrusion sleeve 21 is obliquely arranged, one end of the extrusion sleeve 21 is in plug-in fit with an extrusion groove 20, a rotating rod 16 is rotationally connected with a threaded sleeve 19, and the rotating rod 16 is rotationally connected with the extrusion sleeve 21.

In this embodiment, it can be seen that one end of the extrusion sleeve 21 is ensured to be normally inserted into the extrusion groove 20, so that one end of the extrusion sleeve 21 is extruded by the extrusion groove 20, the extrusion sleeve 21 fixes the rotating rod 16 in the rotating groove 11 and cannot rotate, the rotating rod 16 is ensured to normally rotate in the threaded sleeve 19, and the rotating rod 16 is ensured to normally rotate in the extrusion sleeve 21.

Example 5:

the present embodiment provides a cloth cutting mechanism for jacket processing, which has the following technical features in addition to the technical scheme of the above embodiment, the rotating rod 16 is located in the rotating groove 11 and is rotationally connected with the rotating groove 11, the second sprocket 15 is located in the sliding groove 10 and is rotationally connected with the sliding groove 10, one end of the gear 17 is rotationally connected with the sliding groove 10, and the rack 18 is slidingly connected with the corresponding first sliding groove 3.

In this embodiment, it can be seen that the rotating rod 16 is ensured to rotate normally in the rotating groove 11, the second sprocket 15 is ensured to rotate normally in the sliding groove 10, and the rack 18 is ensured to slide normally in the corresponding first sliding groove 3.

Example 6:

the embodiment provides a cloth cutting mechanism for jacket processing, in addition to the technical scheme including the embodiment, has following technical characteristics, and the extrusion assembly includes:

the two fixing plates 22 are respectively fixedly connected in the two second sliding grooves 5;

the two fourth sliding grooves 23 are formed in the bottom surface of the sliding block 6, the two fourth sliding grooves 23 are respectively communicated with the two second sliding grooves 5, a second extrusion block 24 is connected in a sliding mode in the fourth sliding grooves 23, the lower half portion of the second extrusion block 24 is located in the corresponding second sliding groove 5, a threaded rod 25 is connected in the second extrusion block 24 in a threaded mode, and one end of the threaded rod 25 penetrates through the corresponding fourth sliding groove 23 and extends to the outside.

According to the embodiment, when one end of the cloth is fixed by the extrusion plate 4, a user pushes the sliding block 6 by hand, so that two ends of the sliding block 6 slide in the two second sliding grooves 5, meanwhile, the two second extrusion blocks 24 slide in the two second sliding grooves 5, when the sliding block 6 moves, the first extrusion block 8 is always attached to the cloth under the action of the elastic force of the two springs 9, the folds on the surface of the cloth can be leveled by the first extrusion block 8 in the moving process of the sliding block 6, when the sliding block 6 moves to the other end of the cloth, the user rotates the two threaded rods 25 by hand, so that the two second extrusion blocks 24 are respectively acted by the threads of the two threaded rods 25, and move towards two ends of the sliding block 6, and when the two second extrusion blocks 24 move to the position where they cannot move, the two ends of the sliding block 6 and the two second extrusion blocks 24 clamp the two fixed plates 22 respectively, so that the sliding block 6 cannot be fixed on the cloth cutting machine 1, and the two fixed blocks can not move on the cloth cutting machine 1 when the sliding block 6 moves to the proper position.

Example 7:

the present embodiment provides a cloth cutting mechanism for jacket processing, which has the following technical features except the technical scheme of the above embodiment, the lower half part of the second extrusion block 24 is slidably connected with the corresponding second sliding groove 5, and two threaded rods 25 are both rotatably connected with the sliding block 6.

In this embodiment, it can be seen that the lower half of the second extrusion block 24 is ensured to slide normally in the corresponding second runner 5, and that the two threaded rods 25 are ensured to rotate normally in the slide 6.

When in use, a user passes one end of cloth through the lower part of the first extrusion block 8 and places the cloth under the extrusion plate 4, then the user levels one end of the cloth by hand, then rotates the threaded sleeve 19 by hand, so that the threaded sleeve 19 drives the extrusion groove 20 to move away from the extrusion sleeve 21, the extrusion groove 20 releases extrusion of the extrusion sleeve 21, simultaneously, the extrusion sleeve 21 releases extrusion of the rotating rod 16, at the moment, the fixation of the rotating rod 16 is released, then the user rotates the rotating rod 16 by hand, so that the rotating rod 16 drives the second chain wheel 15 to rotate in the sliding groove 10, when the second chain wheel 15 rotates, the second chain wheel 15 drives the two first chain wheels 13 to rotate in the sliding groove 10 through the chain 14, when the first chain wheel 13 rotates, the first chain wheel 13 drives the corresponding gear 17 to rotate in the corresponding through groove 12, so that the rack 18 moves downwards under the meshing action of the corresponding gear 17, the two racks 18 drive the extrusion plate 4 to move downwards along the first sliding groove 3, when the extrusion plate 4 moves to a position incapable of moving, the extrusion plate 4 fixes one end of the cloth at the moment, then a user reversely rotates the threaded sleeve 19 by hand, the threaded sleeve 19 drives the extrusion groove 20 to move towards the extrusion sleeve 21, the extrusion groove 20 extrudes one end of the extrusion sleeve 21, meanwhile, the extrusion sleeve 21 extrudes the rotating rod 16, the rotating rod 16 is fixed in the rotating groove 11 and incapable of rotating, the extrusion plate 4 can fix one end of the cloth, then the user pushes the sliding block 6 by hand, two ends of the sliding block 6 slide in the two second sliding grooves 5, simultaneously, the two second extrusion blocks 24 slide in the two second sliding grooves 5, when the sliding block 6 moves, the first extrusion block 8 is always adhered to the cloth under the action of the elastic force of the two springs 9, in the process that the slide block 6 moves, the first extrusion block 8 can flatten folds on the surface of the cloth, when the slide block 6 moves to the other end of the cloth, a user rotates the two threaded rods 25 by hand, the two second extrusion blocks 24 are respectively affected by the threads of the two threaded rods 25 and move towards the two ends of the slide block 6, when the two second extrusion blocks 24 move to the position incapable of moving, the two ends of the slide block 6 and the two second extrusion blocks 24 respectively clamp the two fixing plates 22, the slide block 6 is fixed on the cloth cutting machine 1 and cannot move, and the fact that the user does not need to straighten and compress the cloth by hand when cutting the cloth is ensured.

The embodiments of the present application and the features of the embodiments may be combined without conflict, and the present application is not limited to the specific embodiments described above, which are merely illustrative, not restrictive, and many forms may be made by those of ordinary skill in the art, without departing from the spirit of the present application and the scope of the claims, which are also within the protection of the present application.

Claims (7)

1. Cloth cutting mechanism is used in jacket processing, characterized in that includes:

the cloth cutting machine comprises a cloth cutting machine (1) and a fixing frame (2), wherein the fixing frame (2) is fixedly connected to the cloth cutting machine (1), two first sliding grooves (3) are formed in the inner wall of the fixing frame (2), and an extrusion plate (4) is connected between the two first sliding grooves (3) in a sliding mode;

the driving assembly is positioned in the cloth cutting machine (1) and is used for driving the extrusion plate (4) to move;

the two second sliding grooves (5), the two second sliding grooves (5) are formed in the cloth cutting machine (1), a sliding block (6) is connected between the two second sliding grooves (5) in a sliding mode, a third sliding groove (7) communicated with the outside is formed in the sliding block (6), a first extrusion block (8) is connected in the third sliding groove (7) in a sliding mode, and two springs (9) fixed to the top surface of the third sliding groove (7) are fixedly connected to the top surface of the first extrusion block (8);

the extrusion assembly is positioned in the sliding block (6) and used for fixing the sliding block (6) on the cloth cutting machine (1).

2. The jacket-processing cloth cutting mechanism of claim 1, wherein the drive assembly comprises:

the sliding groove (10), the sliding groove (10) is arranged in the cloth cutting machine (1), a rotating groove (11) communicated with the outside is arranged on the inner wall of the sliding groove (10), two through grooves (12) are arranged on the inner wall of the sliding groove (10), the two through grooves (12) are respectively communicated with the two first sliding grooves (3), two first chain wheels (13) are rotationally connected with the sliding groove (10), chains (14) are meshed on the two first chain wheels (13), a second chain wheel (15) is meshed in the chains (14), and a rotating rod (16) is fixedly connected to one side of the second chain wheel (15);

the fixing component is positioned in the rotating groove (11) and is used for fixing the rotating rod (16);

the two gears (17), two the gears (17) rotate respectively and connect in two logical inslot (12), and the one end of gear (17) extends to in sliding tray (10) and is fixed with corresponding first sprocket (13), and one side of two gears (17) all has meshed rack (18), and the top of two racks (18) extends respectively in two first spouts (3) and is fixed with stripper plate (4).

3. The cloth cutting mechanism for jacket processing of claim 2, wherein the fixing assembly comprises:

the thread sleeve (19) is sleeved on the rotating rod (16) and is in threaded connection with the rotating groove (11), and an extrusion groove (20) is formed in one end of the thread sleeve (19);

the extrusion sleeve (21) is sleeved on the rotating rod (16) and fixedly connected with the inner wall of the rotating groove (11), and one end of the extrusion sleeve (21) extends into the extrusion groove (20).

4. The cloth cutting mechanism for jacket processing according to claim 3, wherein: one end of the extrusion sleeve (21) is obliquely arranged, one end of the extrusion sleeve (21) is in plug-in fit with the extrusion groove (20), the rotating rod (16) is rotationally connected with the threaded sleeve (19), and the rotating rod (16) is rotationally connected with the extrusion sleeve (21).

5. The cloth cutting mechanism for jacket processing according to claim 2, wherein: the rotary rod (16) is located in the rotary groove (11) and is rotationally connected with the rotary groove (11), the second sprocket (15) is located in the sliding groove (10) and is rotationally connected with the sliding groove (10), one end of the gear (17) is rotationally connected with the sliding groove (10), and the rack (18) is slidingly connected with the corresponding first sliding groove (3).

6. The jacket processing cloth cutting mechanism of claim 1, wherein the extrusion assembly comprises:

the two fixing plates (22), the two fixing plates (22) are fixedly connected in the two second sliding grooves (5) respectively;

the two fourth sliding grooves (23), two the bottom surface at slider (6) is seted up in fourth sliding groove (23), and two fourth sliding grooves (23) are linked together with two second sliding grooves (5) respectively, sliding connection has second extrusion piece (24) in fourth sliding groove (23), and the latter half of second extrusion piece (24) is located corresponding second sliding groove (5), second extrusion piece (24) internal thread connection has threaded rod (25), and the one end of threaded rod (25) runs through corresponding fourth sliding groove (23) and extends to the external world.

7. The cloth cutting mechanism for jacket processing according to claim 6, wherein: the lower half part of the second extrusion block (24) is in sliding connection with a corresponding second chute (5), and the two threaded rods (25) are both in rotary connection with the sliding blocks (6).