CN212270397U

CN212270397U - Single-piece cuff rib knitting machine

Info

Publication number: CN212270397U
Application number: CN202020233348.6U
Authority: CN
Inventors: 王腊鹏
Original assignee: Zhejiang Lingzhi Intelligent Technology Co ltd
Current assignee: Zhejiang Lingzhi Intelligent Technology Co ltd
Priority date: 2020-02-28
Filing date: 2020-02-28
Publication date: 2021-01-01
Anticipated expiration: 2030-02-28

Abstract

The utility model relates to a single-piece cuff rib knitting machine, which comprises a frame with a storage bin and a receiving bin, a sewing mechanism, a feeding mechanism, a cantilever and a receiving device, wherein the sewing mechanism is arranged on the frame, the feeding mechanism is arranged at the upstream of the sewing mechanism along the conveying direction of cloth, the receiving device is arranged at the downstream of the sewing mechanism along the conveying direction of cloth, the cantilever is arranged between the sewing mechanism and the receiving device, the feeding mechanism conveys the block cloth in the storage bin to the sewing mechanism, the cantilever conveys the tubular cloth processed by the sewing mechanism to the receiving mechanism, and finally the receiving device takes the tubular cloth on the cantilever down and receives the tubular cloth into the receiving bin, thus, the automatic feeding of the block cloth can be realized through the matching of the feeding mechanism, the sewing mechanism, the cantilever and the receiving device, the whole processing process has less manual participation and higher automation degree.

Description

Single-piece cuff rib knitting machine

Technical Field

The utility model relates to a cuff rib knitting machine field especially relates to a be used for single-disc cuff rib knitting machine.

Background

The traditional cuffs are manufactured by manual sewing, because the cuffs need to be folded, curled and other operation steps in the manufacturing process, the steps need to be manually operated in the manual manufacturing process, and then folded and curled cuff fabrics are sewn through a sewing machine, the production mode of manual sewing is extremely low in production efficiency and high in labor consumption, and because the levels of workers are different, the produced cuffs have different quality and are difficult to ensure the same quality; in addition, the sewing of the cuffs requires a plurality of operations such as flanging and hemming, and the sewing workers have high proficiency and high doorsill.

Therefore, the cuff rib knitting machine is designed, the existing cuff rib knitting machine adopts rolled cloth as a processing raw material, for example, the Chinese utility model patent with the patent number of CN201620348698.0 discloses an automatic rib knitting machine, which comprises a cloth turning component, a sewing machine, a mop component, a cloth pressing component, a cutter component and a controller which are respectively arranged on a working plane; the cloth turning assembly comprises a cloth placing unit, a conveying unit and a turning unit and is used for automatically turning and folding a single-layer rib cloth into two layers to be overlapped when the single-layer rib cloth is conveyed; sewing the rib fabric by the sewing machine, and dragging the rib fabric to transport by the mop assembly; the cloth pressing component presses the rib fabric and is provided with a cutting path, and the cutter component is provided with a cutter capable of moving along the cutting path and cuts two layers of overlapped and sewn rib fabric with preset length; the controller is respectively electrically connected with and controls the sewing machine, the mop component, the cloth pressing component and the cutter component.

Although the rib machine can realize automatic conveying, turning, sewing and cutting to obtain the automatic rib machine feeding of the threaded cloth with the preset length, the workload of operators can be reduced, the coiled cloth needs to be independently pulled, cut and turned over in the processing engineering, the whole processing flow needs to pass through a plurality of procedures, the structure is complex, the production efficiency is low, and the finished piece of cloth cannot be processed, so that the further improvement is needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the current situation to prior art provides a monolithic cuff rib knitting machine that can realize processing of cubic cloth and can transport the material automatically.

The utility model discloses the second technical problem that will solve is to prior art's current situation, provides one kind and can carry out the material loading and the cloth can not produce the monolithic cuff rib knitting machine of fold to flexible cloth.

The utility model aims to solve the third technical problem to prior art's current situation, provide one kind can receive the material and the cloth can not gather into the monolithic cuff rib knitting machine of group receiving the material in-process cloth to flexible cloth.

The utility model provides a technical scheme that above-mentioned first technical problem adopted does: the single-piece cuff rib knitting machine comprises

The frame is provided with a storage bin for containing blocky cloth to be processed and a material receiving bin for receiving the processed cloth;

the sewing mechanism is arranged on the rack and used for turning over and sewing the blocky cloth to form tubular cloth;

the feeding mechanism is used for conveying the blocky cloth in the storage bin to the sewing mechanism and is arranged at the upstream of the sewing mechanism along the cloth conveying direction;

the material receiving device is used for conveying and receiving the sewn cloth into a material receiving bin and is arranged at the downstream of the sewing mechanism along the conveying direction of the cloth;

the cantilever is arranged between the sewing mechanism and the material receiving device along the conveying path of the cloth, and can move back and forth between the sewing mechanism and the material receiving device under the driving of the swinging mechanism, so that the tubular cloth sewn by the sewing mechanism is conveyed to the material receiving device.

In order to further ensure that the tubular cloth produced by the sewing mechanism can be conveyed to the material receiving device, preferably, the cantilever comprises a support plate for supporting the tubular cloth, a material conveying assembly for conveying the sewn cloth to the support plate, and a deflection assembly for rotating the tubular cloth to a natural sagging state, wherein a power output end of the deflection assembly is in driving connection with corresponding ends of the support plate and the material conveying assembly respectively, the support plate and the material conveying assembly are arranged side by side, and a gap for the tubular cloth to pass through is formed between the support plate and the material conveying assembly.

In order to ensure the feeding and the discharging of the relative supporting plate which can freely feed the cylindrical cloth, the material conveying assembly comprises two first drivers, two supports and a transmission belt, the two supports are arranged oppositely, a driving wheel is arranged at the first end between the two supports, a driven wheel is arranged at the second end between the two supports, the first drivers are installed on the supports, the output shafts of the first drivers are coaxially connected with the driving wheel, and the transmission belt is sequentially wound on the driving wheel and the driven wheel.

In order to ensure that the sewn tubular cloth is rotated to a natural drooping state, the deflection assembly comprises a rotating table, a second driver and a connecting piece, the two brackets are connected to the rotating table through the connecting piece, and the supporting plate is connected to the rotating table; the output end of the second driver is in driving connection with the rotating table and can drive the support and the supporting plate to rotate synchronously.

In order to further ensure that the cantilever can swing back and forth between the sewing mechanism and the material receiving device, preferably, the swing mechanism comprises a swing seat and a third driver, the third driver is installed on the rack, the swing seat is connected with the output end of the third driver, and the rotating table and the second driver are both arranged on the swing seat.

In order to facilitate the feeding and discharging of the sewn tubular cloth, the cloth input end of the support plate is provided with a guide part, and the guide part gradually becomes wider along the input defense line of the cloth.

The utility model provides a technical scheme that above-mentioned second technical problem adopted does: the material receiving device comprises a material moving mechanism for receiving and tightly supporting the cylindrical cloth on the cantilever, a turnover mechanism for turning over the cylindrical cloth tightly supported on the material moving mechanism to form a double layer and a pressure lever mechanism, wherein the turnover mechanism and the pressure lever mechanism are arranged on the cantilever, and the material receiving device comprises a material receiving mechanism for receiving and tightly supporting the cylindrical cloth on the cantilever, a turnover mechanism for turning over the cylindrical cloth

The material moving mechanism is arranged at the downstream of the cantilever and comprises two support rods arranged side by side, a first driving mechanism and a second driving mechanism, wherein the power output end of the first driving mechanism is connected to the two support rods and can drive the two support rods to be close to the cantilever and extend into the cylindrical cloth, and the power output end of the second driving mechanism is connected to the two support rods and can be mutually far away under the condition that the two support rods extend into the cylindrical cloth so as to enable the cylindrical cloth to be tightly supported and separated from the cantilever;

the turnover mechanism comprises at least two clamping jaw assemblies adjacent to the supporting rod, the at least two clamping jaw assemblies are arranged at intervals along the circumferential direction of the tubular cloth to be turned, each clamping jaw assembly comprises two clamping jaws and a driving cylinder, and the driving cylinder is in driving connection with the two clamping jaws and can drive the clamping jaws to clamp the edge of the tubular cloth;

the pressing rod mechanism comprises a fixing plate, a sliding rod and a third driving mechanism, the third driving mechanism is in driving connection with the sliding rod and can drive the sliding rod to move downwards so that the cylindrical cloth can be separated from the supporting rod, the material moving mechanism, the turnover mechanism and the pressing rod mechanism are matched, the cylindrical cloth on the cantilever can be turned over and stored into a material receiving bin, the automation of the material receiving process is ensured, and the cylindrical cloth cannot be gathered into a lump in the whole material receiving process.

In order to further ensure that the material moving mechanism can take off the tube-shape cloth from the cantilever, the second actuating mechanism includes the supporting seat, can follow the gliding slide of supporting seat length direction and driving motor, the supporting seat is connected on first actuating mechanism's output shaft, the slide has two and connects the bracing piece that corresponds separately respectively, the slide can drive two bracing pieces synchronous slippage under driving motor's drive.

The utility model provides a technical scheme that above-mentioned third technical problem adopted does: the feed mechanism is including the subassembly that slides that presses down the subassembly that presses down that is used for compressing tightly the cloth and is used for pulling the cloth after pressing, the subassembly that slides with press the subassembly drive connection and can drive and press the subassembly and slide along the direction of delivery of cloth, press the subassembly like this and the cooperation form of the subassembly that slides, ensure at the material loading in-process, cubic cloth all carries with the form of pulling, can not lead to the material to produce the fold because of the promotion of fortune material in-process.

In order to realize pulling of the blocky cloth, a workbench is arranged on the rack, the pressing assembly comprises a pressing plate horizontally arranged relative to the workbench, a fourth driving mechanism, a supporting seat and a rotating shaft, the output end of the fourth driving mechanism is connected to the pressing plate and can drive the pressing plate to deflect relative to the workbench so as to press the cloth on the workbench, the supporting seat is arranged on a conveying path of the cloth, one end of the rotating shaft is rotatably connected to the supporting seat, and the pressing plate is arranged on the rotating shaft and can deflect relative to the workbench under the driving of the rotating shaft; the sliding assembly comprises a fixed seat, a sliding seat and a fifth driving mechanism, the fixed seat is installed on the rack and is arranged below the workbench, the sliding seat is connected on the fixed seat in a sliding mode and can slide relative to the workbench under the driving of the fifth driving mechanism, and the supporting seat is installed on the sliding seat and can slide synchronously with the sliding seat.

Compared with the prior art, the utility model has the advantages of: this monolithic cuff rib knitting machine passes through feed mechanism and carries the cubic cloth in the storage silo to make up the mechanism to carry the tube-shape cloth that makes up the mechanism processing through the cantilever to receiving agencies department, take off and accomodate to receiving agencies in with the tube-shape cloth on the cantilever through material collecting device at last, pass through feed mechanism like this, make up the mechanism. The cooperation of cantilever and material collecting device can realize carrying out automatic feeding of cubic cloth, and artifical participation is few in the whole course of working, and degree of automation is higher.

Drawings

Fig. 1 is a schematic view of the overall structure of a single-piece cuff rib knitting machine in the embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of the cantilever of the single-piece cuff rib knitting machine according to the embodiment of the present invention;

FIG. 3 is a schematic view of the overall structure of FIG. 2 from another angle;

fig. 4 is a schematic view of the overall structure of the material receiving device in the embodiment of the present invention;

FIG. 5 is a schematic view of the overall structure at another angle in FIG. 4;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 4;

FIG. 7 is an enlarged view of the structure at A in FIG. 5;

fig. 8 is a schematic view of the overall structure of the feeding mechanism in the embodiment of the present invention;

FIG. 9 is a schematic view of the overall structure at another angle of FIG. 8;

FIG. 10 is a schematic view of the overall structure of the feeding mechanism after the worktable is omitted;

fig. 11 is an enlarged schematic view of a portion a in fig. 10.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1-11, for the utility model discloses a preferred embodiment, in this embodiment, this monolithic cuff rib knitting machine includes frame 1, has the storage silo 11 that is used for holding the cubic cloth of treating processing and is used for accomodating the collecting hopper 12 of processing back cloth in this frame 1, along the direction of delivery of cloth, has arranged feed mechanism 5, has made up mechanism 1a, cantilever 2 and material collecting device in proper order on frame 1. Wherein

The feeding mechanism 5 is used for conveying the blocky cloth in the storage bin 11 to the sewing mechanism 1a, the sewing mechanism 1a is used for turning over the blocky cloth and sewing the blocky cloth to form tubular cloth, the material receiving device is used for conveying and receiving the sewn cloth into the material receiving bin 12, the cantilever 2 is arranged between the sewing mechanism 1a and the material receiving device along the conveying path of the cloth, the cantilever 2 can move back and forth between the sewing mechanism 1a and the material receiving device under the driving of the swinging mechanism 24, and then the tubular cloth sewn by the sewing mechanism 1a is conveyed to the material receiving device.

In this embodiment, the above-mentioned cantilever 2 includes a supporting plate 21 for supporting the tubular fabric, a material transporting assembly 22 for transporting the sewn fabric to the supporting plate 21, and a deflecting assembly 23 for rotating the tubular fabric to a natural drooping state, the fabric input end of the supporting plate 21 has a guiding portion 211, the guiding portion 211 gradually widens along the input line of the fabric, the power output end of the deflecting assembly 23 is respectively connected with the corresponding ends of the supporting plate 21 and the material transporting assembly 22 in a driving manner, the supporting plate 21 and the material transporting assembly 22 are arranged side by side, and a gap 2a for the tubular fabric to pass through is formed between the supporting plate 21 and the material transporting assembly 22, specifically, wherein:

the material conveying assembly 22 comprises a first driver 221, two brackets 222 and a transmission belt 223, the two brackets 222 are oppositely arranged, a driving wheel is arranged at a first end between the two brackets 222, a driven wheel is arranged at a second end between the two brackets 222, the first driver 221 is installed on the brackets 222, an output shaft of the first driver 221 is coaxially connected with the driving wheel, and the transmission belt 223 is sequentially wound on the driving wheel and the driven wheel; the deflecting assembly 23 comprises a rotating platform 231, a second driver 232 and a connecting piece 233, the two brackets 222 are connected to the rotating platform 231 through the connecting piece 233, and the supporting plate 21 is connected to the rotating platform 231; the output end of the second driver 232 is drivingly connected to the rotating platform 231 and can drive the bracket 222 and the supporting plate 21 to rotate synchronously.

In order to ensure that the arm 2 moves back and forth between the sewing mechanism 1a and the material receiving device, the swing mechanism 24 includes a swing seat 241 and a third driver 242, the third driver 242 is installed on the frame 1, the swing seat 241 is connected with the output end of the third driver 242, and the rotating table 231 and the second driver 232 are both installed on the swing seat 241.

In this embodiment, the material receiving device includes a material moving mechanism 4 for receiving and tightly supporting the cylindrical fabric on the cantilever 2, a folding mechanism for folding the cylindrical fabric tightly supported on the material moving mechanism 4 to form a double layer, and a pressing rod mechanism 7, wherein the material receiving device includes a first pressing rod mechanism and a second pressing rod mechanism, and the first pressing rod mechanism is connected to the second pressing rod mechanism

The material receiving device comprises a material moving mechanism 4 for receiving and tightly supporting the cylindrical cloth on the cantilever 2, a turning mechanism and a pressure lever mechanism 7 for turning over the cylindrical cloth tightly supported on the material moving mechanism 4 to form a double layer, specifically, the material moving mechanism 4 is arranged at the downstream of the cantilever 2, the material moving mechanism 4 comprises two support rods 41 arranged side by side, a first driving mechanism 42 and a second driving mechanism 43, the power output end of the first driving mechanism 42 is connected to the two support rods 41 and can drive the two support rods 41 to be close to the cantilever 2 and extend into the cylindrical cloth, the power output end of the second driving mechanism 43 is connected to the two support rods 41 and can be far away from each other under the condition that the two support rods 41 extend into the cylindrical cloth so as to tightly support the cylindrical cloth and separate from the cantilever 2, the second driving mechanism 43 comprises a support base 431, a slide base 432 capable of sliding along the length direction of the support base 431 and a driving motor 433, the supporting seat 431 is connected to an output shaft of the first driving mechanism 42, the two sliding seats 432 are respectively connected to the corresponding supporting rods 41, and the sliding seats 432 can drive the two supporting rods 41 to synchronously slide under the driving of the driving motor 433.

The folding mechanism in the embodiment comprises at least two clamping jaw assemblies 6 adjacent to the support rod 41, the at least two clamping jaw assemblies 6 are arranged at intervals along the circumferential direction of the cylindrical cloth to be folded, each clamping jaw assembly 6 comprises two clamping jaws 61 and a driving cylinder 62, and the driving cylinder 62 is in driving connection with the two clamping jaws 61 and can drive the clamping jaws 61 to clamp the edge of the cylindrical cloth; the pressing rod mechanism 7 comprises a fixing plate 71, a sliding rod 72 and a third driving mechanism 73, wherein the third driving mechanism 73 is in driving connection with the sliding rod 72 and can drive the sliding rod 72 to move downwards so as to enable the cylindrical cloth to be separated from the supporting rod 41.

The feeding mechanism 5 in this embodiment includes a pressing component 51 for pressing the cloth and a sliding component 52 for pulling the pressed cloth, and the sliding component 52 is in driving connection with the pressing component 51 and can drive the pressing component 51 to slide along the conveying direction of the cloth, specifically: the pressing assembly 51 includes a pressing plate 511, a fourth driving mechanism 512, a supporting seat 513 and a rotating shaft 514, the pressing plate 511 is horizontally disposed relative to the worktable, an output end of the fourth driving mechanism 512 is connected to the pressing plate 511 and can drive the pressing plate 511 to deflect relative to the worktable so as to press the cloth on the worktable, the supporting seat 513 is disposed on a conveying path of the cloth, one end of the rotating shaft 514 is rotatably connected to the supporting seat 513, and the pressing plate 511 is mounted on the rotating shaft 514 and can deflect relative to the worktable under the driving of the rotating shaft 514; the sliding assembly 52 comprises a fixed seat 521, a sliding seat 522 and a fifth driving mechanism 523, the fixed seat 521 is mounted on the frame 1 and arranged below the workbench, the sliding seat 522 is slidably connected to the fixed seat 521 and can slide relative to the workbench under the driving of the fifth driving mechanism 523, and the supporting seat 513 is mounted on the sliding seat 522 and can slide synchronously with the sliding seat 522.

Claims

1. A single-piece cuff rib knitting machine is characterized by comprising

The cloth processing machine comprises a frame (1) and a processing device, wherein the frame is provided with a storage bin (11) for containing block-shaped cloth to be processed and a receiving bin (12) for containing the processed cloth;

the sewing mechanism (1a) is arranged on the rack (1) and is used for turning over and sewing the blocky cloth to form cylindrical cloth;

a feeding mechanism (5) for conveying the block-shaped cloth in the storage bin (11) to a sewing mechanism (1a), the feeding mechanism being arranged upstream of the sewing mechanism (1a) in a cloth conveying direction;

a material receiving device for conveying and receiving the sewn cloth into a material receiving bin (12), the material receiving device being arranged downstream of the sewing mechanism (1a) along a cloth conveying direction;

the cantilever (2) is arranged between the sewing mechanism (1a) and the material receiving device along the conveying path of the cloth, and the cantilever (2) can move back and forth between the sewing mechanism (1a) and the material receiving device under the driving of the swinging mechanism (24), so that the tubular cloth sewn by the sewing mechanism (1a) is conveyed to the material receiving device.

2. The single piece cuff rib machine according to claim 1, characterized in that: the cantilever (2) comprises a supporting plate (21) for supporting tubular cloth, a material conveying assembly (22) for conveying the sewn cloth to the supporting plate (21) and a deflecting assembly (23) for rotating the tubular cloth to a natural drooping state, the power output end of the deflecting assembly (23) is in driving connection with the corresponding ends of the supporting plate (21) and the material conveying assembly (22) respectively, the supporting plate (21) and the material conveying assembly (22) are arranged side by side, and a gap (2a) for the tubular cloth to pass through is formed between the supporting plate (21) and the material conveying assembly (22).

3. The single piece cuff rib machine according to claim 2, characterized in that: the material conveying assembly (22) comprises two first drivers (221), two supports (222) and a transmission belt (223), the two supports (222) are oppositely arranged, a driving wheel is arranged at a first end between the two supports (222), a driven wheel is arranged at a second end between the two supports (222), the first drivers (221) are installed on the supports (222), an output shaft of the first drivers (221) is coaxially connected with the driving wheel, and the transmission belt (223) is sequentially wound on the driving wheel and the driven wheel.

4. A single piece cuff rib machine according to claim 3, characterized in that: the deflection assembly (23) comprises a rotating table (231), a second driver (232) and a connecting piece (233), the two brackets (222) are connected to the rotating table (231) through the connecting piece (233), and the supporting plate (21) is connected to the rotating table (231); the output end of the second driver (232) is in driving connection with the rotating platform (231) and can drive the bracket (222) and the supporting plate (21) to synchronously rotate.

5. A single-piece cuff rib machine according to claim 4, characterized in that: swing mechanism (24) are including swing seat (241) and third driver (242), third driver (242) are installed on frame (1), swing seat (241) with the output of third driver (242) is connected, just revolving stage (231) and second driver (232) all locate on swing seat (241).

6. The single piece cuff rib machine according to claim 2, characterized in that: the cloth input end of the support plate (21) is provided with a guide part (211), and the guide part (211) is gradually widened along the input defense line of the cloth.

7. A single piece armhole machine according to any one of claims 1 to 6, characterized in that: the material receiving device comprises a material moving mechanism (4) for receiving and tightly supporting the cylindrical cloth on the cantilever (2), a turnover mechanism and a pressure lever mechanism (7) for turning over the cylindrical cloth tightly supported on the material moving mechanism (4) to form a double layer, wherein the turnover mechanism and the pressure lever mechanism are arranged on the cantilever, and the material receiving device comprises a turnover mechanism and a pressure lever mechanism (7) which are arranged on the cantilever and used for turning over the

The material moving mechanism (4) is arranged at the downstream of the cantilever (2), the material moving mechanism (4) comprises two support rods (41) which are arranged side by side, a first driving mechanism (42) and a second driving mechanism (43), the power output end of the first driving mechanism (42) is connected to the two support rods (41) and can drive the two support rods (41) to be close to the cantilever (2) and extend into the cylindrical cloth, and the power output end of the second driving mechanism (43) is connected to the two support rods (41) and can be mutually far away from each other under the condition that the two support rods (41) extend into the cylindrical cloth so as to enable the cylindrical cloth to be tightly supported and be separated from the cantilever (2);

the turnover mechanism comprises at least two clamping jaw assemblies (6) adjacent to a support rod (41), the at least two clamping jaw assemblies (6) are arranged at intervals along the circumferential direction of the cylindrical cloth to be turned, each clamping jaw assembly (6) comprises two clamping jaws (61) and a driving cylinder (62), and the driving cylinder (62) is in driving connection with the two clamping jaws (61) and can drive the clamping jaws (61) to clamp the edge of the cylindrical cloth;

the pressure bar mechanism (7) comprises a fixing plate (71), a sliding rod (72) and a third driving mechanism (73), wherein the third driving mechanism (73) is in driving connection with the sliding rod (72) and can drive the sliding rod (72) to move downwards so as to enable the cylindrical cloth to be separated from the supporting rod (41).

8. The single piece cuff rib machine according to claim 7, characterized in that: the second driving mechanism (43) comprises a supporting seat (431), a sliding seat (432) and a driving motor (433), wherein the sliding seat (432) can slide along the length direction of the supporting seat (431), the supporting seat (431) is connected to an output shaft of the first driving mechanism (42), the sliding seat (432) is provided with two supporting rods (41) which are respectively connected, and the sliding seat (432) can drive the two supporting rods (41) to synchronously slide under the driving of the driving motor (433).

9. A single piece armhole machine according to any one of claims 1 to 6, characterized in that: the feeding mechanism (5) comprises a pressing assembly (51) used for pressing cloth and a sliding assembly (52) used for pulling the pressed cloth, and the sliding assembly (52) is in driving connection with the pressing assembly (51) and can drive the pressing assembly (51) to slide along the conveying direction of the cloth.

10. The single piece cuff rib machine of claim 9, wherein: the cloth pressing machine is characterized in that a workbench is arranged on the rack (1), the pressing assembly (51) comprises a pressing plate (511), a fourth driving mechanism (512), a supporting seat (513) and a rotating shaft (514), the pressing plate (511), the fourth driving mechanism (512), the supporting seat (513) and the rotating shaft (514) are horizontally arranged relative to the workbench, the output end of the fourth driving mechanism (512) is connected to the pressing plate (511) and can drive the pressing plate (511) to deflect relative to the workbench so as to press cloth on the workbench, the supporting seat (513) is arranged on a conveying path of the cloth, one end of the rotating shaft (514) is rotatably connected to the supporting seat (513), and the pressing plate (511) is installed on the rotating shaft (514) and can deflect relative to the workbench under the driving of the rotating shaft (;

the sliding assembly (52) comprises a fixed seat (521), a sliding seat (522) and a fifth driving mechanism (523), the fixed seat (521) is installed on the rack (1) and arranged below the workbench, the sliding seat (522) is connected to the fixed seat (521) in a sliding mode and can slide relative to the workbench under the driving of the fifth driving mechanism (523), and the supporting seat (513) is installed on the sliding seat (522) and can slide synchronously with the sliding seat (522).