CN109322064B

CN109322064B - Automatic serging machine

Info

Publication number: CN109322064B
Application number: CN201811243439.1A
Authority: CN
Inventors: 何应标
Original assignee: Foshan City Kehua Smart Quilting Equipment Co Ltd
Current assignee: Foshan City Kehua Smart Quilting Equipment Co Ltd
Priority date: 2018-10-24
Filing date: 2018-10-24
Publication date: 2024-05-24
Anticipated expiration: 2038-10-24
Also published as: CN109322064A

Abstract

The invention belongs to the technical field of overlock, and particularly relates to an automatic overlock machine. According to the automatic serging machine, the workbench assembly, the serging assembly, the fabric rotating assembly and the edge material conveying assembly are reasonably arranged, so that during operation, the edge material can be quickly serged by utilizing the edge material, meanwhile, due to the arrangement of the fabric rotating assembly, the aim of serging four sides of the fabric can be achieved without artificially rotating the fabric during serging four sides of the fabric, the automation degree is high, the industrial requirement is greatly met, and meanwhile, compared with manual serging, the serging precision is high, and the fabric yield is high.

Description

Automatic serging machine

Technical Field

The invention belongs to the technical field of overlock, and particularly relates to an automatic overlock machine.

Background

The serging machine is a mechanical device for sewing, is generally used for clothing production, and is used for sewing fabric clothing needing serging, and mechanical sewing is faster and tidier than manual sewing.

With years of development, the efficiency of the serging machine is greatly improved, but the serging machine still has some problems. The traditional serging machine needs staff to operate and use, is troublesome, meanwhile, the serging efficiency is low, labor force is wasted, the use is inconvenient, and certain influence is brought to the use process of people.

Therefore, providing an automatic serging machine is a problem we want to solve.

Disclosure of Invention

The invention aims to provide an automatic serging machine which has high serging efficiency and high automation degree and greatly meets the industrial needs.

The invention is realized in that the automatic serging machine comprises a workbench component, a serging component, a fabric rotating component and a rim material conveying component.

The workbench assembly comprises a first workbench, a second workbench and a third workbench; the third workbench is arranged between the first workbench and the second workbench; the first workbench is provided with a first material conveying device; the second workbench is provided with a second fabric conveying device;

The serging component comprises a serging device and a working panel; the serging device is arranged on the third workbench; the working panel is arranged on one side of the serging device, is arranged between the first working table and the second working table, and is on the same horizontal plane with the first working table and the second working table;

the fabric rotating assembly is arranged above the serging device and is arranged relative to the working panel;

the rim charge conveying assembly is arranged on the third workbench and is arranged on one side of the serging device;

In a working state, the fabric is conveyed to the working panel in the overlock assembly through the first fabric conveying device on the first workbench, and the rim charge is conveyed to the working panel through the rim charge conveying assembly; at this time, the serging device carries out serging treatment on the fabric by utilizing the rim charge, after one side of the fabric is serged, the fabric enters the second workbench, then the fabric rotating assembly works to rotate the fabric and return the fabric to the working panel again, then the serging device carries out serging on one side of the fabric by utilizing the rim charge again, the steps are repeated, and after four sides of the fabric are serged, the fabric is conveyed out through the second fabric conveying device on the second workbench. It should be explained that, in the process of the serging device for serging the fabric, the fabric passes through the first fabric conveying device and enters into the working panel, at this time, the serging device carries out serging on the fabric, and then passes through the traction of the second fabric conveying device on the second workbench and enters into the second workbench, when the fabric completely enters into the second workbench, the fabric rotating assembly rotates the fabric by 90 degrees, at this time, the second fabric conveying device reverses the conveying direction, conveys the fabric back to the working panel, and then carries out serging continuously.

Preferably, the first dough transporting device comprises a first conveyor belt device and a first driving motor; the first conveyor belt device is arranged on the first workbench; the first driving motor is arranged at one side of the first workbench, is connected with the first conveyor belt device and is used for driving the first conveyor belt device to operate; the second fabric conveying device comprises a second conveyor belt device and a second driving motor; the second conveyor belt device is arranged on the second workbench; the second driving motor is arranged on one side of the second workbench, is connected with the second conveyor belt device and is used for driving the second conveyor belt device to operate. It should be explained that, in the process of the serging device for serging the fabric, the fabric passes through the first fabric conveying device and enters the working panel, at this time, the serging device carries out serging on the fabric, and then passes through the traction of the second fabric conveying device on the second workbench and enters the second workbench, when the fabric completely enters the second workbench, the fabric rotating assembly rotates the fabric by 90 degrees, at this time, the second driving motor of the second fabric conveying device reverses the output, and then the second conveyor belt device connected with the second driving motor reverses the conveying device, so that the fabric is conveyed back to the working panel.

Preferably, the serging device is a facing sewing machine; the fabric sewing machine is arranged on the third workbench. More specifically, the sewing machine comprises a sewing machine working head for sewing and serging fabric and a sewing machine body for driving the sewing machine working head to work; the sewing machine working head is arranged at the upper end of the sewing machine body and is arranged right above the working panel; the sewing machine body is arranged above the third workbench.

Preferably, the fabric rotating assembly comprises a fixing mechanism, a lifting mechanism and a rotating mechanism; the fixing mechanism is arranged on one side of the serging device and is connected above the third workbench; the lifting mechanism is arranged at the upper end of the fixing mechanism and is connected with the fixing mechanism; the rotating mechanism is arranged on one side of the lifting mechanism away from the fixing mechanism.

Preferably, the lifting mechanism comprises a fixed panel, a lifting panel and a lifting driving device; the fixed panel is fixedly connected to one side above the fixed mechanism; the lifting panel is connected to one side of the fixed panel away from the fixed mechanism in a sliding way; the lifting driving device is arranged between the fixed panel and the lifting panel, connected with the lifting panel and the fixed panel and used for driving the lifting panel to lift. More specifically, the fixing mechanism is a fixing bracket; the fixed support comprises a fixed upright post and two horizontal connecting posts; the fixed upright post is arranged on one side of the serging device and is fixedly connected above the third workbench; the two horizontal connecting columns are arranged above the serging device and are connected with the upper ends of the fixed upright columns side by side; two ends of the fixed panel are respectively connected to the two horizontal connecting columns which are arranged side by side; further, a vertical sliding rail is arranged on one side of the fixed panel, which is far away from the horizontal connecting column; a sliding piece is connected to the vertical sliding rail in a sliding way and is connected with the lifting panel; further, two vertical sliding rails are arranged, and two sliding pieces are correspondingly arranged; further, the lifting driving device is a power driving cylinder; the power driving air cylinder is arranged between the fixed panel and the lifting panel; more specifically, the power driving cylinder is fixed on the fixed panel, and a lifting panel connecting piece is sleeved on the power output shaft of the power driving cylinder; one end of the lifting panel connecting piece is connected with the lifting panel and used for driving the lifting panel to lift.

Preferably, the rotating mechanism comprises a vertical rotating shaft, a rotating shaft connecting device, a rotating shaft driving device and a dough rotating swing rod; the vertical rotating shaft is rotationally connected to one side, far away from the fixed panel, of the lifting panel through the rotating shaft connecting device; the rotating shaft driving device is fixed on one side of the lifting panel, is arranged above the vertical rotating shaft, is connected with the vertical rotating shaft and is used for driving the vertical rotating shaft to rotate; the fabric rotating swing rod is arranged at the lower end of the vertical rotating shaft and is connected with the vertical rotating shaft. More specifically, the rotating shaft connecting device comprises a rotating shaft connecting piece; one end of the rotating shaft connecting piece is fixedly connected to one side of the lifting panel; the middle part of the rotating shaft connecting piece is provided with a rotating shaft connecting hole, and the vertical rotating shaft penetrates through the rotating shaft connecting hole and is rotationally arranged on the rotating shaft connecting piece. More specifically, the fabric rotary swing rod comprises a horizontal swing rod and a vertical swing rod perpendicular to the horizontal swing rod; wherein the horizontal swing rod is parallel to the conveying direction of the fabric; one end of the horizontal swing rod and one end of the vertical swing rod are connected to the lower end of the vertical rotating shaft; under the working condition, after the fabric is locked by the edge locking device, one side of the fabric enters the second workbench, at the moment, the vertical rotating shaft drives the fabric to rotate by one direction through the lifting mechanism, the rotating shaft driving device drives the fabric to rotate, the horizontal swinging rod in the fabric to rotate by 90 degrees, at the moment, the second fabric conveying device in the second workbench reverses the output direction, the fabric is returned to the working panel to continue to be locked, the rotating mechanism resets, after the re-locking is completed, the fabric is driven to rotate by the vertical rotating shaft again, at the moment, the vertical swinging rod in the fabric rotates by one direction, the fabric is further locked by the edge locking device, and then the fabric enters the second work again; repeating the steps again, and after the four edges of the fabric are locked, conveying the fabric out through a second fabric conveying device on a second workbench to finish a work flow.

Preferably, the rotating shaft driving device comprises a driving motor and a transmission connecting device; the driving motor is arranged on one side of the lifting panel and is connected with the lifting panel; the transmission connecting device is arranged between the driving motor and the vertical rotating shaft and is connected with the vertical rotating shaft and the driving motor; it should be explained that the driving motor drives the vertical rotating shaft to rotate through the transmission connecting device, so as to drive the fabric rotary swing rod to swing; more specifically, the transmission connection device comprises a motor transmission gear and a rotating shaft transmission gear; the motor transmission gear is sleeved on a power output shaft of the driving motor; the rotating shaft transmission gear is sleeved at the upper end of the vertical rotating shaft; the motor transmission gear is meshed with the rotating shaft transmission gear; more specifically, in order to ensure that the vertical rotating shaft accurately drives the fabric to rotate the swinging rod to swing 90 degrees, the fabric is accurately rotated, and the whole rotating shaft transmission gear is in a cam shape. More specifically, a protective shell is integrally covered outside the lifting mechanism and the fabric rotating mechanism.

Preferably, the rim charge conveying assembly comprises a rim charge conveying device and a rim charge cutting device; the rim charge conveying device comprises a conveying table, a driving roller, a driven roller and a power driving device; the conveying table is arranged on the third workbench, and the rim charge output end of the conveying table is connected with the working panel; the driving roller is arranged above the conveying table; the driven roller is arranged below the conveying table; the driving roller is abutted with the driven roller; the power driving component is arranged below the conveying table and connected with the driving roller to drive the driving roller to work; the rim charge cutting device is arranged at one end of the rim charge output by the conveying table. More specifically, a long strip through groove is formed in the working panel, and one end of the rim charge output by the conveying table passes through the long strip through groove and is connected to the working panel; furthermore, in order to facilitate the removal treatment of the waste generated after the edge locking of the edge locking device, a discharge pipeline is arranged below the strip through groove; the material discharging pipeline is arranged on the third workbench; more specifically, the power driving device comprises a power motor and a transmission belt, wherein the power motor can be a servo motor or a stepping motor; the power motor is arranged below the conveying table and is fixed on the third workbench; one end of the driving belt is sleeved at one end of the driving roller, and the other end of the driving belt is sleeved at one end of the power motor.

Preferably, the rim charge cutting device comprises a rim charge cutting knife and a telescopic cylinder; the telescopic cylinder is arranged below the conveying table; the rim charge cutting knife is arranged on one side of the power output end of the telescopic cylinder and is connected with the power output end of the telescopic cylinder. Under the working condition, the telescopic cylinder drives the rim charge cutter to reciprocate in a clearance mode, so that rim charge is cut off. More specifically, a cutting knife accommodating groove is formed in the part, facing the telescopic cylinder, of the conveying table; the rim charge cutting knife is arranged in the cutting knife accommodating groove.

Preferably, the rim charge cutting device further comprises a compacting cylinder for compacting rim charges; the compressing cylinder is arranged at one end of the output rim charge of the conveying table. More specifically, two compressing cylinders are arranged, and the two compressing cylinders are respectively arranged at two sides of the cutter accommodating groove; it is to be explained that the compressing air cylinder is arranged to compress the rim charge when the rim charge cutting knife cuts the rim charge, so that the rim charge cutting knife is convenient for cutting the rim charge; it is to be added that the power output shaft of the compaction cylinder is connected to the conveying table, and in the working state, the compaction cylinder descends to compact the rim charge.

Preferably, in order to meet the requirement of performing overlock treatment on fabrics with different sizes, the workbench mechanism further comprises a fourth workbench; one side of the fourth workbench is connected with the first workbench and the second workbench, and the fourth workbench and the first workbench and the second workbench are on the same horizontal plane.

The automatic serging machine has the technical effects that:

According to the automatic serging machine, the workbench assembly, the serging assembly, the fabric rotating assembly and the edge material conveying assembly are reasonably arranged, so that during operation, the edge material can be quickly serged by utilizing the edge material, meanwhile, due to the arrangement of the fabric rotating assembly, the aim of serging four sides of the fabric can be achieved without artificially rotating the fabric during serging four sides of the fabric, the automation degree is high, the industrial requirement is greatly met, and meanwhile, compared with manual serging, the serging precision is high, and the fabric yield is high.

Drawings

FIG. 1 is a schematic view of an automatic serging machine according to the present invention;

FIG. 2 is a schematic view of a workbench assembly of an embodiment of an automatic serging machine in accordance with the present invention;

FIG. 3 is a schematic view of a fabric rotating assembly in an embodiment of an automatic serging machine according to the present invention;

FIG. 4 is a schematic view of a serging assembly and a scrap conveying assembly in an embodiment of an automatic serging machine according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "fixedly connected" to another element. It may be welded or glued together.

Referring to fig. 1 to 4, in a preferred embodiment of the present invention, the disclosed embodiment is implemented by an automatic serging machine, the automatic serging machine includes a workbench assembly 1, a serging assembly 2, a fabric rotating assembly 3 and a rim material conveying assembly 4.

Wherein, the workbench assembly 1 comprises a first workbench 11, a second workbench 12 and a third workbench 13; the third workbench 13 is arranged between the first workbench 11 and the second workbench 12; the first workbench 11 is provided with a first material conveying device; a second material conveying device is arranged on the second workbench 12;

The serging component 2 comprises a serging device 21 and a working panel 22; the serging device 21 is arranged on the third workbench 13; the working panel 22 is arranged on one side of the serging device 21, is arranged between the first working table 11 and the second working table 12, and is on the same horizontal plane with the first working table 11 and the second working table 12;

the fabric rotating component 3 is arranged above the serging device 21 and is arranged relative to the working panel 22;

The rim charge conveying assembly 4 is arranged on the third workbench 13 and is arranged on one side of the serging device 21;

In the working state, the fabric is conveyed to the working panel 22 in the serging component 2 through the first fabric conveying device on the first workbench 11, and the edge fabric is conveyed to the working panel 22 through the edge fabric conveying component 4; at this time, the serging device 21 carries out serging treatment on the fabric by utilizing the rim charge, after the serging of one side of the fabric is completed, the fabric enters the second workbench 12, then the fabric rotating assembly 3 works to rotate the fabric and return the fabric to the working panel 22 again, and then the serging device 21 carries out serging on one side of the fabric by utilizing the rim charge again, the steps are repeated, and after the serging of four sides of the fabric is completed, the fabric is conveyed out by the second fabric conveying device on the second workbench 12. It should be explained that, in the process of the serging device 21 serging the fabric, the fabric enters the working panel 22 through the first fabric conveying device, at this time, the serging device 21 serging the fabric, and then enters the second working table 12 through the traction of the second fabric conveying device on the second working table 12, when the fabric completely enters the second working table 12, the fabric rotating assembly 3 rotates the fabric by 90 degrees, at this time, the second fabric conveying device reverses the conveying direction, and conveys the fabric back to the working panel 22, and further serging is continued.

Preferably, the first dough transporting device comprises a first conveyor device 111 and a first driving motor 112; the first conveyor device 111 is arranged on the first workbench 11; the first driving motor 112 is disposed at one side of the first workbench 11 and connected to the first conveyor device 111, for driving the first conveyor device 111 to operate; the second fabric conveying device comprises a second conveyor belt device 121 and a second driving motor; the second conveyor belt device 121 is arranged on the second workbench 12; the second driving motor is disposed at one side of the second table 12 and connected to the second conveyor belt device 121, for driving the second conveyor belt device 121 to operate. It should be explained that, in the process of the serging device 21 serging the fabric, the fabric enters the working panel 22 through the first fabric conveying device, at this time, the serging device 21 serging the fabric, and then enters the second working table 12 through the traction of the second fabric conveying device on the second working table 12, when the fabric completely enters the second working table 12, the fabric rotating assembly 3 rotates the fabric by 90 degrees, at this time, the second driving motor of the second fabric conveying device reverses the output direction, and then the second conveyor belt device 121 connected with the second driving motor reverses the conveying direction, so as to convey the fabric back to the working panel 22.

Preferably, the serging device 21 is a facing sewing machine; the fabric sewing machine is arranged on the third workbench 13. More specifically, the sewing machine comprises a sewing machine working head 211 for sewing and serging fabric and a sewing machine body 212 for driving the sewing machine working head to work; the sewing machine working head 211 is arranged at the upper end of the sewing machine body 212 and is arranged right above the working panel 22; the sewing machine body 212 is disposed above the third table 13.

Preferably, the fabric rotating assembly 3 comprises a fixing mechanism 31, a lifting mechanism 32 and a rotating mechanism 33; the fixing mechanism 31 is arranged on one side of the serging device 21 and is connected above the third workbench 13; the lifting mechanism 32 is arranged at the upper end of the fixing mechanism 31 and is connected with the fixing mechanism 31; the rotation mechanism 33 is provided on a side of the lifting mechanism 32 remote from the fixing mechanism 31.

Preferably, the lifting mechanism 32 comprises a fixed panel 321, a lifting panel 322 and a lifting driving device 323; the fixing panel 321 is fixedly connected to one side above the fixing mechanism 31; the lifting panel 322 is slidably connected to a side of the fixing panel 321 away from the fixing mechanism 31; the lifting driving device 323 is disposed between the fixed panel 321 and the lifting panel 322, and is connected to the lifting panel 322 and the fixed panel 321, for driving the lifting panel 322 to lift. More specifically, the fixing mechanism 31 is a fixing bracket; the fixed bracket comprises a fixed upright post 311 and two horizontal connecting posts 312; the fixed upright post 311 is arranged on one side of the serging device 21 and is fixedly connected above the third workbench 13; two horizontal connecting posts 312 are arranged above the serging device 21 and are connected with the upper ends of the fixed upright posts 311 side by side; two ends of the fixed panel 321 are respectively connected to two horizontal connecting posts 312 arranged side by side; further, a vertical sliding rail 3211 is disposed on a side of the fixed panel 321 away from the horizontal connecting post 312; a sliding piece 3212 is slidably connected to the vertical sliding rail 3211 and connected to the lifting panel 322; further, two vertical sliding rails 3211 are provided, and two sliding pieces 3212 are correspondingly provided; further, the lifting driving device 323 is a power driving cylinder; the power driving cylinder is arranged between the fixed panel 321 and the lifting panel 322; more specifically, the power driving cylinder is fixed on the fixed panel 321, and a lifting panel 322 connecting piece is sleeved on the power output shaft of the power driving cylinder; one end of the lifting panel 322 connecting piece is connected to the lifting panel 322, and is used for driving the lifting panel 322 to lift.

Preferably, the rotating mechanism 33 includes a vertical rotating shaft 331, a rotating shaft connecting device 332, a rotating shaft driving device 333 and a dough rotating swing rod 334; the vertical rotating shaft 331 is rotatably connected to a side of the lifting panel 322 away from the fixed panel 321 through the rotating shaft connecting device 332; the shaft driving device 333 is fixed on one side of the lifting panel 322, is disposed above the vertical shaft 331, and is connected to the vertical shaft 331 for driving the vertical shaft 331 to rotate; the fabric rotating swing rod 334 is arranged at the lower end of the vertical rotating shaft 331 and is connected with the vertical rotating shaft 331. More specifically, the shaft connecting device 332 includes a shaft connecting member; one end of the rotating shaft connecting piece is fixedly connected to one side of the lifting panel 322; the middle part of the rotating shaft connecting piece is provided with a rotating shaft connecting hole, and the vertical rotating shaft 331 penetrates through the rotating shaft connecting hole and is rotationally arranged on the rotating shaft connecting piece. More specifically, the fabric rotating swing link 334 includes a horizontal swing link 3341 and a vertical swing link 3342 perpendicular to the horizontal swing link 3341; wherein, the horizontal swing rod 3341 is parallel to the conveying direction of the fabric; one end of the horizontal swing rod 3341 and one end of the vertical swing rod 3342 are connected to the lower end of the vertical rotating shaft 331; in the working state, after the fabric is locked by the edge locking device 21, one side of the fabric enters the second workbench 12, at this time, the vertical rotating shaft 331 is driven by the lifting mechanism 32 to drive the fabric rotating swing rod 334 to move downwards, the rotating shaft driving device 333 drives the vertical rotating shaft 331 to rotate and further drive the fabric rotating swing rod 334 to rotate, then the horizontal swing rod 3341 in the fabric rotating swing rod 334 drives the fabric to rotate 90 degrees, at this time, the second fabric conveying device in the second workbench 12 reverses the output direction and returns the fabric to the working panel 22 to continue to lock the edge, the rotating mechanism is reset at this time, after the edge locking is completed again, the fabric rotating swing rod 334 is driven by the vertical rotating shaft 331 to move downwards and rotate again, at this time, the vertical swing rod 3342 in the fabric rotating swing rod 334 rotates one direction, and then continues to lock the edge by the edge locking device 21, and then enters the second work again; repeating the steps again, and after the four edges of the fabric are locked, the fabric is conveyed out through a second fabric conveying device on the second workbench 12, so that a work flow is completed.

Preferably, the spindle driving device 333 includes a driving motor 3331 and a transmission connection device; the driving motor 3331 is arranged at one side of the lifting panel 322 and is connected with the lifting panel 322; the transmission connection device is arranged between the driving motor 3331 and the vertical rotating shaft 331 and is connected with the vertical rotating shaft 331 and the driving motor 3331; it should be noted that, the driving motor 3331 drives the vertical rotating shaft 331 to rotate through the transmission connection device, so as to drive the fabric rotating swing rod 334 to swing; more specifically, the transmission connection device comprises a motor transmission gear 3332 and a rotating shaft transmission gear 3333; the motor transmission gear 3332 is sleeved on the power output shaft of the driving motor 3331; the rotating shaft transmission gear 3333 is sleeved at the upper end of the vertical rotating shaft 331; the motor transmission gear 3332 is in meshed connection with the rotating shaft transmission gear 3333; more specifically, in order to ensure that the vertical rotating shaft 331 precisely drives the fabric rotating swing rod 334 to swing 90 °, so as to precisely rotate the fabric, the rotating shaft driving gear 3333 is integrally in a cam shape. More specifically, a protective casing is integrally covered outside the lifting mechanism 32 and the fabric rotating mechanism 33.

Preferably, the rim charge conveying assembly 4 comprises a rim charge conveying device 41 and a rim charge cutting device 42; the rim charge conveying device 41 comprises a conveying table 411, a driving roller 412, a driven roller 413 and a power driving device; the conveying table 411 is arranged on the third workbench 13, and the rim charge output end of the conveying table is connected to the working panel 22; the driving roller 412 is disposed above the conveying table 411; the driven roller 413 is arranged below the conveying table 411; the driving roller 412 and the driven roller 413 are abutted; the power driving component is arranged below the conveying table 411 and connected with the driving roller 412 to drive the driving roller 412 to work; the rim charge cutting device 42 is disposed at one end of the conveying table 411 from which rim charges are output. More specifically, the working panel 22 is provided with a long strip through groove 221, and one end of the rim charge output by the conveying table 411 passes through the long strip through groove 221 and is connected to the working panel 22; further, in order to facilitate the removal of the waste material generated after the edge locking of the edge locking device 21, a material discharging pipeline 23 is arranged below the long strip through groove 221; the discharge pipeline 23 is arranged on the third workbench 13; more specifically, the power driving device includes a power motor 414 and a driving belt, where the power motor 414 may be a servo motor or a stepper motor; the power motor 414 is arranged below the conveying table 411 and is fixed on the third workbench 13; one end of the driving belt is sleeved at one end of the driving roller 412, and the other end is sleeved at one end of the power motor 414.

Preferably, the rim charge cutting device 42 includes a rim charge cutter and a telescopic cylinder 421; the telescopic cylinder 421 is arranged below the conveying table 411; the rim charge cutter is arranged at one side of the power output end of the telescopic cylinder 421 and is connected with the power output end of the telescopic cylinder 421. In the working state, the telescopic cylinder 421 drives the rim charge cutter to reciprocate in a clearance manner, so as to cut off the rim charge. More specifically, a cutter accommodating groove 4111 is formed in the portion of the conveying table 411 facing the telescopic cylinder 421; the rim charge cutter is disposed inside the cutter accommodating groove 4111.

Preferably, the rim charge cutting device 42 further includes a compacting cylinder 422 for compacting rim charges; the compressing cylinder 422 is arranged at one end of the conveying table 411, from which the rim charge is output. More specifically, two compressing cylinders 422 are provided, and the two compressing cylinders 422 are respectively provided at two sides of the cutter accommodating groove 4111; it should be noted that, the compressing cylinder 422 is provided to compress the rim charge when the rim charge cutter cuts the rim charge, so that the rim charge cutter can cut the rim charge conveniently; it should be noted that, the power output shaft of the compacting cylinder is connected to the conveying table 411, and in the working state, the compacting cylinder descends to compact the rim charge.

Preferably, in order to meet the requirement of performing the serging treatment on a plurality of fabrics with different sizes, the workbench mechanism further comprises a fourth workbench 14; one side of the fourth table 14 is connected to the first table 11 and the second table 12, and the fourth table 14 is on the same horizontal plane as the first table 11 and the second table 12.

The automatic serging machine has the technical effects that:

The above-mentioned embodiments of the present invention are not limited to the above-mentioned embodiments, but can be modified, equivalent, and improved within the spirit and principle of the present invention, and are included in the scope of the present invention.

Claims

1. Automatic serging machine, its characterized in that: the automatic serging comprises a workbench assembly, a serging assembly, a fabric rotating assembly and a rim material conveying assembly;

In a working state, the fabric is conveyed to the working panel in the overlock assembly through the first fabric conveying device on the first workbench, and the rim charge is conveyed to the working panel through the rim charge conveying assembly; at this time, the serging device carries out serging treatment on the fabric by utilizing the rim charge, after one side of the fabric is serged, the fabric enters the second workbench, then the fabric rotating assembly works to rotate the fabric and return the fabric to the working panel again, then the serging device carries out serging on one side of the fabric by utilizing the rim charge again, the steps are repeated, and after four sides of the fabric are serged, the fabric is conveyed out through the second fabric conveying device on the second workbench.

2. The automatic serging machine according to claim 1, wherein: the first material conveying device comprises a first conveyor belt device and a first driving motor; the first conveyor belt device is arranged on the first workbench; the first driving motor is arranged at one side of the first workbench, is connected with the first conveyor belt device and is used for driving the first conveyor belt device to operate; the second fabric conveying device comprises a second conveyor belt device and a second driving motor; the second conveyor belt device is arranged on the second workbench; the second driving motor is arranged on one side of the second workbench, is connected with the second conveyor belt device and is used for driving the second conveyor belt device to operate.

3. The automatic serging machine according to claim 1, wherein: the serging device is a facing sewing machine; the fabric sewing machine is arranged on the third workbench.

4. The automatic serging machine according to claim 1, wherein: the fabric rotating assembly comprises a fixing mechanism, a lifting mechanism and a rotating mechanism; the fixing mechanism is arranged on one side of the serging device and is connected above the third workbench; the lifting mechanism is arranged at the upper end of the fixing mechanism and is connected with the fixing mechanism; the rotating mechanism is arranged on one side of the lifting mechanism away from the fixing mechanism.

5. The automatic serging machine according to claim 4, wherein: the lifting mechanism comprises a fixed panel, a lifting panel and a lifting driving device; the fixed panel is fixedly connected to one side above the fixed mechanism; the lifting panel is connected to one side of the fixed panel away from the fixed mechanism in a sliding way; the lifting driving device is arranged between the fixed panel and the lifting panel, connected with the lifting panel and the fixed panel and used for driving the lifting panel to lift.

6. The automatic serging machine according to claim 5, wherein: the rotating mechanism comprises a vertical rotating shaft, a rotating shaft connecting device, a rotating shaft driving device and a dough rotating swing rod; the vertical rotating shaft is rotationally connected to one side, far away from the fixed panel, of the lifting panel through the rotating shaft connecting device; the rotating shaft driving device is fixed on one side of the lifting panel, is arranged above the vertical rotating shaft, is connected with the vertical rotating shaft and is used for driving the vertical rotating shaft to rotate; the fabric rotating swing rod is arranged at the lower end of the vertical rotating shaft and is connected with the vertical rotating shaft.

7. The automatic serging machine according to claim 6, wherein: the rotating shaft driving device comprises a driving motor and a transmission connecting device; the driving motor is arranged on one side of the lifting panel and is connected with the lifting panel; the transmission connecting device is arranged between the driving motor and the vertical rotating shaft and is connected with the vertical rotating shaft and the driving motor.

8. The automatic serging machine according to claim 1, wherein: the rim charge conveying assembly comprises a rim charge conveying device and a rim charge cutting device; the rim charge conveying device comprises a conveying table, a driving roller, a driven roller and a power driving device; the conveying table is arranged on the third workbench, and the rim charge output end of the conveying table is connected with the working panel; the driving roller is arranged above the conveying table; the driven roller is arranged below the conveying table; the driving roller is abutted with the driven roller; the power driving component is arranged below the conveying table and connected with the driving roller to drive the driving roller to work; the rim charge cutting device is arranged at one end of the rim charge output by the conveying table.

9. The automatic serging machine according to claim 8, wherein: the rim charge cutting device comprises a rim charge cutting knife and a telescopic cylinder; the telescopic cylinder is arranged below the conveying table; the rim charge cutting knife is arranged on one side of the power output end of the telescopic cylinder and is connected with the power output end of the telescopic cylinder.

10. The automatic serging machine according to claim 9, wherein: the rim charge cutting device also comprises a compacting cylinder for compacting rim charges; the compressing cylinder is arranged at one end of the output rim charge of the conveying table.