CN112481842A - Full-automatic sleeve cutting piece processing machine - Google Patents

Abstract

The invention discloses a full-automatic sleeve cutting piece processing machine, which comprises: the base, control system, be used for extracting the english cut-parts of sleeve to the feed mechanism of base, be used for conveying the english cut-parts of sleeve on the base to the first transport mechanism who seizes the plain thread sewing machine and seize the plain thread and make up, a correction mechanism for correcting the english cut-parts position of sleeve, be used for making the english cut-parts of sleeve after seizing the plain thread and send the second transport mechanism to button sewing machine button sewing, second transport mechanism still is used for sending the english cut-parts of sleeve after seizing the plain thread to button sewing machine and makes up the keyhole, and be used for collecting the receiving agencies of the english cut-parts of sleeve that finishes processing. The sleeve English cutting piece is processed by the device, so that the automation of three processing technologies of stitching, buttonholing and button sewing is realized in the whole processing process of the sleeve English cutting piece, the working efficiency is improved, and the consistency of sewing quality is ensured; the whole processing process is free from human participation, and the labor is saved.

Description

Full-automatic sleeve cutting piece processing machine

Technical Field

The invention relates to the technical field of clothes processing, in particular to a full-automatic sleeve cutting piece processing machine.

Background

The shirt sleeve cut pieces have various working procedures and complex process in the manufacturing process. Particularly, the sewing process of stitching the open thread has high requirements on the sewing technology of workers and strict quality standards. The buttonhole sewing process and the button sewing process are the same and are very important for processing sleeve and English cut pieces, and the rate of finished products of shirts is directly influenced. In a clothing factory, stitching, buttonholing and sewing of the sleeve quartz cut pieces, buttoning of the sleeve quartz cut pieces and sewing of the sleeve quartz cut pieces are usually manually completed. Three workers respectively operate the flat sewing machine, the buttonholing machine and the button sewing machine to perform sewing work of different links of sleeve and English cut pieces. The labor intensity is high, and the technical requirement is high. Therefore, in the production process of the shirt sleeve cut pieces, the labor cost is high, the batch production efficiency is low, and automatic upgrading is urgently needed.

In summary, how to reduce labor intensity, reduce labor cost, and improve production efficiency is a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above, the present invention provides a full-automatic cuff opening and cutting machine, which can automatically process cuffs, reduce labor cost, reduce labor intensity, and improve production efficiency.

In order to achieve the above purpose, the invention provides the following technical scheme:

a full-automatic sleeve cutting processing machine comprises: the sleeve English cutting piece processing device comprises a base, a control system, a feeding mechanism, a correcting mechanism, a second conveying mechanism and a receiving mechanism, wherein the feeding mechanism is used for extracting sleeve English cutting pieces to the base, the first conveying mechanism is used for conveying the sleeve English cutting pieces on the base to a sewing machine for sewing naked yarns, the correcting mechanism is used for correcting the positions of the sleeve English cutting pieces, the second conveying mechanism is used for conveying the sleeve English cutting pieces after the naked yarns are sewn to a button sewing machine for sewing buttonholes, the second conveying mechanism is also used for conveying the sleeve English cutting pieces after the naked yarns are sewn to an eyelet sewing machine for sewing buttonholes, and the receiving mechanism is used for collecting the sleeve English cutting pieces after the processing is finished;

the feeding mechanism, the first conveying mechanism, the correcting mechanism, the second conveying mechanism, the button sewing machine, the buttonholing machine and the material receiving mechanism are all arranged on the base; the feeding mechanism, the first conveying mechanism, the correcting mechanism, the second conveying mechanism, the button sewing machine, the buttonholing machine and the material receiving mechanism are all in signal connection with the control system.

Preferably, feed mechanism includes the material loading box, is used for with the english cut-parts of sleeve in the material loading box extract extremely sleeve english cut-parts separator on the base and be used for the drive the first drive arrangement that sleeve english cut-parts separator removed, the material loading box reaches first drive arrangement set up in the base, sleeve english cut-parts separator connect in a drive arrangement, sleeve english cut-parts separator with a drive arrangement all with control system signal connection.

Preferably, the eedle side of stitching machine of seizing the bright line sets up the baffle, first transport mechanism including be used for with the desktop the english cut-parts of sleeve blow extremely the minor face of the english cut-parts of sleeve laminate in the gas blowing system of baffle, and be used for will laminate in the baffle the english cut-parts of sleeve translation extremely the driving lever of eedle below transfers, gas blowing system reaches transfer the driving lever all set up in the base, gas blowing system with transfer the driving lever all with control system signal connection.

Preferably, the correcting mechanism comprises an adjusting deflector rod and a positioning sensor arranged in front of the open thread stitching machine, the needle and the positioning sensor are positioned on a first straight line, the first straight line is perpendicular to a straight line segment of the open thread stitched by the needle, and the positioning sensor and the adjusting deflector rod are in signal connection with the control system;

when the machine is needled at one end of the sleeve inside and outside cutting pieces, if the sleeve inside and outside cutting pieces shield the sensor, the control system controls the adjusting shift lever to adjust the position of the sleeve inside and outside cutting pieces so as to enable the sleeve inside and outside cutting pieces not to shield the sensor.

Preferably, second transport mechanism is including being used for the centre gripping the fixture of the english cut-parts of sleeve and being used for making up after the naked eye line the english cut-parts of sleeve transfer extremely fixture's second drive arrangement, fixture can drive the english cut-parts of sleeve are followed the straight line direction reciprocating motion at the long limit place of the english cut-parts of sleeve, fixture set up in button sewing machine with between the buttonhole sewing machine, button sewing machine with the buttonhole sewing machine set up in on the straight line at fixture's reciprocating motion direction place, second drive arrangement with fixture all with control system signal connection, fixture with second drive arrangement all set up in on the base.

Preferably, the second drive arrangement including be used for with the sleeve english cut-parts compress tightly in the anchor clamps of base, and be used for driving anchor clamps orientation the driving piece that fixture removed, the driving piece with control system signal connection, the driving piece set up in on the base.

Preferably, the clamp further comprises a rotating mechanism for driving the clamp to rotate, the rotating mechanism is arranged on the driving piece, the clamp is arranged on the rotating mechanism, and the rotating mechanism is in signal connection with the control system.

Preferably, receiving agencies is including receiving the workbin, works as the back is accomplished in the processing of the english cut-parts of sleeve, fixture drives the english cut-parts of sleeve get into receive the workbin.

Preferably, the receiving mechanism further comprises a receiving pressure rod for pressing the sleeve cutting pieces in the receiving box, and the receiving pressure rod is in signal connection with the control system.

Preferably, the control system comprises a human-computer interaction device and a button panel, and the human-computer interaction device and the button panel are both arranged on the base.

The utility model provides a full-automatic english cut-parts of sleeve processing machine makes english cut-parts of sleeve material loading link unmanned through feed mechanism, first transport mechanism can be with the accurate removal of english cut-parts of sleeve to sewing machine eedle below, under the assistance of correctional agency, accomplish the position calibration of english cut-parts of sleeve, the english cut-parts of sleeve after will making up and arrest the bright line is delivered to button sewing machine and buttonhole maker and is carried out the process of button sewing and make up the buttonhole, and collect the english cut-parts of sleeve that processing finishes by receiving agencies. The whole process realizes the automation of three processing technologies of stitching, buttonholing and button sewing of the sleeve English cut pieces, improves the working efficiency and ensures the consistency of sewing quality; the whole processing process is free from human participation, and the labor is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic view of a fully automatic sleeve panel processing machine according to the present invention;

FIG. 2 is a detailed view of the feeding mechanism and the first conveying mechanism provided by the present invention;

FIG. 3 is a schematic diagram of a keyhole and a button of the full-automatic sleeve cutting machine provided by the invention;

FIG. 4 is a schematic view of a cuff panel;

FIG. 5 is a schematic view of the button and keyhole of the left sleeve panel;

FIG. 6 is a schematic view showing the adjusting direction of the adjusting deflector rod when the positioning sensor is shielded by the sleeve panel without sewing bright lines.

FIG. 7 is a schematic view of the adjusting direction of the adjusting deflector rod when the positioning sensor is not shielded in the sleeve panel sewn with the bright thread.

In FIGS. 1-7:

1-material receiving compression bar, 2-material receiving box, 3-buttonholing machine, 4-sleeve quartz cut piece separator, 5-material feeding box, 6-button sewing machine, 7-button feeding disc, 8-bright thread sewing machine, 9-touch screen, 10-button panel, 11-adjusting deflector rod, 12-baffle, 13-first pushing cylinder, 14-transferring deflector rod, 15-blowing system, 16-positioning sensor, 17-rotating cylinder, 18-clamp, 19-clamping mechanism, 20-sleeve quartz cut piece, 21-buttonholing, 22-button and 23-machine needle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The core of the invention is to provide a full-automatic sleeve cutting machine which can automatically process sleeves, thereby reducing the labor cost, reducing the labor intensity and improving the production efficiency.

Referring to fig. 1 to 7, fig. 1 is a schematic view of a full-automatic sleeve cutting machine according to the present invention; FIG. 2 is a detailed view of the feeding mechanism and the first conveying mechanism provided by the present invention; FIG. 3 is a schematic diagram of a keyhole and a button of the full-automatic sleeve cutting machine provided by the invention; FIG. 4 is a schematic view of a cuff panel; FIG. 5 is a schematic view of the button and keyhole of the left sleeve panel; FIG. 6 is a schematic view showing the adjusting direction of the adjusting deflector rod when the sleeve panel shading sensor is not sewn with bright lines. FIG. 7 is a schematic view of the adjusting direction of the adjusting deflector rod when the sleeve cut pieces sewed with bright threads are not covered with the sensor.

A full-automatic sleeve cutting processing machine comprises: the sewing machine comprises a base, a control system, a feeding mechanism for extracting sleeve English cutting pieces 20 to the base, a first conveying mechanism for conveying the sleeve English cutting pieces 20 on the base to an open thread sewing machine 8 for open thread sewing, a correcting mechanism for correcting the positions of the sleeve English cutting pieces 20, a second conveying mechanism for conveying the sleeve English cutting pieces 20 subjected to open thread sewing to a button 22 of a button sewing machine 6, a second conveying mechanism for conveying the sleeve English cutting pieces 20 subjected to open thread sewing to a button sewing machine 3 for sewing a button hole 21, and a material collecting mechanism for collecting the sleeve English cutting pieces 20 subjected to processing;

the feeding mechanism, the first conveying mechanism, the correcting mechanism, the second conveying mechanism, the button sewing machine 6, the buttonholing machine 3 and the material receiving mechanism are all arranged on the base; the feeding mechanism, the first conveying mechanism, the correcting mechanism, the second conveying mechanism, the button sewing machine 6, the buttonholing machine 3 and the material receiving mechanism are all in signal connection with the control system.

It should be noted that three procedures of stitching, keyhole 21 and button 22 are required to be completed before the sleeve inside panel 20 of the shirt is spliced and sleeved, and although the contour shape of the sleeve inside panel 20 has the difference between a square corner and a round corner, the stitching process still requires the distance between the stitch and the margin of the sleeve inside panel 20 to be consistent and the needle pitch to be consistent no matter which shape of the sleeve inside panel 20 is adopted.

The open thread sewing machine 8 is responsible for automatically sewing open threads of the sleeve quartz cut pieces 20. The button sewing machine 6 finishes the button sewing 22 process of the sleeve English cut pieces 20, the button conveying disc 7 is arranged beside the button sewing machine 6, and buttons can be conveyed into the needle 23 of the button sewing machine 6 one by one through the vibrating disc so as to finish automatic button sewing. The buttonhole sewing machine 3 can automatically complete the sewing task of the buttonhole 21 of the sleeve panel 20.

The base comprises a supporting frame at the bottom and a desktop arranged on the supporting frame, and the sleeve inside and outside cutting pieces 20 move to be attached to the desktop.

The utility model provides a full-automatic english cut-parts processing machine of sleeve makes the english cut-parts 20 material loading ring sections of sleeve unmanned through feed mechanism, first transport mechanism can be with the accurate 23 below of sewing machine eedle that remove of english cut-parts 20 of sleeve, under the assistance of correctional agency, accomplish the position calibration of english cut-parts 20 of sleeve, second transport mechanism will make up english cut-parts 20 of sleeve after stitching and send to button sewing machine 6 and button sewing machine 3 and carry out the process of button sewing 22 and make up button hole 21, and collect the english cut-parts 20 of sleeve that processing finishes by receiving agencies. The device is used for processing the sleeve English cutting pieces 20, so that the automation of three processing technologies of stitching, buttonhole 21 processing and button 22 is realized in the whole processing process of the sleeve English cutting pieces 20, the working efficiency is improved, and the consistency of the sewing quality is ensured; the whole processing process is free from human participation, and the labor is saved.

On the basis of above-mentioned embodiment, as further preferred, feed mechanism includes material loading box 5, is arranged in extracting the sleeve english cut-parts separator 4 on the base and is used for driving the first drive arrangement that sleeve english cut-parts separator 4 removed with sleeve english cut-parts 20 in the material loading box 5, and material loading box 5 and first drive arrangement set up in the base, and sleeve english cut-parts separator 4 connects in first drive arrangement, and sleeve english cut-parts separator 4 and first drive arrangement all with control system signal connection.

Note that the sleeve pieces 20 to be processed are collectively placed in the upper bin 5, and are grasped by the sleeve piece separator 4. The cut-parts separator can adopt a needle-punching separator or an adhesive separator, and for the material of the sleeve and quartz cut-parts 20 used by the high-end shirt, the adhesive separator is adopted, and adhesive traces are left on the surface, so that the processing quality is influenced. Therefore, a needle separator can be generally used. The needle separator can pick up a single sleeve panel 20 from a stack in the headbox 5 and transfer it to the base with the aid of guide rails.

First drive arrangement includes first propelling movement cylinder 13 and lift cylinder, and under the effect of first propelling movement cylinder 13, acupuncture formula sleeve english cut-parts separator 4 can be between last workbin 5 and base reciprocating motion. The needling type sleeve English cut piece separator 4 realizes vertical reciprocating movement by using the cylinder, the lifting cylinder drives the needling type sleeve English cut piece separator 4 to descend under the action of the lifting cylinder, after the sleeve English cut piece 20 on the uppermost layer of the feeding box 5 is fixed by the needling head, the lifting cylinder drives the needling type separator to ascend, and the sleeve English cut piece 20 is grabbed.

On the basis of the above embodiment, as a further preferred, the baffle 12 is arranged beside the needle 23 of the bright thread sewing machine 8, the first conveying mechanism comprises an air blowing system 15 for blowing the sleeve quartz cut pieces 20 on the table surface to the short sides of the sleeve quartz cut pieces 20 to be attached to the baffle 12, and a transfer shift lever 14 for horizontally moving the sleeve quartz cut pieces 20 attached to the baffle 12 to the lower side of the needle 23, the air blowing system 15 and the transfer shift lever 14 are both arranged on the base, and the air blowing system 15 and the transfer shift lever 14 are both in signal connection with the control system.

It should be noted that when the sleeve panel 20 is grabbed by the sleeve panel separator 4 and placed on the table top, the blowing system blows air in the direction of the baffle 12 to ensure that the short edge of the sleeve panel 20 abuts against the flange. The needle is ensured to be in a horizontal state and moves to the position of the naked thread sewing needle 23 under the pushing action of the transfer deflector rod 14.

The air blowing system 15 comprises an air pipe and a net-shaped structure, the net-shaped structure is arranged on the table top, the top surface and the table top are located in the same horizontal plane, the grabbed sleeve quartz cut pieces 20 are placed on the net-shaped structure, the air pipe blows air from the net-shaped cavities, and the sleeve quartz cut pieces 20 are blown to the short edges to be attached to the baffle 12.

The baffle 12 and the needle 23 of the sewing machine 8 for stitching the open thread are positioned at the same side, when the short edge of the sleeve quartz cut piece 20 moves close to the baffle 12 by the side, the cut piece can be ensured to accurately move to the lower part of the needle 23 for stitching the open thread.

The transfer shift lever 14 is arranged at the net-shaped structure in a lifting mode, when the sleeve quartz cut pieces 20 are placed on the net-shaped structure through the needle-punching type separator, the transfer shift lever 14 is lifted from the net-shaped structure under the pushing of the air cylinder, and when the air blowing system 15 blows the sleeve quartz cut pieces 20 to the short sides close to the baffle 12, the transfer shift lever 14 pushes the sleeve quartz cut pieces 20 towards the direction of the bright line sewing machine 8 under the pushing effect of the air cylinder. Under the combined action of the near edge of the baffle 12 and the transfer deflector rod 14, the sleeve cutting pieces 20 can move to the lower part of the needle 23 of the bright thread stitching machine according to the horizontal direction. At this time, the transfer lever 14 returns to the original position to wait for the next cut piece to be pushed.

The first transport mechanism provided in this embodiment can transport the sleeve panels 20 exactly under the needles 23 of the bright thread sewing machine 8,

on the basis of the above embodiment, as a further preferred, the correcting mechanism comprises an adjusting dial 11 and a positioning sensor 16 arranged in front of the stitching machine 8 for stitching the visible thread, the needle 23 and the positioning sensor 16 are positioned on a first straight line, the first straight line is perpendicular to the straight line segment of the visible thread stitched by the needle 23, and the positioning sensor 16 and the adjusting dial 11 are both in signal connection with the control system;

when the needle 23 penetrates one end of the sleeve panel 20, if the sleeve panel 20 shields the sensor, the control system controls the adjusting deflector rod 11 to adjust the position of the sleeve panel 20 so that the sleeve panel 20 does not shield the sensor.

It should be noted that the sensor is arranged on the desktop, the top surface is not higher than the desktop, and the sensor can detect whether the sleeve cut pieces 20 move above the sensor through high and low levels. The position of the sensor and the needle 23 for stitching the open thread are positioned on a first straight line, the first straight line is vertical to the plate surface of the baffle 12, and the needle 23 for stitching the open thread is parallel to the plate surface of the baffle 12. When the gusset panels 20 are positioned, the vision system may be used to position the gusset panels 20 using identification techniques instead of sensors, but this increases the cost of the equipment.

When a machine needle 23 of the sewing machine descends to pierce through the sleeve quartz cut pieces 20, one section of the long edges of the sleeve quartz cut pieces 20 is fixed, if the other end of the long edges of the sleeve quartz cut pieces 20 shields the sensor, the position of the sleeve quartz cut pieces 20 is not positioned at the sewing position, one end of the adjusting deflector rod 11 is installed at the machine needle 23, and the other end of the adjusting deflector rod rotates to the long edges of the sleeve quartz cut pieces 20 around the machine needle 23 to be adjusted until the long edges just do not shield the sensor. At this time, the cuff panel 20 is at the sewing position, and open thread sewing can be performed.

The bright stitching is sewn from the short edge to the long edge of the sleeve quartz cut pieces 20 to the other short edge, so that the sleeve quartz cut pieces 20 need to rotate to adjust positions during sewing, and after the bright stitching sewing machine 8 is arranged to sew a preset needle number, the adjusting deflector rod 11 is controlled to drive the sleeve quartz cut pieces 20 to rotate by a preset angle, so that the bright stitching sewing machine 8 can complete sewing of the whole sleeve quartz cut pieces 20.

On the basis of the above-mentioned embodiment, as further preferred, second transport mechanism is including the fixture 19 that is used for centre gripping the english cut-parts of sleeve 20, and be used for transporting the english cut-parts of sleeve 20 after sewing and stitching to fixture 19's second drive arrangement, fixture 19 can drive the rectilinear direction reciprocating motion that the english cut-parts of sleeve 20 were located along the long limit of the english cut-parts of sleeve 20, fixture 19 sets up between button sewing machine 6 and buttonhole sewing machine 3, button sewing machine 6 and buttonhole sewing machine 3 set up on the straight line that fixture 19's reciprocating motion direction was located, second drive arrangement and fixture 19 all with control system signal connection, fixture 19 and second drive arrangement all set up on the base.

It should be noted that, after the cuff pieces 20 stitched with the bright thread are pushed to the clamping mechanism 19 by the second conveying mechanism, the clamping mechanism 19 clamps the panels. The holding mechanism 19 with the sleeve panels 20 can move to the buttonholing machine 3 first, and complete the buttonholing 21 task together with the buttonholing machine 3. Then the workpiece is moved to the lower part of a needle 23 of the button-sewing machine 6, and the button-sewing machine 6 completes the task of sewing buttons 22. Or may be transferred to the button sewing machine 6 and then to the buttonholing machine 3.

The sleeve panel 20 is provided with the structure of the embodiment to complete the automatic keyhole 21 and the button 22, so that the three processes of processing the sleeve panel 20 are fully automatic. The three sewing processes are integrated, so that the production efficiency of the batch production of the sleeve cut pieces 20 is improved, and the labor cost is saved.

On the basis of the above embodiment, as a further preferred option, the second driving device includes a clamp 18 for pressing the sleeve cut pieces 20 onto the base, and a driving member for driving the clamp 18 to move toward the clamping mechanism 19, the driving member is in signal connection with the control system, and the driving member is disposed on the base.

It should be noted that after the sewing task of stitching the open thread is finished, the sleeve inside cut pieces 20 keep the long sides in the horizontal state under the adjustment of the dial for stitching the open thread and the positioning sensor 16. At this time, the jig 18 is lowered under the control of the air cylinder, and the cuff pieces 20 are pressed. Under the action of the pushing cylinder, the clamp 18 carries the sleeve panel 20 into the clamping mechanism 19, and prepares for the tasks of the keyhole 21 and the button 22.

On the basis of the above embodiment, as a further preferred, the device further includes a rotating mechanism for driving the clamp 18 to rotate, the rotating mechanism is disposed on the driving member, the clamp 18 is disposed on the rotating mechanism, and the rotating mechanism is in signal connection with the control system.

Since the sleeve panel 20 is divided into left and right pieces, when the sleeve panel 20 is the left sleeve panel 20, the positions of the keyhole 21 and the button 22 are the same as the attachment positions of the keyhole machine 3 and the button attaching machine 6. The cut pieces are directly fed into the clamping mechanism 19. When the sleeve panel 20 is the right sleeve panel 20, the rotating motor control fixture 18 is required to rotate the sleeve panel 20 by 180 degrees in situ, and then the sleeve panel is fed into the clamping mechanism 19, so as to ensure the accurate positions of the buttons 22 and the keyhole 21.

Since the cuff panels 20 are divided into left and right cuffs, the positions of the keyhole 21 and the button 22 are symmetrical with respect to each other as shown in the figure. These are all demanding requirements on the skill of the workers and also require that the equipment must meet the above process requirements.

And adjusting the other end of the sleeve cutting piece 20 continuously until the positioning sensor 16 is just covered by the naked wire deflector rod. At this time, the jig 18 is lowered, and if the left sleeve is used, the left sleeve is directly transferred to the holding mechanism 19, and the keyhole 21 and the button 22 are performed. In the case of the right sleeve, the sleeve blank 20 is rotated by 180 degrees and then fed into the holding mechanism 19.

On the basis of the above embodiment, as a further preferred option, the material receiving mechanism includes a material receiving box 2, and after the sleeve cut pieces 20 are processed, the clamping mechanism 19 drives the sleeve cut pieces 20 to enter the material receiving box 2.

The processed cuff pieces 20 are transferred thereto by the holding mechanism 19. Finally, under the action of the rotary air cylinder 17, the clamping mechanism 19 rotates 180 degrees anticlockwise, the clamping mechanism 19 opens, the processed sleeve quartz cut pieces 20 fall into the material receiving box 2, and the material receiving pressure rod 1 flattens the processed sleeve quartz cut pieces 20.

On the basis of the above embodiment, as a further preferred option, the material receiving mechanism further includes a material receiving pressure rod 1 for pressing on the sleeve cutting pieces 20 in the material receiving box 2, and the material receiving pressure rod 1 is in signal connection with the control system.

It should be noted that, when the processed sleeve inside cut pieces 20 are transferred to the material receiving box 2, the material receiving press rod 1 is pressed down to stably receive the sleeve inside cut pieces 20.

On the basis of the above embodiment, as a further preferred, the control system includes a human-computer interaction device and a button panel 10, and both the human-computer interaction device and the button panel 10 are mounted on the base.

The touch panel 9 inputs information on the shape and size of the cuff pieces 20 and displays the operation state of the apparatus. The button panel 10 includes a start key and an emergency stop key. The ironed shirt sleeve foot pieces 20 are placed in the feeding box 5, and the size, shape and left and right hand conditions of the sleeve foot pieces 20 to be processed are recorded into the equipment through the touch screen 9. The open button is pressed in the button panel 10.

The equipment connects the open thread stitching process, the keyhole 21 process and the button 22 process in series. The full automation of three single-sheet processing links after the ironing link of the sleeve-English cut pieces 20 and before the sleeve splicing on the cut pieces is realized. Under cut-parts grabber and air blowing system's effect, automatic feeding and location removal can be realized to equipment. The cut pieces to be processed only need to be intensively put into the feeding box 5 from an upstream process without manual operation. Under the cooperation of the radian algorithm for stitching the open thread and the sensor, the cut pieces can be accurately positioned after stitching the open thread, and the links of accurately transmitting the cut pieces to the keyhole 21 and the button 22 are ensured. Compared with the traditional production mode, three workers are saved.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The fully automatic sleeve cutting machine provided by the invention is described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a full-automatic sleeve cut-parts processing machine which characterized in that includes: the sleeve sewing machine comprises a base, a control system, a feeding mechanism, a correcting mechanism, a second conveying mechanism and a receiving mechanism, wherein the feeding mechanism is used for extracting sleeve English cutting pieces (20) to the base, the correcting mechanism is used for correcting the positions of the sleeve English cutting pieces (20) on the base, the first conveying mechanism is used for conveying the sleeve English cutting pieces (20) to a sewing machine (8) for sewing open threads, the second conveying mechanism is used for conveying the sleeve English cutting pieces (20) after the open threads are sewn to a button sewing machine (6) for sewing up buttonholes (21) by the buttonhole sewing machine (3), and the receiving mechanism is used for collecting the sleeve English cutting pieces (20) after the open threads are sewn up;

the feeding mechanism, the first conveying mechanism, the correcting mechanism, the second conveying mechanism, the button sewing machine (6), the buttonholing machine (3) and the material receiving mechanism are all arranged on the base; the feeding mechanism, the first conveying mechanism, the correcting mechanism, the second conveying mechanism, the button sewing machine (6), the buttonholing machine (3) and the material receiving mechanism are all in signal connection with the control system.

2. The full-automatic sleeve-quartz cut-parts processing machine according to claim 1, characterized in that, the feed mechanism includes material loading box (5), is used for with sleeve-quartz cut-parts (20) in material loading box (5) extract extremely sleeve-quartz cut-parts separator (4) on the base and be used for driving a first drive arrangement that sleeve-quartz cut-parts separator (4) removed, material loading box (5) reach a first drive arrangement set up in the base, sleeve-quartz cut-parts separator (4) connect in a first drive arrangement, sleeve-quartz cut-parts separator (4) with a first drive arrangement all with control system signal connection.

3. The full-automatic sleeve inside and outside cut-parts processing machine of claim 1, characterized in that, needle (23) side of stitching machine (8) of seizing the bright line sets up baffle (12), first transport mechanism including be used for with the desktop sleeve inside and outside cut-parts (20) blow to the minor face of sleeve inside and outside cut-parts (20) laminate in gas blowing system (15) of baffle (12), and be used for will laminate in baffle (12) sleeve inside and outside cut-parts (20) translation extremely transfer driving lever (14) below needle (23), gas blowing system (15) and transfer driving lever (14) all set up in the base, gas blowing system (15) with transfer driving lever (14) all with control system signal connection.

4. The full-automatic cuff cutting and processing machine according to claim 1, wherein the correcting mechanism comprises an adjusting deflector rod (11) and a positioning sensor (16) arranged in front of the stitching machine (8) for stitching the bright thread, the machine needle (23) and the positioning sensor (16) are positioned on a first straight line, the first straight line is perpendicular to a straight line segment of the bright thread pre-stitched by the machine needle (23), and the positioning sensor (16) and the adjusting deflector rod (11) are in signal connection with the control system;

when the sewing needle (23) pricks one end of the sleeve inside cutting piece (20), if the sleeve inside cutting piece (20) shelters from the sensor, the control system controls the adjusting deflector rod (11) to adjust the position of the sleeve inside cutting piece (20), so that the sleeve inside cutting piece (20) does not shelter from the sensor.

5. The full-automatic cuff cutting machine according to claim 1, wherein the second conveying mechanism comprises a clamping mechanism (19) for clamping the cuff cutting piece (20) and a second driving device for transferring the cuff cutting piece (20) sewed with bright lines to the clamping mechanism (19), the clamping mechanism (19) can drive the sleeve quartz cut pieces (20) to reciprocate along the linear direction of the long edges of the sleeve quartz cut pieces (20), the clamping mechanism (19) is arranged between the button sewing machine (6) and the buttonholing machine (3), the button sewing machine (6) and the buttonholing machine (3) are arranged on a straight line of the reciprocating direction of the clamping mechanism (19), the second driving device and the clamping mechanism (19) are in signal connection with the control system, the clamping mechanism (19) and the second driving device are both arranged on the base.

6. The fully automatic cuff cutting and processing machine according to any one of claims 1 to 5, wherein the second driving device comprises a clamp (18) for pressing the cuff cutting (20) to the base, and a driving member for driving the clamp (18) to move towards the clamping mechanism (19), the driving member is in signal connection with the control system, and the driving member is arranged on the base.

7. The full-automatic cuff cutting and processing machine according to claim 6, characterized by further comprising a rotating mechanism for driving the clamp (18) to rotate, wherein the rotating mechanism is arranged on the driving member, the clamp (18) is arranged on the rotating mechanism, and the rotating mechanism is in signal connection with the control system.

8. The full-automatic sleeve inside cutting machine according to claim 5, characterized in that the material collecting mechanism comprises a material collecting box (2), and when the sleeve inside cutting pieces (20) are completely processed, the clamping mechanism (19) drives the sleeve inside cutting pieces (20) to enter the material collecting box (2).

9. The full-automatic sleeve inside cutting piece processing machine according to claim 8, wherein the material receiving mechanism further comprises a material receiving pressure rod (1) for pressing the sleeve inside cutting pieces (20) in the material receiving box (2), and the material receiving pressure rod (1) is in signal connection with the control system.

10. The fully automatic cuff cutting and processing machine according to any one of claims 1 to 5, wherein the control system comprises a human-computer interaction device and a button panel (10), and the human-computer interaction device and the button panel (10) are both arranged on the base.

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