CN112391748A - Intelligent automatic double-side jacquard overlock sewing equipment - Google Patents

Intelligent automatic double-side jacquard overlock sewing equipment Download PDF

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Publication number
CN112391748A
CN112391748A CN202011102201.4A CN202011102201A CN112391748A CN 112391748 A CN112391748 A CN 112391748A CN 202011102201 A CN202011102201 A CN 202011102201A CN 112391748 A CN112391748 A CN 112391748A
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CN
China
Prior art keywords
cutter
conveying
wheel
motor
cloth
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Pending
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CN202011102201.4A
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Chinese (zh)
Inventor
吴文斌
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Suzhou Dazhe Intelligent Technology Co ltd
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Suzhou Dazhe Intelligent Technology Co ltd
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Priority to CN202011102201.4A priority Critical patent/CN112391748A/en
Publication of CN112391748A publication Critical patent/CN112391748A/en
Pending legal-status Critical Current

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    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B35/00Work-feeding or -handling elements not otherwise provided for
    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B35/00Work-feeding or -handling elements not otherwise provided for
    • D05B35/06Work-feeding or -handling elements not otherwise provided for for attaching bands, ribbons, strips, or tapes or for binding
    • D05B35/066Work-feeding or -handling elements not otherwise provided for for attaching bands, ribbons, strips, or tapes or for binding for attaching small textile pieces, e.g. labels, belt loops
    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B37/00Devices incorporated in sewing machines for slitting, grooving, or cutting
    • D05B37/04Cutting devices
    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05BSEWING
    • D05B69/00Driving-gear; Control devices

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Treatment Of Fiber Materials (AREA)

Abstract

The invention discloses an intelligent automatic double-side jacquard overedger, which comprises: a disc cutter mechanism, a main frame connected with the disc cutter mechanism, and auxiliary frames which are respectively connected with the two sides of the main frame and arranged in a mirror image manner, the main frame is provided with a cloth pulling assembly body, the left end and the right end of the main frame are respectively provided with a step moving assembly body, the front end and the rear end of each auxiliary frame are respectively provided with a overedger, a synchronous belt conveying mechanism, a thread frame and a tangent line hot sticking mechanism in a mirror image manner, the synchronous belt conveying mechanism is arranged at one side of the overedger, the thread stand is arranged at the upper side of the overedger, the tangent line thermal bonding mechanism is arranged at one side of the synchronous belt conveying mechanism, through the mode, the intelligent automatic double-side jacquard overedger provided by the invention has high automation degree, can adapt to the production of conventional product specifications and ultra-large cloth, the left side and the right side of the cloth can be simultaneously used for producing products with different fabrics and specifications, and the edge of the cloth can be sewn by common overedges or jacquard overedges.

Description

Intelligent automatic double-side jacquard overlock sewing equipment
Technical Field
The invention relates to the field of automatic cloth processing equipment, in particular to intelligent automatic double-side jacquard overlock equipment.
Background
Along with the rapid development of social material culture, the cloth that uses in the daily life is for more pleasing to the eye durable, and the cloth need make up the processing when production, and current machinery is sewed up mostly to be sewed up manually, and degree of automation is lower, and the overedged pattern of cloth is comparatively single when sewing up, influences the product pleasing to the eye.
Disclosure of Invention
The invention mainly solves the technical problem of providing intelligent automatic double-side jacquard overedger equipment so as to solve the problems in the background technology.
In order to solve the technical problems, the invention adopts a technical scheme that: there is provided an intelligent automatic double-sided jacquard overedger comprising: the sewing machine comprises a disc cutter mechanism, a main frame connected with the disc cutter mechanism, and auxiliary frames respectively connected to two sides of the main frame and arranged in a mirror image manner, wherein a cloth pulling assembly body is arranged on the main frame, step moving assembly bodies are respectively arranged at the left end and the right end of the main frame, a overedging machine, a synchronous belt conveying mechanism, a wire frame and a tangent line thermal bonding mechanism are respectively arranged at the front end and the rear end of each auxiliary frame in a mirror image manner, the synchronous belt conveying mechanism is arranged on one side of the overedging machine, the wire frame is arranged on the upper side of the overedging machine, the tangent line thermal bonding mechanism is arranged on one side of the synchronous belt conveying mechanism, a conveying mechanism is arranged on the auxiliary frame, the conveying mechanism is arranged between the two synchronous belt conveying mechanisms, a label conveying mechanism is further arranged on the;
the overedger includes: the aircraft nose and with the cam jacquard mechanism that the aircraft nose upper end is connected, cam jacquard mechanism includes: servo motor, first shaft coupling, output shaft, cam, guide pillar, first spring, second spring, trapping mechanism, regulation pole, mounting panel and cross the line board, servo motor is through first shaft coupling and output shaft connection, be provided with the cam of the different angle of a plurality of on the output shaft, every the cam and the guide pillar butt that corresponds, first spring housing is established on the guide pillar, first spring has the trapping mechanism at the one end butt that is close to the mounting panel, be provided with the regulation pole that a plurality of and guide pillar correspond on the mounting panel, the second spring sets up in the inner hole of adjusting the pole, the second spring is at the one end and the trapping mechanism butt that are close to the mounting panel, cross the line board and set up the one end at the mounting panel, the aircraft nose top is provided with the top cap, be provided with the trapping mechanism on the top cap, cam jacquard mechanism sets up in the top cap.
In a preferred embodiment of the present invention, the disc cutter mechanism comprises: the cloth feeding frame is transversely arranged at the front end of the cutter frame, the disc cutter is arranged at the upper end of the cutter frame, the cloth supporting plate and the cloth pressing plate are correspondingly arranged up and down and are arranged at the rear end of the cutter frame, the cloth pressing cylinders for controlling the cloth pressing plate to press down are arranged at two ends of the cloth pressing plate, and the cloth supporting cylinders for controlling the cloth supporting plate to lift up are arranged on the bottom surface of the cloth supporting plate;
the disc cutter includes: the cutting machine comprises a left side fixing plate, a right side fixing plate, a power motor, a synchronous power wheel, a synchronous driven wheel, a first synchronous belt, a guide rail sliding block, a rotating shaft, a first connecting shaft, a rotating cylinder, a cutter motor fixing seat, a bed knife and a circular cutter, wherein the left side fixing plate and the right side fixing plate are respectively fixedly arranged at the left end and the right end of a cutter frame, the power motor is fixedly arranged on the right side fixing plate and connected with the synchronous power wheel, the synchronous driven wheel is fixedly arranged on the left side fixing plate, the first synchronous belt is wound on the synchronous power wheel and the synchronous driven wheel, the guide rail is arranged between the left side fixing plate and the right side fixing plate, the guide rail sliding block is connected on the guide rail in a sliding manner, the guide rail sliding block can move in a left-right, the circular cutting machine is characterized in that a cutter motor is fixedly arranged on the cutter motor fixing seat, the circular cutter is connected with the cutter motor through a first connecting shaft, the bed knife is transversely arranged below the circular cutter, and a rotary cylinder for adjusting the angle of the circular cutter is arranged on one side of the cutter motor fixing seat.
In a preferred embodiment of the invention, the cloth feeding frame comprises cloth guide frame supports, cloth guide rollers and cloth blocking wheels, the cloth guide frame supports are symmetrically arranged on the left side and the right side of the upper end of the cutter frame respectively, the cloth guide rollers are arranged between the cloth guide frame supports in double rows and multiple columns respectively, and the cloth blocking wheels are sleeved on the cloth guide rollers respectively.
In a preferred embodiment of the present invention, the tarpaulin assembly comprises: 2 draw step motor, 2 second couplings, second connecting axle, granny rag guide rail, second hold-in range, clamp plate and clamp plate cylinder, 2 draw between the step motor to be connected through 2 second couplings and 1 second connecting axle, every draw step motor one side to be provided with the granny rag guide rail, be provided with the second hold-in range on the granny rag guide rail, the second hold-in range is connected with the step motor transmission that draws that corresponds respectively, the clamp plate sets up respectively in 2 second hold-in ranges tops, be provided with the clamp plate cylinder that a plurality of control clamp plate compressed tightly on the clamp plate.
In a preferred embodiment of the present invention, the step-moving assembly comprises: the automatic walking machine comprises a walking frame, a walking cylinder, a cross rod and a cross rod cylinder, wherein the walking cylinder is connected with the walking frame, the cross rod is arranged on the walking frame in a sliding mode, the cross rod cylinder is fixedly arranged on the walking frame, the output end of the cross rod cylinder is connected with the cross rod, and a plurality of suckers are arranged on the cross rod.
In a preferred embodiment of the present invention, the timing belt conveying mechanism includes: the large belt winding direction is arranged on the single-groove roller wheel, the single-groove tensioning wheel, the double-row synchronous wheel, the double-groove tensioning wheel, the double-groove roller wheel, the single-groove small belt tensioning wheel, the single-groove small belt roller wheel and the front cloth pressing wheel, the small belt winding direction is arranged on the single-groove roller wheel, the single-groove tensioning wheel, the double-row synchronous wheel, the double-groove tensioning wheel, the double-groove roller wheel and the front cloth pressing wheel, the small belt winding direction is arranged on the single-groove small belt roller wheel, the single-groove small belt tensioning wheel, the double-row synchronous wheel, the double-groove tensioning wheel, the front cloth pressing wheel and the double-groove roller wheel, a plurality of double rows of presser feet and a plurality of single rows of presser feet are arranged at the bottom of the integrated assembly plate, an active motor in transmission connection with the large belt is installed at one end of the integrated assembly plate, and a pressing cylinder for controlling the front cloth pressing wheel to press down is.
In a preferred embodiment of the present invention, the tangent thermal bonding mechanism comprises: 2 tangent line cylinders, a cutter, an alloy steel sheet, a mobile motor guide wheel, a mobile motor power wheel, a third synchronous belt, a cylinder mobile motor, an ultrasonic vibrator, a tangent line board, an edge suction device, a CCD camera and an assembly plate, wherein the cylinder mobile motor is fixedly arranged at one end of the assembly plate, an output shaft of the cylinder mobile motor is in transmission connection with the 2 tangent line cylinders, the cutter is arranged at the output end of each tangent line cylinder, the alloy steel sheet is fixedly arranged on the cutter, the mobile motor is arranged at the other end of the assembly plate, the output end of the mobile motor is connected with the mobile motor power wheel, the mobile motor guide wheels are provided with a plurality of third synchronous belts and are arranged on the mobile motor guide wheel and the mobile motor power wheel, the tangent line board is arranged below the cutter, and the ultrasonic vibrator is arranged below the tangent line board, and a CCD camera is arranged on one side of the tangent plate, and an edge suction device is arranged on the other side of the tangent plate.
In a preferred embodiment of the present invention, the conveying mechanism includes: a conveying frame, a first conveying roller, a second conveying roller, a conveying motor, a conveying driving wheel, a conveying driven wheel, a third coupling, a fourth synchronous belt and a conveying belt, one end of the conveying frame is provided with a plurality of first conveying rollers, the other end of the conveying frame is provided with a plurality of second conveying rollers corresponding to the first conveying rollers, two adjacent second conveying rollers are connected through a third coupler, the conveying frame is provided with a conveying motor and is arranged on one side of a second conveying roller on the outermost side, the output end of the conveying motor is provided with a conveying driving wheel, the conveying driven wheel is connected with a second conveying roller at the outermost side, the conveying driving wheel is in transmission connection with the conveying driven wheel through a fourth synchronous belt, the conveying belt is wound to the first conveying roller and the second conveying roller, and a plurality of mounting fixing seats are arranged at the bottom of the conveying frame.
In a preferred embodiment of the present invention, the label delivering mechanism includes: the automatic label feeding device comprises a workbench, a label disc mounting bracket, a label loosening motor, a label feeding driving wheel, a label feeding driven wheel, a fifth synchronous belt, a third conveying roller, a label folding plate cylinder, a label clamping rod cylinder, a movable cutter, a static cutter, a movable cutter motor, an eccentric plate, a left label feeding cylinder, a right label feeding cylinder, an upper label feeding cylinder, a lower label feeding cylinder, a front label feeding cylinder, a rear label feeding cylinder, a label loosening motor, a label feeding motor and a movable cutter motor, wherein the label feeding motor is arranged at the bottom of the workbench, the label feeding driving wheel is connected to the output end of the label feeding motor, the third conveying roller is arranged at the other side of the workbench, one end of the third conveying roller is connected with the label feeding driven wheel, the label feeding driving wheel and the label feeding driven wheel are in transmission connection through the fifth synchronous belt, the label, the utility model discloses a label folding machine, including folding mark board, movable cutter, eccentric plate, book mark board cylinder, book mark board, folding mark board's bottom is connected with the output of folding mark board cylinder, it is provided with and presss from both sides the sighting rod to roll over mark board one side, the one end that presss from both sides the sighting rod is connected with and presss from both sides the sighting rod cylinder, it is provided with movable cutter to press from both sides sighting rod one side, it is connected with the movable cutter through the cooperation of eccentric plate to move the cutter motor, it is provided with quiet cutter to move the cutter below correspondence, it send the mark cylinder to press from both.
In a preferred embodiment of the present invention, the worktable is further provided with a color mark sensor, one side of the color mark sensor is provided with a color mark pressing plate, and two ends of the movable cutting knife are connected with linear bearings for guiding the movable cutting knife when the movable cutting knife moves up and down.
The invention has the beneficial effects that: the intelligent automatic double-side jacquard overedging equipment provided by the invention has high automation degree, can adapt to the production of conventional product specifications and ultra-large cloth, can simultaneously produce products with different fabrics and specifications on the left side and the right side, and can perform ordinary overedging and jacquard overedging on the sewn edges of the cloth.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:
FIG. 1 is a schematic structural diagram of an intelligent automatic double-side jacquard overedger of the present invention;
FIG. 2 is a schematic structural view of the mainframe of FIG. 1;
FIG. 3 is a schematic view of the sub-frame of FIG. 1;
FIG. 4 is a schematic structural view of the overedger;
FIG. 5 is an enlarged view of portion A of FIG. 4;
FIG. 6 is a schematic view of the output shaft of the motor of the sewing machine;
FIG. 7 is a schematic view of the structure of the cloth;
FIG. 8 is a schematic structural view of a disc cutter mechanism;
FIG. 9 is a schematic view of another side of the disc cutter mechanism;
FIG. 10 is a schematic view of a construction of a tenter assembly;
FIG. 11 is a schematic view of the step-moving assembly;
FIG. 12 is a schematic view of the timing belt conveying mechanism;
FIG. 13 is an exploded view of a timing belt feed mechanism;
FIG. 14 is a schematic view of a tangential thermal bonding mechanism;
FIG. 15 is a schematic view of the tangent line hot-bonding mechanism;
fig. 16 is an enlarged view of portion B of fig. 15;
FIG. 17 is a schematic view of the structure of the conveying mechanism;
FIG. 18 is a schematic structural view of the label feeding mechanism;
fig. 19 is a schematic view of a bobbin structure.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.
Referring to fig. 1-3, an embodiment of the present invention includes:
an intelligent automatic double-sided jacquard overedger comprising: a disc cutter mechanism 1, a main frame 2 connected with the disc cutter mechanism 1, an auxiliary frame 3 respectively connected with the two sides of the main frame 2 and arranged in a mirror image manner, a cloth pulling assembly body 4 is arranged on the main frame 2, the left end and the right end of the main frame 2 are respectively provided with a step moving assembly body 5, the front end and the rear end of each auxiliary frame 3 are respectively provided with a overedger 6, a synchronous belt conveying mechanism 7, a thread frame 8 and a tangent line hot sticking mechanism 9 in a mirror image manner, the synchronous belt conveying mechanism 7 is arranged at one side of the overedger 6, the thread stand 8 is arranged at the upper side of the overedger 6, the tangent line hot sticking mechanism 9 is arranged at one side of the synchronous belt conveying mechanism 7, the auxiliary frame 3 is provided with a conveying mechanism 10, and the conveying mechanism 10 is arranged between the two synchronous belt conveying mechanisms 7, the auxiliary frame 3 is further provided with a label feeding mechanism 11, and the label feeding mechanism 11 is arranged at one end close to the disc cutter mechanism 1.
Referring to fig. 4 to 7, the overedger 6 comprises: the cam jacquard mechanism 602 is connected with the upper end of the machine head 601, and the cam jacquard mechanism 602 comprises: the servo motor 603, a first coupling (not shown), an output shaft 604, a cam 605, a guide post 606, a first spring 607, a second spring 608, a wire clamping sheet 609, an adjusting rod 610, a mounting plate 611 and a wire passing plate 612.
The servo motor 603 is connected to an output shaft 604 through a first coupling (not shown), the output shaft 604 is provided with a plurality of cams 605 at different angles, each cam 605 abuts against a corresponding guide post 606, a groove for a thread to pass through is formed in each guide post 606, the first spring 607 is sleeved on each guide post 606, one end of each first spring 607, which is close to a mounting plate 611, abuts against a thread clamping piece 609, the mounting plate 611 is provided with a plurality of adjusting rods 610 corresponding to the guide posts 606, the second spring 608 is arranged in inner holes of the adjusting rods 610, one end of each second spring 608, which is close to the mounting plate 611, abuts against the thread clamping piece 609, the thread passing plate 612 is arranged at one end of the mounting plate 611, a top cover 613 is arranged at the top of the machine head 601, a thread clamping device 614 is arranged on the top cover 613, and the cam jacquard mechanism 602 is arranged in the top cover 614.
When the cloth edge is overedged, the thread passes through the groove of the guide post 606, the thread passing through the guide post 606 is tightly clamped by the acting force of the first spring 607 and the second spring 608 on the thread clamping piece 609, the orientation angles of the plurality of cams 605 are respectively designed because the guide post 606 is abutted to the cam 605, the cam 605 is driven by the servo motor 603, the corresponding guide posts 606 are upwards lifted and downwards pressed, the thread clamping piece 609 is tightly clamped during lifting, the thread clamping piece 609 is loosened during downwards pressing, and thus the corrugated lace overedged seam is generated, and the integral style and the attractiveness of a product are improved.
In this embodiment, the output shaft 604 is driven to rotate by the servo motor 603, and the output shaft 604 is driven to rotate by the driving pulley b (shown in fig. 6) matched with the sewing machine motor a of the machine head according to different speed ratios (controlled by the PLC), so that various patterns with different pattern lengths, pattern widths and densities (shown in fig. 7) can be produced.
Referring to fig. 8 to 9, the disc cutter mechanism 1 includes: the cloth feeding frame 102 is transversely arranged at the front end of the cutter frame 101, the disc cutter 103 is arranged at the upper end of the cutter frame 101, the cloth supporting plate 104 and the cloth pressing plate 105 are correspondingly arranged at the rear end of the cutter frame 101, the cloth pressing cylinders 107 for controlling the cloth pressing plate 105 to press downwards are arranged at two ends of the cloth pressing plate 15, and the cloth supporting cylinder 106 for controlling the cloth supporting plate 104 to lift upwards is arranged at the bottom surface of the cloth supporting plate 104.
The disc cutter 103 includes: the cutting device comprises a left fixing plate 108, a right fixing plate 109, a power motor 110, a synchronous power wheel 111, a synchronous driven wheel 112, a first synchronous belt 113, a guide rail 114, a guide rail slider 115, a rotating shaft 116, a first connecting shaft 117, a rotating cylinder 118, a cutter motor 119, a cutter motor fixing seat 120, a bed knife 121 and a circular cutter 122.
The left fixing plate 108 and the right fixing plate 109 are respectively fixedly arranged at the left end and the right end of the cutter frame 101, the power motor 110 is fixedly arranged on the right fixing plate 109 and connected with the synchronous power wheel 111, the synchronous driven wheel 112 is fixedly arranged on the left fixing plate 108, the first synchronous belt 113 is wound on the synchronous power wheel 111 and the synchronous driven wheel 112, the guide rail 114 is arranged between the left fixing plate 108 and the right fixing plate 109, the guide rail sliding block 115 is slidably connected on the guide rail 114, the guide rail sliding block 115 moves left and right in two directions within the length range of the guide rail 114, the lower end of the guide rail sliding block 115 is connected with a cutter motor fixing seat 120 through a rotating shaft 116, a cutter motor 119 is fixedly arranged on the cutter motor fixing seat 120, the circular cutter 122 is connected with the cutter motor 119 through a first connecting shaft 117, and the bottom cutter 121 is transversely arranged below the circular cutter 122, the rotary cylinder 118 for adjusting the angle of the circular cutter 122 is arranged on one side of the cutter motor fixing seat 120, and the circular cutter 122 is always attached to the bed knife 121 when the circular cutter 122 moves in two directions by adjusting the angle of the circular cutter 122.
The cloth feeding frame 102 adopts a double-layer structure, two pieces of cloth can be fed simultaneously and can be produced simultaneously, the cloth feeding frame 102 comprises cloth guide frame supports 102a, cloth guide rollers 102b and cloth blocking wheels 102c, the cloth guide frame supports 102a are symmetrically arranged on the left side and the right side of the upper end of the cutter frame 101 respectively, the cloth guide rollers 102b are arranged between the cloth guide frame supports 102a in a double-row multi-row mode respectively, the cloth blocking wheels 102c are sleeved on the cloth guide rollers 102b respectively, the tension of the cloth is increased when the cloth is fed, the cloth is prevented from deforming, and the anti-wrinkle effect is achieved.
Referring to fig. 10, the tenter assembly 4 includes: 2 draw step motor 401, 2 second shaft coupling 402, second connecting axle 403, draw cloth guide rail 404, second hold-in range 405, clamp plate 406 and clamp plate cylinder 407, 2 draw between the step motor 401 to be connected through 2 second shaft coupling 402 and 1 second connecting axle 403, every draw step motor 401 one side to be provided with and draw cloth guide rail 404, be provided with second hold-in range 405 on drawing cloth guide rail 404, second hold-in range 405 is connected with the step motor 401 transmission that draws that corresponds respectively, clamp plate 406 sets up respectively in 2 second hold-in ranges 405 top, be provided with the clamp plate cylinder 407 that a plurality of control clamp plate 406 compressed tightly on the clamp plate 406. When the cloth is pulled, the cloth pulling assembly body 4 can adapt to the whole cloth with single width of 160 CM and double width of 80CM, and the single width and double width can be lengthened to 230 CM, and also can simultaneously produce the cloth with different widths and different lengths (for example, the left side is 80CM wide by 120CM long, and the right side is 50CM wide by 180CM long).
Referring to fig. 11, the step-moving assembly 5 includes: the walking frame 501, the cylinder 502 that steps, horizontal pole 503 and horizontal pole cylinder 504, the cylinder 502 that steps is connected with the frame 501 that steps, horizontal pole 503 slides and sets up on the frame 501 that steps, horizontal pole cylinder 504 is fixed to be set up on the frame 501 that steps, the output of horizontal pole cylinder 504 is connected with horizontal pole 503, be provided with a plurality of sucking discs 505 on the horizontal pole 503.
Referring to fig. 12 to 13, the timing belt conveying mechanism 7 includes: the cloth pressing device comprises a large belt 701, a small belt 702, an integrated assembly plate 703, a single-groove roller 704, a single-groove tensioning wheel 705, a double-row synchronous wheel 706, a double-groove tensioning wheel 707, a double-groove roller 708, a single-groove small belt tensioning wheel 709, a single-groove small belt roller 710 and a front cloth pressing wheel 711 which are arranged on the integrated assembly plate 703.
The large belt 701 is arranged on a single-groove roller 704, a single-groove tensioning wheel 705, a double-row synchronous wheel 706, a double-groove tensioning wheel 707, a double-groove roller 708 and a front cloth pressing wheel 711 in a winding direction, the small belt 702 is arranged on a single-groove small belt roller 710, a single-groove small belt tensioning wheel 709, a double-row synchronous wheel 706, a double-groove tensioning wheel 707, a front cloth pressing wheel 711 and a double-groove roller 708 in a winding direction, a plurality of double-row press feet 712 and a plurality of single-row press feet 713 are arranged at the bottom of the integrated assembly plate 703, an active motor 714 in transmission connection with the large belt 701 is installed at one end of the integrated assembly plate 703, and a pressing cylinder 715 for controlling the front cloth pressing wheel 711 to press down is arranged above the front cloth pressing wheel 711. Through setting up big belt 701 and little belt 702, the label of adaptable different size and different materials is carried and is cooperated to make up.
Referring to fig. 14-16, the tangent thermal bonding mechanism 9 includes: 2 tangent cylinders 901, a cutter 902, an alloy steel sheet 903, a moving motor 904, a moving motor guide wheel 905, a moving motor power wheel (not shown), a third synchronous belt 906, a cylinder moving motor 907, an ultrasonic vibrator 908, a tangent plate 909, an edge sucker 910, a CCD camera 911 and an assembly plate 912.
The cylinder moving motor 907 is fixedly installed at one end of the assembling plate 912, an output shaft of the cylinder moving motor 907 is in transmission connection with 2 tangent cylinders 901, a cutter 902 is installed at an output end of each tangent cylinder 901, the alloy steel sheet 903 is fixedly arranged on the cutting knife 902, the moving motor 904 is arranged at the other end of the assembling plate 912, the output end of the moving motor 904 is connected with a moving motor power wheel (not shown), the moving motor guide wheels 905 are provided in plurality and are installed on the assembly plate 912, the third timing belt 906 is wound around a moving motor guide wheel 905 and a moving motor power wheel (not shown), the cutting plate 909 is disposed below the cutter 902, the ultrasonic vibrator 908 is disposed below the cutting plate 909, a CCD camera 911 is provided at one side of the wire cutting plate 909, and an edge suction device 910 is provided at the other side of the wire cutting plate 909. When entering the subsequent steps, because the edges of two adjacent fabrics c are connected through the connecting line d, the connecting line d needs to be cut through the cutter 902, when the two adjacent fabrics c are conveyed to the appointed position of the cutting board 909, at this time, the CCD camera 911 works to transmit the shot signal to the controller, the controller controls 2 cutting cylinders 901 to work respectively, wherein one cutting cylinder 901 pushes the cutter 902 downwards, the alloy steel sheet 903 on the cutter 902 contacts with the fabric c first to press the fabric, the alloy steel sheet 903 makes the ultrasonic vibrator 908 under the cutter 902 generate vibration waves to generate a hot melting effect, the cutter 902 cuts one end of the connecting line d, the cut line is thermally adhered through the hot melting effect generated by the ultrasonic vibrator 908, the other cutting cylinder 901 cuts the other end of the connecting line d through the steps, and the cut line is thermally adhered through the hot melting effect generated by the ultrasonic vibrator 908, after the cutting by the cutter 902 twice, the connecting line d between two adjacent fabrics c is completely cut, and the two adjacent fabrics c are separated.
Referring to fig. 17, the conveying mechanism 10 includes: a conveying frame 1001, a first conveying roller 1002, a second conveying roller 1003, a conveying motor 1004, a conveying capstan 1005, a conveying driven wheel 1006, a third coupler 1007, a fourth timing belt 1008, and a conveying belt 1009.
One end of the conveying frame 1001 is provided with a plurality of first conveying rollers 1002, the other end of the conveying frame 1001 is provided with a plurality of second conveying rollers 1003 corresponding to the first conveying rollers 1002, two adjacent second conveying rollers 1003 are connected through a third coupling 1007, the conveying frame 1001 is provided with a conveying motor 1004 and is arranged on one side of the outermost second conveying roller 1003, the output end of the conveying motor 1004 is provided with a conveying driving wheel 1005, the conveying driven wheel 1006 is connected with the outermost second conveying roller 1003, the conveying driving wheel 1005 and the conveying driven wheel 1006 are in transmission connection through a fourth synchronous belt 1008, the conveying belt 1009 is wound around the first conveying roller 1002 and the second conveying roller 1003, and the bottom of the conveying frame 1001 is provided with a plurality of mounting bases 1010.
Referring to fig. 18, the marking mechanism 11 includes: the automatic label feeding device comprises a workbench 1101, a label disc mounting bracket 1102, a label loosening motor 1103, a label feeding motor 1104, a label feeding driving wheel 1105, a label feeding driven wheel 1106, a fifth synchronous belt 1107, a third conveying roller 1108, a label folding plate 1109, a label folding plate air cylinder 1110, a label clamping rod 1112, a label clamping rod air cylinder 1113, a movable cutter 1114, a static cutter 1115, a movable cutter motor 1116, an eccentric plate 1117, a left label feeding air cylinder 1118, a right label feeding air cylinder 1119, and a front label feeding air cylinder 1120 and a rear label feeding air cylinder.
A label disc mounting bracket 1102 is mounted on one side of the workbench 1101, a label loosening motor 1103 is arranged on the label disc mounting bracket 1102, a label feeding motor 1104 and a movable cutter motor 1116 are mounted at the bottom of the workbench 1101, an output end of the label feeding motor 1104 is connected with a label feeding driving wheel 1105, a third conveying roller 1108 is arranged on the other side of the workbench 1101, one end of the third conveying roller 1108 is connected with a label feeding driven wheel 1106, the label feeding driving wheel 1105 is in transmission connection with the label feeding driven wheel 1106 through a fifth synchronous belt 1107, a label folding plate 1109 is arranged on one side of the third conveying roller 1108, the bottom of the label folding plate 1109 is connected with an output end of a label folding plate cylinder 1110, a label clamping rod 1112 is arranged on one side of the label clamping rod 1109, one end of the label clamping rod 1112 is connected with a label clamping rod cylinder 1113, a movable cutter 1114 is arranged on one side of the label clamping rod 1112, and the movable cutter motor is connected with the movable cutter 1114 through the matching 1116 of, the label cutting machine is characterized in that a static cutter 1115 is correspondingly arranged below the movable cutter 1114, two ends of the movable cutter 1114 are connected with a linear bearing 1123 used for guiding the movable cutter 1114 during up-and-down movement of the movable cutter 1114, the movable cutter motor 1116 drives the movable cutter 1114 to move along the linear bearing 1123, and a label is cut off through the matching of the movable cutter 1114 and the static cutter 1115.
The upper end of the mark clamping rod cylinder 1113 is connected with a left mark feeding cylinder 1118 and a right mark feeding cylinder 1118, one side of the left mark feeding cylinder 1118 and the right mark feeding cylinder 1118 is connected with a front mark feeding cylinder 1120 and the lower end of the front mark feeding cylinder 1120 is connected with a top mark feeding cylinder 1119 and a lower mark feeding cylinder 1119. A color mark sensor 1121 is further disposed on the working table 1101, and a color mark plate 1122 is disposed on one side of the color mark sensor 1121. The third conveying roller 1108 is driven by the label feeding motor 1104 to feed labels to the label folding plate 1109, the label folding plate cylinder 1110 pushes the label folding plate 1109 to press down the head of the labels, at the moment, the label feeding motor 1104 continues to drive the third conveying roller 1108 to roll, the labels are continuously conveyed, the labels are bent and conveyed due to the fact that the head of the labels is pressed, two layers which are folded up and down are formed, the label clamping rod 1112 clamps the labels through the label clamping rod cylinder 1113, the upper end of the label clamping rod cylinder 1113 is connected with the left label feeding cylinder 1118, the left label feeding cylinder 1118 and the right label feeding cylinder 1118 are connected on one side of the left label feeding cylinder and the right label feeding cylinder 1118, the upper label feeding cylinder and the lower label feeding cylinder 1119 are connected at the lower end of the front label feeding cylinder 1120, and the moving direction of the label clamping rod 1112 can be controlled through the left label feeding cylinder 1118, the upper label feeding cylinder 1119, the lower label feeding cylinder.
Referring to fig. 19, a plurality of infrared ray breakage sensors 8a are disposed on the bobbin 8.
The working principle is as follows: in specific implementation, after the cloth enters the cloth feeding frame 102, the disc cutter 103 cuts the clamped cloth, the cloth pulling assembly body 4 moves forward to pull the cut cloth and move back, when the cloth is moved to a proper position, the cloth is loosened, the moving assembly body 5 moves the loosened cloth to the left side and the right side of the main frame 2 respectively and moves the cloth to the auxiliary frame 3, the label feeding mechanism 11 on the auxiliary frame 3 transfers a label to a designated position on the cloth, the conveying mechanism 10 moves the cloth with the label to the synchronous belt conveying mechanism 7, the synchronous belt conveying mechanism 7 compresses and conveys the edge of the cloth to the overedger 6, the overedger 6 performs jacquard overedging on the edge of the cloth, the cloth is transferred to the tangent line thermal bonding mechanism 9 after the overedging is finished, the connecting line of two adjacent cloth is cut through the tangent line thermal bonding mechanism 9, and the cut line on the cloth is thermally bonded.
In conclusion, the intelligent automatic double-side jacquard overedger provided by the invention has high automation degree, can adapt to the production of conventional product specifications and ultra-large cloth, can simultaneously produce products with different fabrics and specifications on the left side and the right side, and can perform ordinary overedging and jacquard overedging on the edges of the cloth.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An intelligent automatic double-side jacquard overedger, comprising: the sewing machine comprises a disc cutter mechanism, a main frame connected with the disc cutter mechanism, and auxiliary frames respectively connected to two sides of the main frame and arranged in a mirror image manner, wherein a cloth pulling assembly body is arranged on the main frame, step moving assembly bodies are respectively arranged at the left end and the right end of the main frame, a overedging machine, a synchronous belt conveying mechanism, a wire frame and a tangent line thermal bonding mechanism are respectively arranged at the front end and the rear end of each auxiliary frame in a mirror image manner, the synchronous belt conveying mechanism is arranged on one side of the overedging machine, the wire frame is arranged on the upper side of the overedging machine, the tangent line thermal bonding mechanism is arranged on one side of the synchronous belt conveying mechanism, a conveying mechanism is arranged on the auxiliary frame, the conveying mechanism is arranged between the two synchronous belt conveying mechanisms, a label conveying mechanism is further arranged on the;
the overedger includes: the aircraft nose and with the cam jacquard mechanism that the aircraft nose upper end is connected, cam jacquard mechanism includes: servo motor, first shaft coupling, output shaft, cam, guide pillar, first spring, second spring, trapping mechanism, regulation pole, mounting panel and cross the line board, servo motor is through first shaft coupling and output shaft connection, be provided with the cam of the different angle of a plurality of on the output shaft, every the cam and the guide pillar butt that corresponds, first spring housing is established on the guide pillar, first spring has the trapping mechanism at the one end butt that is close to the mounting panel, be provided with the regulation pole that a plurality of and guide pillar correspond on the mounting panel, the second spring sets up in the inner hole of adjusting the pole, the second spring is at the one end and the trapping mechanism butt that are close to the mounting panel, cross the line board and set up the one end at the mounting panel, the aircraft nose top is provided with the top cap, be provided with the trapping mechanism on the top cap, cam jacquard mechanism sets up in the top cap.
2. The intelligent automated double-sided jacquard overseam device of claim 1 wherein the disc cutter mechanism comprises: the cloth feeding frame is transversely arranged at the front end of the cutter frame, the disc cutter is arranged at the upper end of the cutter frame, the cloth supporting plate and the cloth pressing plate are correspondingly arranged up and down and are arranged at the rear end of the cutter frame, the cloth pressing cylinders for controlling the cloth pressing plate to press down are arranged at two ends of the cloth pressing plate, and the cloth supporting cylinders for controlling the cloth supporting plate to lift up are arranged on the bottom surface of the cloth supporting plate;
the disc cutter includes: the cutting machine comprises a left side fixing plate, a right side fixing plate, a power motor, a synchronous power wheel, a synchronous driven wheel, a first synchronous belt, a guide rail sliding block, a rotating shaft, a first connecting shaft, a rotating cylinder, a cutter motor fixing seat, a bed knife and a circular cutter, wherein the left side fixing plate and the right side fixing plate are respectively fixedly arranged at the left end and the right end of a cutter frame, the power motor is fixedly arranged on the right side fixing plate and connected with the synchronous power wheel, the synchronous driven wheel is fixedly arranged on the left side fixing plate, the first synchronous belt is wound on the synchronous power wheel and the synchronous driven wheel, the guide rail is arranged between the left side fixing plate and the right side fixing plate, the guide rail sliding block is connected on the guide rail in a sliding manner, the guide rail sliding block can move in a left-right, the circular cutting machine is characterized in that a cutter motor is fixedly arranged on the cutter motor fixing seat, the circular cutter is connected with the cutter motor through a first connecting shaft, the bed knife is transversely arranged below the circular cutter, and a rotary cylinder for adjusting the angle of the circular cutter is arranged on one side of the cutter motor fixing seat.
3. The intelligent automatic double-sided jacquard overedger apparatus of claim 2, wherein the cloth feeding frame comprises cloth guide frame supports, cloth guide rollers and cloth blocking wheels, the cloth guide frame supports are symmetrically arranged at the left side and the right side of the upper end of the cutter frame respectively, the cloth guide rollers are arranged between the cloth guide frame supports in double rows and multiple columns respectively, and the cloth blocking wheels are sleeved on the cloth guide rollers respectively.
4. The intelligent automated double-sided jacquard overedger apparatus of claim 1, wherein said draw assembly comprises: 2 draw step motor, 2 second couplings, 2 granny rag guide rails, second connecting axle, second hold-in range, clamp plate and clamp plate cylinder, 2 draw between the step motor to be connected through 2 second couplings and 1 second connecting axle, every draw step motor one side to be provided with the granny rag guide rail, be provided with the second hold-in range on the granny rag guide rail, the second hold-in range is connected with the step motor transmission that draws that corresponds respectively, the clamp plate sets up respectively in 2 second hold-in ranges top, be provided with the clamp plate cylinder that a plurality of control press plate compressed tightly on the clamp plate.
5. The intelligent automated double-sided jacquard overseam device of claim 1, wherein the stepping assembly comprises: the automatic walking machine comprises a walking frame, a walking cylinder, a cross rod and a cross rod cylinder, wherein the walking cylinder is connected with the walking frame, the cross rod is arranged on the walking frame in a sliding mode, the cross rod cylinder is fixedly arranged on the walking frame, the output end of the cross rod cylinder is connected with the cross rod, and a plurality of suckers are arranged on the cross rod.
6. The intelligent automated double-sided jacquard overseam device of claim 1 wherein the timing belt transport mechanism comprises: the large belt winding direction is arranged on the single-groove roller wheel, the single-groove tensioning wheel, the double-row synchronous wheel, the double-groove tensioning wheel, the double-groove roller wheel, the single-groove small belt tensioning wheel, the single-groove small belt roller wheel and the front cloth pressing wheel, the small belt winding direction is arranged on the single-groove roller wheel, the single-groove tensioning wheel, the double-row synchronous wheel, the double-groove tensioning wheel, the double-groove roller wheel and the front cloth pressing wheel, the small belt winding direction is arranged on the single-groove small belt roller wheel, the single-groove small belt tensioning wheel, the double-row synchronous wheel, the double-groove tensioning wheel, the front cloth pressing wheel and the double-groove roller wheel, a plurality of double rows of presser feet and a plurality of single rows of presser feet are arranged at the bottom of the integrated assembly plate, an active motor in transmission connection with the large belt is installed at one end of the integrated assembly plate, and a pressing cylinder for controlling the front cloth pressing wheel to press down is.
7. The intelligent automatic double-sided jacquard overedger apparatus according to claim 1, wherein said tangent thermal bonding mechanism comprises: 2 tangent line cylinders, a cutter, an alloy steel sheet, a mobile motor guide wheel, a mobile motor power wheel, a third synchronous belt, a cylinder mobile motor, an ultrasonic vibrator, a tangent line board, an edge suction device, a CCD camera and an assembly plate, wherein the cylinder mobile motor is fixedly arranged at one end of the assembly plate, an output shaft of the cylinder mobile motor is in transmission connection with the 2 tangent line cylinders, the cutter is arranged at the output end of each tangent line cylinder, the alloy steel sheet is fixedly arranged on the cutter, the mobile motor is arranged at the other end of the assembly plate, the output end of the mobile motor is connected with the mobile motor power wheel, the mobile motor guide wheels are provided with a plurality of third synchronous belts and are arranged on the mobile motor guide wheel and the mobile motor power wheel, the tangent line board is arranged below the cutter, and the ultrasonic vibrator is arranged below the tangent line board, and a CCD camera is arranged on one side of the tangent plate, and an edge suction device is arranged on the other side of the tangent plate.
8. The intelligent automated double-sided jacquard overseam device of claim 1, wherein the transport mechanism comprises: a conveying frame, a first conveying roller, a second conveying roller, a conveying motor, a conveying driving wheel, a conveying driven wheel, a third coupling, a fourth synchronous belt and a conveying belt, one end of the conveying frame is provided with a plurality of first conveying rollers, the other end of the conveying frame is provided with a plurality of second conveying rollers corresponding to the first conveying rollers, two adjacent second conveying rollers are connected through a third coupler, the conveying frame is provided with a conveying motor and is arranged on one side of a second conveying roller on the outermost side, the output end of the conveying motor is provided with a conveying driving wheel, the conveying driven wheel is connected with a second conveying roller at the outermost side, the conveying driving wheel is in transmission connection with the conveying driven wheel through a fourth synchronous belt, the conveying belt is wound to the first conveying roller and the second conveying roller, and a plurality of mounting fixing seats are arranged at the bottom of the conveying frame.
9. The intelligent automatic double-sided jacquard overedger apparatus of claim 1, wherein said label-feeding mechanism comprises: the automatic label feeding device comprises a workbench, a label disc mounting bracket, a label loosening motor, a label feeding driving wheel, a label feeding driven wheel, a fifth synchronous belt, a third conveying roller, a label folding plate cylinder, a label clamping rod cylinder, a movable cutter, a static cutter, a movable cutter motor, an eccentric plate, a left label feeding cylinder, a right label feeding cylinder, an upper label feeding cylinder, a lower label feeding cylinder, a front label feeding cylinder, a rear label feeding cylinder, a label loosening motor, a label feeding motor and a movable cutter motor, wherein the label feeding motor is arranged at the bottom of the workbench, the label feeding driving wheel is connected to the output end of the label feeding motor, the third conveying roller is arranged at the other side of the workbench, one end of the third conveying roller is connected with the label feeding driven wheel, the label feeding driving wheel and the label feeding driven wheel are in transmission connection through the fifth synchronous belt, the label, the utility model discloses a label folding machine, including folding mark board, movable cutter, eccentric plate, book mark board cylinder, book mark board, folding mark board's bottom is connected with the output of folding mark board cylinder, it is provided with and presss from both sides the sighting rod to roll over mark board one side, the one end that presss from both sides the sighting rod is connected with and presss from both sides the sighting rod cylinder, it is provided with movable cutter to press from both sides sighting rod one side, it is connected with the movable cutter through the cooperation of eccentric plate to move the cutter motor, it is provided with quiet cutter to move the cutter below correspondence, it send the mark cylinder to press from both.
10. The intelligent automatic double-sided jacquard overedger device according to claim 9, wherein a color mark sensor is further arranged on the workbench, a color mark pressing plate is arranged on one side of the color mark sensor, and linear bearings for guiding the movable cutter in the up-and-down motion are connected to two ends of the movable cutter.
CN202011102201.4A 2020-10-15 2020-10-15 Intelligent automatic double-side jacquard overlock sewing equipment Pending CN112391748A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202011102201.4A CN112391748A (en) 2020-10-15 2020-10-15 Intelligent automatic double-side jacquard overlock sewing equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202011102201.4A CN112391748A (en) 2020-10-15 2020-10-15 Intelligent automatic double-side jacquard overlock sewing equipment

Publications (1)

Publication Number Publication Date
CN112391748A true CN112391748A (en) 2021-02-23

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202011102201.4A Pending CN112391748A (en) 2020-10-15 2020-10-15 Intelligent automatic double-side jacquard overlock sewing equipment

Country Status (1)

Country Link
CN (1) CN112391748A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113564821A (en) * 2021-07-28 2021-10-29 深圳市佳兆益科技有限公司 Robot for sewing lace sample of clothes
CN113584728A (en) * 2021-07-14 2021-11-02 佛山时利和地毯有限公司 Automatic overedger

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113584728A (en) * 2021-07-14 2021-11-02 佛山时利和地毯有限公司 Automatic overedger
CN113564821A (en) * 2021-07-28 2021-10-29 深圳市佳兆益科技有限公司 Robot for sewing lace sample of clothes
CN113564821B (en) * 2021-07-28 2022-08-16 深圳市佳兆益科技有限公司 Robot for sewing lace sample of clothes

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