CN109730405B - Automatic change zip fastener and wear pull head production all-in-one - Google Patents

Abstract

The invention discloses an automatic zipper pull-through production integrated machine which comprises a machine case assembly, a panel assembly, a cutting assembly, an upper die assembly, a lower die assembly, a feeding assembly, a pull-through track assembly, a clamp assembly, a conveying belt assembly, a vibration disc assembly, a chain guide frame assembly and an outer rail assembly.

Description

Automatic change zip fastener and wear pull head production all-in-one

Technical Field

The invention belongs to the technical field of automatic equipment, and particularly relates to an automatic zipper pull head production integrated machine.

Background

The existing clothes and bags are provided with zippers, so that the clothes and bags are widely used. However, the assembly of the slider and the zipper cloth of the zipper is still performed manually, and the specific operation is as follows: the workman punches a breach on the zip fastener cloth with the drift, then penetrates the zip fastener head from the breach, then tailors into prescribed length according to the length of the zip fastener cloth that needs tailor, and the manual work is makeed mistakes easily in the assembly process, and the zip fastener head appears misplaced assembly with the zip fastener cloth and then hardly separates zip fastener head and zip fastener cloth, so the manual assembly is not only assembly efficiency low, and the rejection rate is higher moreover, has increased manufacturing cost.

The vibration disk assembly that mentions in this application has been patented, is prior art, patent No.: 2018214431980.

the outer rail subassembly that mentions in this application is the purchasing piece, supplier: the Dongguan Michael precision machinery Co., ltd, the collection and supply list includes: MJ60 outer rail assembly, 14-14 diaphragm coupling, 14-19 diaphragm coupling.

Disclosure of Invention

The invention provides an automatic zipper pull head production integrated machine, which aims to solve the technical problems in the background technology.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides an automatic change zip fastener and wear pull head production all-in-one, includes quick-witted case subassembly, panel subassembly, cuts off the subassembly, goes up mould subassembly, lower mould subassembly, pay-off subassembly, pull head track subassembly, anchor clamps subassembly, conveyer belt subassembly, vibration dish subassembly, chain guide frame subassembly and outer rail subassembly, quick-witted case subassembly comprises little quick-witted case and big quick-witted case, little quick-witted case and big quick-witted case fastening connection, panel subassembly and little quick-witted case upper end fastening connection, cut off subassembly and panel subassembly upper end fastening connection, go up mould subassembly and cutting off subassembly side top fastening connection, lower mould subassembly and cutting off subassembly side below fastening connection, pay-off subassembly and panel subassembly upper end fastening connection, pull head track subassembly lower extreme and panel subassembly upper end fastening connection, pull head track subassembly upper end and vibration dish subassembly connection, anchor clamps subassembly and outer rail subassembly sliding connection, conveyer belt subassembly and quick-witted case subassembly fastening connection, vibration dish subassembly and panel subassembly upper end fastening connection, chain guide frame subassembly and panel subassembly upper end fastening connection.

Preferably, a protective cover is arranged above the large case, an organic glass fixing plate is arranged on the protective cover, and a connecting chain bucket is arranged on the front side of the large case.

Preferably, the panel assembly comprises panel, pole setting base, pole setting upper seat, display screen cover and no material induction system, panel and little quick-witted case upper end fastening connection, pole setting base and panel top fastening connection, pole setting lower extreme and pole setting base fastening connection, pole setting upper seat and pole setting upper end fastening connection, display screen cover and pole setting upper seat fastening connection, no material induction system and panel fastening connection.

Preferably, the cutting assembly comprises a large sliding box, a sliding box bottom plate, a cutting cylinder connecting block, a cutting sliding block, a cutting upper knife, a cutting lower knife, a guide plate adjusting plate, a dovetail plate, a lower guide plate, a cylinder connecting plate, an upper guide plate, a belt pressing cylinder plate, a chain feeding cylinder connector, a cutting cylinder, a chain feeding cylinder and a chain pressing cylinder.

Preferably, the upper die assembly comprises a slide cover plate, an upper die seat, an inclined support plate, an upper die mounting plate, an induction seat, a spring cover plate, a pull head upper die, a guide rod seat, an induction pin, a guide plate adjusting block and a die front pressing chain plate, the upper die seat is in fastening connection with the slide cover plate, the inclined support plate is respectively in fastening connection with the slide cover plate and the upper die seat, the upper die mounting plate is in fastening connection with the upper die seat, the induction seat is in fastening connection with the upper die mounting plate, the spring cover plate is in fastening connection with the pull head upper die, the guide rod seat is in fastening connection with the side surface of the front end of the upper die seat, the induction pin penetrates through the pull head upper die and can be reset by a reset spring, the guide plate is in fastening connection with the lower end surface of the guide plate adjusting block and the upper die seat, and the front pressing chain plate is in fastening connection with the side surface of the pull head upper die.

Preferably, the lower die assembly comprises a lower die main seat, a lower die movable block, a pull head die A, a pull head die B, a connecting block, a combined chain plate, a pull head baffle, a crochet hook fixing plate, a crochet hook spring plate, a lower air cylinder plate, a lower die air cylinder connecting block, a limiting block and a partition plate, wherein the lower die main seat is fixedly connected with the lower end of a cutting assembly, a first guide rail is arranged on the lower die main seat, a first slider is arranged on the first guide rail in a sliding manner, the lower die movable block is fixedly connected with the first slider, the pull head die A is fixedly connected with the middle of the side surface of the lower die movable block, the pull head die B is fixedly connected with the middle of the upper end of the lower die movable block through bolts, the combined chain plate is fixedly connected with the upper end of the side surface of the pull head die A, the pull head baffle is fixedly connected with the center of the upper end of the pull head die A, the crochet hook fixing plate is fixedly connected with the bottom of the side surface of the pull head die B, the crochet hook is hinged with the crochet hook fixing plate, the crochet hook is provided with the hook plate is fixedly connected with the side surface of the lower die B, the hook plate is provided with the side surface of the cylinder die B, the hook plate is fixedly connected with the side surface of the cylinder die B, the side surface of the cylinder is fixedly connected with the cylinder die B, and the top end of the cylinder is fixedly connected with the cylinder plate is fixedly connected with the cylinder end of the cylinder B.

Preferably, the feeding assembly comprises a feeding assembly vertical plate, a feeding assembly bottom plate, a feeding assembly baffle slide block, a baffle spring plate, a feeding pull plate baffle plate, a baffle plate limiting plate, a baffle plate cover plate, a feeding pull head die A, a feeding pull head die B, a feeding pull head steel sheet, a pushing cylinder connecting plate, a feeding pull head cylinder seat, a feeding limiting plate, a small limiting block and a feeding pull head steel sheet pressing plate, the feeding assembly bottom plate is fixedly connected with the panel assembly, the feeding assembly vertical plate is fixedly connected with the feeding assembly bottom plate, a guide rail II is arranged on the feeding assembly vertical plate, a slide block II is arranged on the guide rail II in a sliding manner, the feeding assembly baffle plate slide block is fixedly connected with the slide block II, the baffle plate spring plate is fixedly connected with the middle part of the feeding assembly baffle plate, the feeding pull plate baffle plate is fixedly connected with the baffle plate spring plate, the baffle plate cover plate is fixedly connected with the feeding assembly baffle plate, the feeding pull head die A is fixedly connected with the front end of the feeding assembly steel sheet, the feeding pull head die B is hinged with the feeding assembly bottom plate die A, the feeding assembly bottom plate is fixedly connected with the feeding cylinder seat, the feeding cylinder end is fixedly connected with the feeding cylinder end, and the end is tightly connected with the feeding cylinder end of the feeding cylinder die A.

Preferably, the pull head track assembly comprises a pull head track, a track steel sheet, a guide rail seat, a spring seat, a pressing rod, a small steel sheet pressing plate, a slide seat cushion block, a pushing rod sliding box, a pushing clamp, a pushing plate baffle plate, a connecting block, a pull head limiting block, an 'I' -shaped buckle, a first mounting plate, a second mounting plate, a first vertical rod, a connecting plate, a first angle plate, a second angle plate and a third mounting plate, the second mounting plate is fixedly connected with the panel assembly, the first mounting plate is fixedly connected with the second mounting plate, the guide rail seat is fixedly connected with the first mounting plate, the third mounting plate is fixedly connected with the third mounting plate, the lower end of the vertical rod is fixedly connected with the first angle plate, the first connecting plate is fixedly connected with the second angle plate, the upper end of the rail is pressed with the pull head track steel, the lower end of the pull head track is positioned at the upper end of the guide rail seat cushion block, the sliding box is pressed on the guide rail seat, the sliding rod is slidably connected with the pushing rod sliding box, the first mounting plate is fixedly connected with the end of the pushing rod, the small steel sheet is tightly pressed on the end of the guide rail seat, the pushing clamp is tightly connected with the small steel sheet through the pressing rod, and the pressing plate is tightly connected with the end of the pressing plate.

Preferably, the fixture assembly comprises a fixture group upper plate, a fixture group lower plate, a fixture group inner plate, a fixture group outer plate, a fixture seat, an upper fixture, a lower fixture, a fixture ejector block, an ejector block connecting block, a positioning pin, a fixture group fixing plate, a fixture pin, a swing bearing fixing block, a swing bearing pin and a fixture positioning pin, wherein the fixture group fixing plate is connected with a synchronous belt in the outer rail assembly, the fixture group inner plate, the fixture group outer plate upper end and the lower end are respectively and fixedly connected with the fixture group upper plate and the fixture group lower plate, the fixture seat is hinged with the fixture group upper plate and the fixture group lower plate through the positioning pin, the upper fixture and the lower fixture are respectively hinged with the fixture seat side wall through the fixture pin, two ejector block cylinders are arranged behind the fixture seat, the fixture ejector block is connected with the ejector block cylinder rod end part of the ejector block connecting block, the swing bearing fixing block is fixedly connected with the fixture seat upper end, the swing bearing fixing block is provided with a swing bearing, and the swing bearing pin passes through the swing bearing, and the fixture positioning pin is embedded between the fixture group fixing plate and the fixture group inner plate.

Preferably, the conveyer belt subassembly comprises conveyer belt left side board, conveyer belt right side board, conveyer belt stock, driven stock, conveying fixed stay, conveyer belt motor plate, adjusting screw and conveying motor, conveyer belt left side board and conveyer belt right side board all with big quick-witted case fastening connection, conveyer belt stock one end rotates with conveyer belt left side board one end to be connected, and conveyer belt stock other end rotates with conveyer belt right side board one end to be connected, driven stock one end rotates with conveyer belt left side board other end to be connected, and driven stock other end rotates with conveyer belt right side board other end to be connected, conveyer belt fixed stay both ends respectively with conveyer belt left side board and conveyer belt right side board fastening connection, conveyer belt cover is on conveyer belt stock and driven stock, conveyer belt motor plate and conveyer belt right side board lower extreme fastening connection, adjusting screw twists in driven stock end portion, conveyer motor and conveyer belt motor plate fastening connection, conveyer belt stock end is equipped with one, is equipped with two on the conveyer motor's output shaft, and sprocket is connected with two.

Preferably, the chain guide frame assembly comprises a corner seat, an inclined beam, a side fixing plate, a bottom plate, an inclined pressing plate, a pin shaft, a first spool, a second spool, a third spool and a fourth spool, wherein the corner seat is fixedly connected with the panel assembly, the lower end of the inclined beam is fixedly connected with the corner seat, the side fixing plate is connected with the middle part of the inclined beam, the bottom plate is connected with the side fixing plate in a clamping manner, the inclined pressing plate is rotationally connected through the pin shaft, a torsion spring is sleeved on the pin shaft, one end of the torsion spring is connected with the side fixing plate, the other end of the torsion spring is connected with the inclined pressing plate, the first spool is rotationally connected with the top end of the inclined beam, the second spool is arranged below the first spool and rotationally connected with the inclined beam, the third spool is arranged below the second spool and rotationally connected with the inclined beam, and the fourth spool is arranged at the lower end of the side fixing plate and rotationally connected with the inclined beam.

The beneficial effects of adopting above technical scheme are:

1. the zipper cloth is fed forward step by a mechanism for feeding the zipper cloth behind the cutting assembly, so that the zipper cloth of the zipper cloth can be output to a head part which can be clamped by the clamp assembly to realize the conveying of the zipper cloth, in addition, the zipper head in the vibration disc assembly is conveyed to the second angle plate along with the vibration of the vibration disc, then slides down from the middle of the rail steel sheet and can be caught by the pushing clamp, so that the zipper head can be separated from the rail steel sheet, then enters a feeding zipper head die A and a feeding zipper head die B in the feeding assembly, then is pushed forward by a feeding cylinder in the feeding assembly, so that the blocking piece slider of the feeding assembly moves forward to the upper part of the lower die assembly along the second guide rail together with the feeding zipper head die A and the feeding zipper head die B, then is pushed up by the small cylinder to enable the zipper head to fall into the zipper head die A and the zipper head die B in the lower die assembly, then under the drive of a crochet hook cylinder, the crochet hook hooks the hand holding part of the zipper head, so that the zipper head is firmly fixed in the lower die assembly, at the moment, the piston rod of the feeding cylinder of the feeding assembly is contracted, so that the feeding zipper head die A and the feeding zipper head die B are reset, at the moment, the zipper head is adjusted to be in a state of being worn with the zipper cloth, then the clamp assembly is moved forward, the upper clamp and the lower clamp at the front end clamp both sides of the head of the zipper cloth, then the clamp assembly moves backwards with the upper clamp and the lower clamp clamping the edges of the zipper cloth head, when the upper clamp and the lower clamp move backwards to the maximum width position of the guide plate (the position of the zipper cloth is 4mm in the small opening of the zipper head), then when the clamp assembly continues to move backwards to the maximum width position of the guide plate, the upper clamp and the lower clamp are restrained by the maximum width position of the guide plate, and are opened automatically, make zipper cloth portion penetrate the pull head, then anchor clamps subassembly continue the back and move 5mm, after crossing deflector maximum width position, go up anchor clamps and lower anchor clamps and reduce towards the centre is automatic, be that zipper cloth head passes the upper end of closing the link joint, make zipper cloth portion amalgamation accomplish, then anchor clamps subassembly is according to producing the input length of zip fastener, stop after the control anchor clamps subassembly removes certain length, this automatic zipper wears pull head all-in-one, convenient operation is efficient moreover, need not manual operation, can not appear simultaneously zipper cloth and pull head and produce the waste product in the assembly process, greatly reduced the rejection rate.

2. When the zipper head enters the steel sheet of the zipper head from the vibration disc assembly, grooves which are formed in the two sides of the zipper head and used for allowing zipper cloth to penetrate through are clamped on the tracks of the steel sheet of the zipper head, so that the zipper head can stably run in the steel sheet of the zipper head, but the state of the zipper head cannot be combined with the zipper cloth at the moment, therefore, when the zipper head slides to the output end of the steel sheet of the zipper head, a piston rod of a pushed cylinder drives a pushing rod to move through an I-shaped buckle, a pull head limiting block and a connecting block, the pushing clamp at the end part of the pushing rod pushes out one of the zipper heads, then the pushing cylinder stays for 0.2 seconds, the zipper head is stably arranged in the steel sheet of the feeding zipper head in the die A and the die B of the feeding zipper head, the die B of the feeding zipper head is hinged with the die A, and the die B of the feeding zipper head is enabled to be reset by a tension spring, so that the zipper head is ensured to penetrate through the steel sheet of the feeding zipper head, the position of the steel sheet of the zipper head is stably positioned in the die A and the die B of the feeding zipper head, the slide is prevented from shifting, and the sliding to the position of the slider on the steel sheet of the zipper head is prevented, and the sliding along with the sliding block is prevented from moving forward along with the moving of the block, so that the zipper head has high failure rate and normal operation efficiency and low; in addition, the zipper head slides from the steel sheet of the zipper head and is driven by the pushing cylinder to push the material pushing card to the steel sheet of the zipper head, so that the groove card of the zipper head for the zipper cloth to penetrate through plays a role in positioning, and the outer surface of the zipper head cannot cause scratches.

3. The upper die seat is fixedly connected with the sliding seat cover plate, the inclined support plate is fixedly connected with the sliding seat cover plate and the upper die seat respectively, the upper die mounting plate is fixedly connected with the upper die seat, the induction seat is fixedly connected with the upper end of the upper die mounting plate, the spring cover plate is fixedly connected with the upper end of the pull head upper die, the pull head upper die is fixedly connected with the upper die mounting plate, the guide rod seat is fixedly connected with the front end side surface of the upper die seat, the induction pin penetrates through the pull head upper die and can be reset by the reset spring, the induction seat is provided with a contact type inductor, the upper top contact type inductor of the induction pin is used for detecting whether a zipper head exists in the lower die assembly after the lower die assembly rises, the pull head penetrating operation is performed, the zipper head does not exist, the zipper head delivering assembly performs the pull head delivering operation, closed loop feedback control is realized, and the generation of waste products caused by cutting off the zipper cloth which does not penetrate through the pull head is avoided; the guide plate is fixedly connected with the lower end of the guide rod seat, the structural design of the middle wide end tip of the guide plate is realized, the clamp assembly moves backwards with the edges of the zipper cloth heads clamped by the upper clamp and the lower clamp, when the upper clamp and the lower clamp move backwards before the position of the maximum width of the guide plate (the position of the zipper cloth is 4mm when the zipper cloth enters the small opening of the zipper head), and then the clamp assembly moves backwards continuously to the position of the maximum width of the guide plate, the upper clamp and the lower clamp are restrained by the position of the maximum width of the guide plate and automatically opened, so that the zipper cloth heads are partially opened and penetrated into the zipper heads, then the clamp assembly moves backwards continuously for 5mm, and after the clamp assembly passes through the position of the maximum width of the guide plate, the upper clamp and the lower clamp automatically contract towards the middle, and the zipper cloth heads pass through the upper ends of the zipper cloth heads to complete the splicing of the zipper cloth heads; the guide plate adjusting block is fixedly connected with the front end face of the upper die seat, the front pressing chain plate of the die is fixedly connected with the side face of the upper die of the pull head, the leveling operation before the zipper cloth is put into the film is realized, the occurrence of turnover or bending of the zipper cloth is avoided, and the failure of pulling the pull head is avoided.

Drawings

FIG. 1 is a schematic view of the overall assembly of the present invention;

FIG. 2 is a schematic diagram of an assembly structure of a chassis assembly;

FIG. 3 is a schematic view of the assembled structure of the panel assembly;

FIG. 4 is a schematic illustration of the assembly of the severing assembly;

FIG. 5 is an exploded view of the severing assembly;

FIG. 6 is a schematic view of an assembly structure of the upper die assembly;

FIG. 7 is an exploded view of the upper die assembly;

FIG. 8 is a schematic view of the assembly structure of the lower die assembly;

FIG. 9 is an exploded view of the lower die assembly;

FIG. 10 is a schematic view of the assembly of the feed assembly;

FIG. 11 is an exploded view of the feed assembly;

FIG. 12 is a schematic illustration of a slider track assembly configuration;

FIG. 13 is an exploded view of the slider track assembly;

FIG. 14 is a schematic view of the assembly structure of the clamp assembly;

FIG. 15 is an exploded view of the clamp assembly;

FIG. 16 is a schematic diagram of a conveyor belt assembly configuration;

FIG. 17 is a schematic diagram of a conveyor belt assembly configuration II;

FIG. 18 is a schematic view of an assembled structure of the chain guide assembly;

wherein:

1. a chassis assembly; 2. a panel assembly; 3. cutting off the assembly; 4. an upper die assembly; 5. a lower die assembly; 6. a feeding assembly; 7. a slider track assembly; 8. a clamp assembly; 9. a conveyor belt assembly; 10. a vibration plate assembly; 11. a chain guide frame assembly; 12. an outer rail assembly; 1-1, a small case; 1-2, a large chassis; 1-3, protecting cover; 1-4, connecting chain hoppers; 1-5, an organic glass fixing plate; 2-1, a panel; 2-2, a pole setting base; 2-3, standing; 2-4, standing the pole upper seat; 2-5, a display screen cover; 2-6, a material-free induction device; 3-1, big slide box; 3-2, a sliding box bottom plate; 3-3, cutting off the cylinder plate; 3-4, cutting off the cylinder connecting block; 3-5, cutting off the sliding block; 3-6, cutting off an upper cutter; 3-7, cutting off and cutting off; 3-8, a guide plate adjusting plate; 3-9, dovetail plates; 3-10, lower guide plate; 3-11, a cylinder connecting plate; 3-12, upper guide plate; 3-13, a belt pressing cylinder plate; 3-14, a chain feeding cylinder connector; 3-15, cutting off the cylinder; 3-16, a chain feeding cylinder; 3-17, a chain pressing cylinder; 4-1, a slide seat cover plate; 4-2, upper die seat; 4-3, inclined support plate; 4-4, mounting plate of upper die; 4-5, an induction seat; 4-6, a spring cover plate; 4-7, upper die of the pull head; 4-8, a guide rod seat; 4-9, sensing pins; 4-10, a guide plate; 4-11, a guide plate adjusting block; 4-12, pressing a chain plate before a die; 5-1, a lower die main seat; 5-1-1, guide rail I; 5-1-2, a first slide block; 5-2, a lower die movable block; 5-3, a pull head die A;5-4, a pull head die B;5-5, connecting blocks; 5-6, closing chain plates; 5-7, a pull head baffle; 5-8, crochet hook fixing plates; 5-9, crochet hook; 5-10, a crochet spring plate; 5-10-1, a crochet cylinder; 5-11, lower cylinder plate; 5-11-1, big cylinder; 5-11-2, small cylinder; 5-12, connecting blocks of lower die cylinders; 5-13, limiting blocks; 5-14, separating templates; 6-1, feeding assembly plates; 6-1-1, a guide rail II; 6-1-2, a second sliding block; 6-2, a feeding group bottom plate; 6-3, a feeding group baffle slide block; 6-4, a baffle spring plate; 6-5, feeding a pull-tab baffle; 6-6, a baffle limiting plate; 6-7, a baffle cover plate; 6-8, feeding a pull head die A;6-9, feeding a pull head die B;6-10, feeding a pull head steel sheet; 6-11, a pushing cylinder connecting plate; 6-12, a pull head feeding cylinder seat; 6-12-1, feeding cylinder; 6-13, feeding limiting plates; 6-14, small limiting blocks; 6-15, feeding a pull head steel sheet pressing plate; 7-1, a slider track; 7-2, a rail steel sheet; 7-3, a guide rail seat; 7-4, spring seats; 7-5, a tightening rod; 7-6, small steel sheets; 7-7, a small steel sheet pressing plate; 7-8, a slide seat cushion block; 7-9, a pushing rod; 7-10, a pushing rod sliding box; 7-11, a pushing card; 7-12, a material pushing plate baffle; 7-13, connecting blocks; 7-14, a pull head limiting block; 7-14-1, a pushing cylinder; 7-15, I-shaped buckles; 7-16, mounting plate I; 7-17, mounting plate II; 7-18, vertical pole; 7-19, connecting plate I; 7-20, a first angle plate; 7-21, second angle plate; 7-22, mounting plates III; 8-1, upper and lower plates of the clamp group; 8-2, an inner side plate of the clamp group; 8-3, an outer side plate of the clamp group; 8-4, a clamp seat; 8-5, mounting a clamp; 8-6, lower fixture; 8-7, a clamp top block; 8-8, a top block connecting block; 8-8-1, a top block cylinder; 8-9, locating pins; 8-10, fixing plates of the clamp group; 8-11, a clamp pin; 8-12, a swing bearing fixing block; 8-12-1, a swing bearing; 8-13, a swing bearing pin; 8-14, a clamp positioning pin; 9-1, a left side plate of the conveyer belt; 9-2, a right side plate of the conveyer belt; 9-3, conveying long rods; 9-3-1, sprocket one; 9-4, a passive long rod; 9-5, conveying the fixed stay bars; 9-6, conveying belt; 9-7, a conveyer belt motor plate; 9-8, adjusting screws; 9-9, a conveying motor; 9-9-1, sprocket II; 11-1, corner seats; 11-2, oblique beams; 11-3, side fixing plates; 11-4, a bottom plate; 11-5, inclined pressing plates; 11-6, pin shafts; 11-7, a first spool; 11-8, a second spool; 11-9, a third spool; 11-10, a fourth spool.

Description of the embodiments

The following detailed description of the embodiments of the invention, given by way of example only, is presented in the accompanying drawings to aid in a more complete, accurate and thorough understanding of the concepts and aspects of the invention, and to aid in its practice, by those skilled in the art.

As shown in fig. 1 to 18, the invention is an automatic zipper puller penetrating and producing integrated machine, realizes automatic zipper puller penetrating operation, has convenient operation and high efficiency, does not need manual operation, does not generate zipper cloth and zipper puller to generate waste products in the assembly process, and reduces the rejection rate.

Specifically, as shown in fig. 1 to 18, the device comprises a case assembly 1, a panel assembly 2, a cutting assembly 3, an upper die assembly 4, a lower die assembly 5, a feeding assembly 6, a pull head rail assembly 7, a clamp assembly 8, a conveying belt assembly 9, a vibration disc assembly, a chain guide frame assembly 11 and an outer rail assembly 12, wherein, as shown in fig. 1, the case assembly 1 consists of a small case 1-1 and a large case 1-2, the small case 1-1 is tightly connected with the large case 1-2, the panel assembly 2 is tightly connected with the upper end of the small case 1-1, the cutting assembly 3 is tightly connected with the upper end of the panel assembly 2, the upper die assembly 4 is tightly connected with the upper side of the cutting assembly 3, the lower die assembly 5 is tightly connected with the lower side of the cutting assembly 3, the feeding assembly 6 is tightly connected with the upper end of the panel assembly 2, the lower end of the pull head rail assembly 7 is tightly connected with the upper end of the panel assembly 2, the upper end of the pull head rail assembly 7 is tightly connected with the vibration disc assembly, the clamp assembly 8 is slidingly connected with the outer rail assembly 12, the conveying belt assembly 9 is tightly connected with the upper end of the panel assembly 2, and the chain guide assembly is tightly connected with the upper end of the vibration disc assembly 11.

As shown in fig. 1 and 2, a protective cover 1-3 is arranged above the large case 1-2, an organic glass fixing plate 1-5 is arranged on the protective cover 1-3, and a connecting chain bucket 1-4 is arranged on the front side of the large case 1-2.

As shown in fig. 3, the panel assembly 2 is composed of a panel 2-1, a vertical rod base 2-2, a vertical rod 2-3, a vertical rod upper seat 2-4, a display screen cover 2-5 and a material-free induction device 2-6, wherein the panel 2-1 is in fastening connection with the upper end of the small chassis 1-1, the vertical rod base 2-2 is in fastening connection with the upper side of the panel 2-1, the lower end of the vertical rod 2-3 is in fastening connection with the vertical rod base 2-2, the vertical rod upper seat 2-4 is in fastening connection with the upper end of the vertical rod 2-3, the display screen cover 2-5 is in fastening connection with the vertical rod upper seat 2-4, and the material-free induction device 2-6 is in fastening connection with the panel 2-1.

As shown in fig. 1, 4 and 5, the cutting assembly 3 comprises a large slide box 3-1, a slide box bottom plate 3-2, a cutting cylinder plate 3-3, a cutting cylinder connecting block 3-4, a cutting slide block 3-5, a cutting upper knife 3-6, a cutting lower knife 3-7, a guide plate adjusting plate 3-8, a dovetail plate 3-9, a lower guide plate 3-10, a cylinder connecting plate 3-11, an upper guide plate 3-12, a belt pressing cylinder plate 3-13, a chain feeding cylinder connector 3-14, a cutting cylinder 3-15, a chain feeding cylinder 3-16 and a chain pressing cylinder 3-17, the slide box bottom plate 3-2 is connected with the upper end of the panel assembly 2, the lower end of the large slide box 3-1 is fixedly connected with the slide box bottom plate 3-2, the cutting cylinder plate 3-3 is fixedly connected with the upper end of the large slide box 3-1, the cutting cylinder connecting block 3-4 is connected with the end part of a piston rod of the cutting cylinder 3-15, the cutting cylinder connecting block 3-4 is clamped with the upper end of the cutting slide block 3-5, the cutting upper knife 3-6 is tightly connected with the lower end of the cutting slide block 3-5, the cutting lower knife 3-7 is tightly connected with the lower end of the large slide box 3-1, the guide plate adjusting plate 3-8 is tightly connected with the lower end of the back of the large slide box 3-1, the dovetail plate 3-9 is tightly connected with the guide plate adjusting plate 3-8, the lower guide plate 3-10 is slidingly connected with the dovetail plate 3-9, the cylinder connecting plate 3-11 is clamped with the lower guide plate 3-10, the upper guide plate 3-12 is tightly connected with the lower guide plate 3-10, the chain pressing cylinder plate 3-13 is fixedly connected with the upper guide plate 3-12, the chain feeding cylinder connector 3-14 is clamped with the cylinder connecting plate 3-11, the end part of a piston rod of the chain feeding cylinder 3-16 is fixedly connected with the chain feeding cylinder connector 3-14, and the chain pressing cylinder 3-17 is fixedly connected with the chain pressing cylinder plate 3-13.

As shown in fig. 1, 6 and 7, the upper die assembly 4 is composed of a sliding seat cover plate 4-1, an upper die seat 4-2, an inclined support plate 4-3, an upper die mounting plate 4-4, a sensing seat 4-5, a spring cover plate 4-6, a pull head upper die 4-7, a guide rod seat 4-8, a sensing pin 4-9, a guide plate 4-10, a guide plate adjusting block 4-11 and a die front pressing chain plate 4-12, the upper die seat 4-2 is in fastening connection with the sliding seat cover plate 4-1, the inclined support plate 4-3 is respectively in fastening connection with the sliding seat cover plate 4-1 and the upper die seat 4-2, the upper die mounting plate 4-4 is in fastening connection with the upper die seat 4-2, the sensing seat 4-5 is in fastening connection with the upper end of the upper die mounting plate 4-4, the spring cover plate 4-6 is in fastening connection with the upper end of the pull head upper die 4-7, the pull head upper die 4-7 is in fastening connection with the upper die mounting plate 4-4, the guide rod seat 4-8 is in fastening connection with the upper die seat 4-4, the guide rod seat 4-2 is in fastening connection with the side surface of the upper die seat 4-2, the guide plate front end 4-2 is in fastening connection with the guide plate 4-4, the reset pin is in the reset end of the die seat 4-4 is in fastening connection with the die seat 4-4 front, and the guide plate 4-4 is in fastening connection with the front of the guide plate 4 front end 4-4-4.

As shown in figures 1, 8 and 9, the lower die assembly 5 is composed of a lower die main seat 5-1, a lower die movable block 5-2, a pull head die A5-3, a pull head die B5-4, a connecting block 5-5, a link plate 5-6, a pull head baffle 5-7, a crochet hook fixing plate 5-8, a crochet hook 5-9, a crochet hook spring plate 5-10, a lower cylinder plate 5-11, a lower die cylinder connecting block 5-12, a limiting block 5-13 and a separating plate 5-14, wherein the lower die main seat 5-1 is fixedly connected with the lower end of the cutting assembly 3, a guide rail I5-1 is arranged on the lower die main seat 5-1, a slider I5-1-2 is arranged on the guide rail I5-1 in a sliding manner, the lower die movable block 5-2 is fixedly connected with the slider I5-1-2, the pull head die A5-3 is fixedly connected with the side face of the lower die movable block 5-2 in a fastening manner, the pull head die B5-4 is fixedly connected with the side face of the lower die movable block 5-2 in a fastening manner, the slider die B5-4 is fixedly connected with the side face of the hook 5-3 at the side face of the lower die 5-3 through the side face of the hook plate 5-1-5, the slider I5-1-3 is fixedly connected with the side face of the slider 5-1-2, the slider I5-5 through the slider I5-5 at the side face 5-3, the slider I5-1 is fixedly connected with the slider I5-5 at the side face 5-3 through the side of the slider I5-5, one crochet spring plate 5-10 is fixedly connected with the side face of the lower die movable block 5-2, the other crochet spring plate 5-10 is fixedly connected with the bottom of the side face of the pull head die A5-3, two lower cylinder plates 5-11 are arranged and are fixedly connected with the bottom of the side face of the lower die main seat 5-1 in parallel, a large cylinder 5-11-1 and a small cylinder 5-11-2 are respectively arranged on the lower cylinder plates 5-11, a lower die cylinder connecting block 5-12 is fixedly connected with the end part of a piston rod of the large cylinder 5-11-1, a limiting block 5-13 is fixedly connected with the top end of the lower die main seat 5-1, a separation plate 5-14 is arranged between the pull head die A5-3 and the pull head die B5-4, and crochet cylinders 5-10-1 are arranged on the crochet spring plates 5-10.

As shown in fig. 1, 10 and 11, the feeding assembly 6 comprises a feeding assembly plate 6-1, a feeding assembly bottom plate 6-2, a feeding assembly baffle slide block 6-3, a baffle spring plate 6-4, a feeding pull sheet baffle plate 6-5, a baffle limiting plate 6-6, a baffle cover plate 6-7, a feeding pull head die A6-8, a feeding pull head die B6-9, a feeding pull head steel sheet 6-10, a pushing cylinder connecting plate 6-11, a feeding pull head cylinder seat 6-12, a feeding limiting plate 6-13, a small limiting block 6-14 and a feeding pull head steel sheet pressing plate 6-15, the feeding assembly bottom plate 6-2 is fixedly connected with the panel assembly 2, the feeding assembly plate 6-1 is fixedly connected with the feeding assembly bottom plate 6-2, the feeding assembly plate 6-1 is provided with a guide rail II 6-1-1, the guide rail II 6-1-1 is provided with a slide block II 6-1-2 in a sliding manner, the feeding assembly baffle slide block 6-3 is fixedly connected with the slide block II 6-1-2, the baffle spring plate 6-4 is fixedly connected with the middle part of the feeding assembly baffle slide block 6-3, the feeding pull sheet baffle 6-5 is fixedly connected with the baffle spring plate 6-4, the baffle limiting plate 6-6 is fixedly connected with the baffle spring plate 6-4, the baffle cover plate 6-7 is fixedly connected with the feeding assembly baffle slide block 6-3, the feeding pull head die A6-8 is fixedly connected with the front end of the feeding assembly baffle slide block 6-3, the feeding pull head die B6-9 is hinged with the feeding pull head die A6-8, the feeding pull head steel sheet 6-10 is tightly connected with the lower end of the feeding pull head die A6-8, the feeding pull head steel sheet pressing plate 6-15 is tightly connected with the feeding pull head steel sheet 6-10 and is tightly connected with the front end of the feeding pull head die A6-8, the feeding cylinder 6-12-1 is arranged behind the feeding pull head cylinder seat 6-12, one end of the pushing cylinder connecting plate 6-11 is connected with the feeding group baffle slider 6-3, the other end of the pushing cylinder connecting plate is connected with the end part of a piston rod of the feeding cylinder 6-12-1, the feeding pull head cylinder seat 6-12 is tightly connected with the end face of the feeding group vertical plate 6-1, the feeding cylinder 6-12-1 is tightly connected with the feeding pull head cylinder seat 6-12, the feeding limiting plate 6-13 is tightly connected with the front end of the feeding group vertical plate 6-1, and the small limiting block 6-14 is tightly connected with the lower end of the feeding group baffle slider 6-3.

As shown in figures 1, 12 and 13, the pull head rail assembly 7 consists of a pull head rail 7-1, a rail steel sheet 7-2, a guide rail seat 7-3, a spring seat 7-4, a tightening rod 7-5, a small steel sheet 7-6, a small steel sheet pressing plate 7-7, a slide seat cushion block 7-8, a pushing rod 7-9, a pushing rod sliding box 7-10, a pushing card 7-11, a pushing plate baffle 7-12, a connecting block 7-13, a pull head limiting block 7-14, an I-shaped buckle 7-15, a mounting plate 7-16, a mounting plate two 7-17, a stand column rod 7-18, a connecting plate one 7-18, a corner plate one 7-20, a corner plate two 7-21 and a mounting plate three 7-22, wherein the mounting plate two 7-17 is fixedly connected with the panel assembly 2, the first mounting plate 7-16 is in fastening connection with the second mounting plate 7-17, the guide rail seat 7-3 is in fastening connection with the first mounting plate 7-16, the third mounting plate 7-22 is in fastening connection with the panel component 2, the lower end of the upright post rod 7-18 is in fastening connection with the third mounting plate 7-22, the upper end of the upright post rod 7-18 is in fastening connection with the first angle plate 7-20, the first angle plate 7-20 is in fastening connection with the second angle plate 7-21, the first connecting plate 7-19 presses the upper end of the track steel sheet 7-2 to be tightly pressed with the slider track 7-1, the lower ends of the slider track 7-1 and the track steel sheet 7-2 are positioned at the upper end of the guide rail seat 7-3 and are tightly pressed on the guide rail seat 7-3 by the slide seat cushion block 7-8 and the pushing rod sliding box 7-10, the pushing rod 7-9 is in sliding connection with the pushing rod sliding box 7-10, the pull head limiting block 7-14 and the connecting block 7-13 are screwed on the end part of the pushing rod 7-9, the I-shaped buckle 7-15 is clamped with the pull head limiting block 7-14, the pushing cylinder 7-14-1 is fixedly arranged at the upper end of the pushing rod sliding box 7-10, the pushing clamp 7-11 is fixedly connected with the end part of the pushing rod 7-9, the pushing plate baffle 7-12 is fixedly connected with the pushing clamp 7-11, the pressing rod 7-5 is clamped with the guide rail seat 7-3, the small steel sheet 7-6 is tightly pressed on the guide rail seat 7-3 through the small steel sheet pressing plate 7-7, and the spring seat 7-4 is fixedly connected with two sides of the guide rail seat 7-3.

As shown in fig. 1, 14 and 15, the clamp assembly 8 is composed of an upper plate 8-1, a lower plate 8-1, an inner plate 8-2, an outer plate 8-3, a clamp seat 8-4, an upper clamp 8-5, a lower clamp 8-6, a clamp top block 8-7, a top block connecting block 8-8, a positioning pin 8-9, a clamp group fixing plate 8-10, a clamp pin 8-11, a swing bearing fixing block 8-12, a swing bearing pin 8-13 and a clamp positioning pin 8-14, wherein the clamp group fixing plate 8-10 is connected with a synchronous belt in the outer rail assembly 12, the upper end and the lower end of the inner plate 8-2 and the outer plate 8-3 of the clamp group are respectively and tightly connected with the upper plate 8-1 of the clamp group, the upper clamp seat 8-4 is hinged with the lower plate 8-1 of the clamp group through the positioning pin 8-8, the upper clamp 8-5 and the lower clamp 8-6 are respectively hinged with the side wall of the clamp seat 8-4 through the clamp pin 8-11, the back end of the clamp top block 8-4 is provided with the two clamp bearing blocks 8-8-12, the upper clamp seat 8-7 and the swing bearing block 8-12 are respectively connected with the piston rod 8-1 through the swing bearing block 8-12 and the upper end and the upper plate 8-12 of the upper clamp seat 8-1 and the upper clamp seat 8-12 and the lower clamp seat 8-1-12, the clamp locating pin 8-14 is embedded between the clamp group fixing plate 8-10 and the clamp group inner side plate 8-2.

As shown in figures 1, 16 and 17, the conveying belt assembly 9 consists of a conveying belt left side plate 9-1, a conveying belt right side plate 9-2, a conveying belt long rod 9-3, a driven long rod 9-4, a conveying fixed supporting rod 9-5, a conveying belt 9-6, a conveying belt motor plate 9-7, an adjusting screw 9-8 and a conveying motor 9-9, wherein the conveying belt left side plate 9-1 and the conveying belt right side plate 9-2 are both in fastening connection with a large chassis 1-2, one end of the conveying belt long rod 9-3 is rotatably connected with one end of the conveying belt left side plate 9-1, the other end of the conveying belt long rod 9-3 is rotatably connected with one end of the conveying belt right side plate 9-2, one end of the driven long rod 9-4 is rotatably connected with the other end of the conveying belt left side plate 9-1, two ends of the conveying fixed supporting rod 9-5 are respectively connected with the conveying belt left side plate 9-1 and the conveying belt right side plate 9-2, the conveying belt motor 9-6 is sleeved on the conveying belt long rod 9-3 and the conveying belt 4 is rotatably connected with the conveying belt 4 at one end of the conveying belt long rod 9-9, a chain wheel 9-9 is rotatably connected with the conveying belt 4 at one end of the conveying belt long rod 9-9 and the driven end of the conveying belt 9-9 by the driven end of the driven long rod 9-4, and the first sprocket 9-3-1 and the second sprocket 9-9-1 are connected through a chain.

As shown in FIG. 18, the chain guide frame assembly 11 is composed of an angle seat 11-1, an inclined beam 11-2, a side fixing plate 11-3, a bottom plate 11-4, an inclined pressing plate 11-5, a pin shaft 11-6, a first I-shaped wheel 11-7, a second I-shaped wheel 11-8, a third I-shaped wheel 11-9 and a fourth I-shaped wheel 11-10, wherein the angle seat 11-1 is fixedly connected with the panel assembly 2, the lower end of the inclined beam 11-2 is fixedly connected with the angle seat 11-1, the side fixing plate 11-3 is connected with the middle part of the inclined beam 11-2, the bottom plate 11-4 is clamped with the side fixing plate 11-3, the inclined pressing plate 11-5 is rotatably connected with the inclined pressing plate 11-5 through the pin shaft 11-6, a torsion spring is sleeved on the pin shaft 11-6, one end of the torsion spring is connected with the side fixing plate 11-3, the other end of the torsion spring is connected with the inclined pressing plate 11-5, the first I-7 is rotatably connected with the top end of the inclined beam 11-2, the second I-shaped wheel 11-8 is rotatably arranged on the lower part of the first I-shaped wheel 11-7, the second I-8 is rotatably connected with the inclined beam 11-2, the upper end of the inclined plate 11-3 is rotatably arranged on the first I-7, the second I-shaped wheel 11-8 is rotatably connected with the inclined beam 11-3, the lower than the first I-7 is rotatably arranged on the side 11-3, and the lower end of the first I-7 is rotatably connected with the inclined plate 11 3 through the side 11 3, and the first I-7 is rotatably 3 and fixedly arranged on the side 11 3I-7 through the side 11 3, and 3.

The following describes specific modes of operation with specific examples:

examples

Firstly, starting a cutting function, and enabling a piston rod of a cutting cylinder 3-15 to move downwards, wherein the cutting cylinder connecting block 3-4 is connected with the end part of the piston rod of the cutting cylinder 3-15, the cutting cylinder connecting block 3-4 is clamped with the upper end of a cutting slide block 3-5, a cutting upper knife 3-6 is fixedly connected with the lower end of the cutting slide block 3-5, and a cutting lower knife 3-7 is fixedly connected with the lower end of a large slide box 3-1, so that the piston rod of the cutting cylinder 3-15 moves downwards together with the cutting cylinder connecting block 3-4, the cutting slide block 3-5 and the cutting upper knife 3-6, then the zipper cloth is cut by the cutting upper knife 3-6, and then the piston rod of the cutting cylinder 3-15 moves upwards to reset, and the step guarantees the flatness of the cut surface of the zipper cloth.

Because the guide plate adjusting plate 3-8 is fixedly connected with the lower end of the back surface of the large slide box 3-1, the dovetail plate 3-9 is fixedly connected with the guide plate adjusting plate 3-8, the lower guide plate 3-10 is in sliding connection with the dovetail plate 3-9, the cylinder connecting plate 3-11 is clamped with the lower guide plate 3-10, the upper guide plate 3-12 is fixedly connected with the lower guide plate 3-10, the belt pressing cylinder plate 3-13 is fixedly connected with the upper guide plate 3-12, the chain feeding cylinder connector 3-14 is clamped with the cylinder connecting plate 3-11, the piston rod end of the chain feeding cylinder 3-16 is fixedly connected with the chain feeding cylinder connector 3-14, the chain pressing cylinder 3-17 is fixedly connected with the belt pressing cylinder plate 3-13, the piston rod of the chain pressing cylinder 3-17 presses the zipper cloth, and then the piston rod of the chain feeding cylinder 3-16 forwards pushes the lower guide plate 3-10 to slide along the dovetail plate 3-9 through the chain feeding cylinder connector 3-14 and the air cylinder 3-11, so that the zipper cloth is fed out, and the zipper connecting plate is prepared for pulling.

Examples

The induction seat 4-5 is provided with a contact type inductor, a piston rod of the large cylinder 5-11-1 is pushed up, the lower die main seat 5-1 is provided with a guide rail I5-1-1, the guide rail I5-1-1 is provided with a sliding block I5-1-2 in a sliding mode, the lower die movable block 5-2 is fixedly connected with the sliding block I5-1-2, the pull head die A5-3 is fixedly connected with the middle of the side face of the lower die movable block 5-2, the pull head die B5-4 is fixedly connected with the middle of the upper end of the lower die movable block 5-2, the connecting block 5-5 is fastened between the pull head die A5-3 and the pull head die B5-4 through bolts, the joint plate 5-6 is fixedly connected with the upper end of the side face of the pull head die A5-3, and therefore the lower die movable block 5-2 is fixedly connected with the center of the upper end of the pull head baffle 5-7 along the guide rail I5-1-1, and the upper part connected with the lower die movable block 5-2, and when the upper die is in a corresponding to the upper die assembly, the upper die is turned on, the upper die pin is turned on, and the upper die lamp assembly is proved to have an electric shock inductor.

Then the clamp assembly 8 starts to decelerate along the outer rail assembly 12 to the middle position of the outer rail assembly 12 until moving to the left end position of the outer rail assembly 12 to stop, because the clamp group fixing plate 8-10 is connected with the synchronous belt in the outer rail assembly 12, the upper end and the lower end of the clamp group inner side plate 8-2 and the clamp group outer side plate 8-3 are respectively and tightly connected with the upper plate and the lower plate 8-1 of the clamp group, the clamp seat 8-4 is hinged with the upper plate and the lower plate 8-1 of the clamp group through the locating pin 8-8, two jacking block cylinders 8-8-1 are arranged behind the clamp seat 8-4, the clamp jacking block 8-7 is connected with the end part of a piston rod of the jacking block cylinder 8-8-1 through the jacking block connecting block 8-7, so the piston rod of the top block air cylinder 8-8-1 in the clamp assembly 8 pushes forwards, the top block connecting block 8-8 drives the clamp top block 8-7 to move forwards, the upper clamp 8-5 and the lower clamp 8-6 are hinged with the side wall of the clamp seat 8-4 through the clamp pin 8-11 respectively, the upper clamp 8-5 and the lower clamp 8-6 clamp the zipper cloth head edge, then the clamp assembly 8 stops for 0.5 seconds, during the 0.5 seconds of the stop, the piston rod of the zipper pressing air cylinder 3-17 retreats, the compression of the zipper cloth is released, the piston rod of the zipper feeding air cylinder 3-16 retreats, and the lower guide plate 3-10 is driven to slide backwards along the dovetail plate 3-9 through the zipper feeding air cylinder connecting head 3-14 and the air cylinder connecting plate 3-11, so that the reset of the lower guide plate 3-10 and the upper guide plate 3-12 is realized.

Then the clamp assembly 8 moves backwards with the upper clamp 8-5 and the lower clamp 8-6 clamping the head edge of the zipper cloth, before the upper clamp 8-5 and the lower clamp 8-6 move backwards to the position of the maximum width of the guide plate 4-10 (the position where the zipper cloth enters the small opening of the zipper slider 4-10, 4 mm), then when the clamp assembly 8 moves backwards to the position of the maximum width of the guide plate 4-10, the upper clamp 8-5 and the lower clamp 8-6 are restrained by the position of the maximum width of the guide plate 4-10 and automatically opened, so that the zipper cloth part is partially penetrated into the zipper slider, then the clamp assembly 8 moves backwards by 5mm continuously, and after the clamp assembly passes the position of the maximum width of the guide plate 4-10, the upper clamp 8-5 and the lower clamp 8-6 automatically shrink towards the middle, so that the head of the zipper cloth passes through the upper end of the zipper closing plate 5-6, the splicing of the zipper cloth part is completed, and then the clamp assembly 8 is stopped after the clamp assembly 8 is controlled to move for a certain length according to the input length of the produced zipper.

Then the piston rod of the cutting cylinder 3-15 moves downwards, the piston rod of the cutting cylinder 3-15 drives the cutting cylinder connecting block 3-4, the cutting slide block 3-5 and the cutting upper knife 3-6 to move downwards together, then the zipper cloth is cut off by the cutting upper knife 3-6, then the piston rod of the cutting cylinder 3-15 moves upwards to reset, meanwhile, the piston rod of the chain pressing cylinder 3-17 presses the zipper cloth, then the piston rod of the chain feeding cylinder 3-16 pushes forwards, and the lower guide plate 3-10 is driven to slide forwards along the dovetail plate 3-9 through the chain feeding cylinder connector 3-14 and the cylinder connecting plate 3-11, so that the delivering of the zipper cloth is realized, and the preparation is made for pulling a slider.

Examples

The piston rod of the large cylinder 5-11-1 is pushed upwards, the lower die movable block 5-2 moves upwards along the first guide rail 5-1-1 together with the part connected with the lower die movable block 5-2, when the corresponding contact type sensor on the sensing pin 4-9 is out of the lamp, no pull head is proved on the lower die assembly 5, then the piston rod of the large cylinder 5-11-1 is contracted and reset, meanwhile, the piston rod of the pushing cylinder 7-14-1 is contracted, because the pushing rod 7-9 is in sliding connection with the pushing rod sliding box 7-10, the pull head limiting block 7-14 and the connecting block 7-13 are screwed on the end part of the pushing rod 7-9, the I-shaped buckle 7-15 is clamped with the pull head limiting block 7-14, the upper end of the pushing rod sliding box 7-10 is fixedly provided with a pushing cylinder 7-14-1, the pushing clamp 7-11 is fixedly connected with the end part of the pushing rod 7-9, the pushing plate baffle 7-12 is fixedly connected with the pushing clamp 7-11, so that a piston rod of the pushing cylinder 7-14-1 drives the pushing rod 7-9 to move through an I-shaped buckle 7-15, a pull head limiting block 7-14 and a connecting block 7-13, the pushing clamp 7-11 at the end part of the pushing rod 7-9 pushes out one pull head, and then the pushing cylinder 7-14-1 stays for 0.2 seconds, so that the pull head is stabilized in the feeding pull head die A6-8 and the feeding pull head die B6-9.

Then the piston rod of the pushing cylinder 7-14-1 pushes forwards, the pushing rod 7-9 is driven to move forwards through the I-shaped buckle 7-15, the pull head limiting block 7-14 and the connecting block 7-13, and the pushing rod 7-9 is reset with the pushing clamp 7-11 at the end part.

Then the piston rod of the feeding cylinder 6-12-1 is pushed forward, because the feeding group bottom plate 6-2 is tightly connected with the panel component 2, the feeding group vertical plate 6-1 is tightly connected with the feeding group bottom plate 6-2, the feeding group vertical plate 6-1 is provided with a guide rail II 6-1-1, the guide rail II 6-1-1 is slidingly provided with a slide block II 6-1-2, the feeding group baffle slide block 6-3 is tightly connected with the slide block II 6-1-2, the baffle spring plate 6-4 is tightly connected with the middle part of the feeding group baffle slide block 6-3, the feeding pull piece baffle plate 6-5 is tightly connected with the baffle spring plate 6-4, the baffle limiting plate 6-6 is tightly connected with the baffle spring plate 6-4, the baffle cover plate 6-7 is tightly connected with the baffle slide block 6-3 of the feeding group, the feeding pull head die A6-8 is tightly connected with the front end of the baffle slide block 6-3 of the feeding group, the feeding pull head die B6-9 is hinged with the feeding pull head die A6-8, the feeding pull head steel sheet 6-10 is tightly connected with the lower end of the feeding pull head die A6-8, the feeding pull head steel sheet pressing plate 6-15 presses the feeding pull head steel sheet 6-10 and is tightly connected with the feeding pull head die A6-8, the feeding cylinder 6-12-1 is arranged behind the feeding pull head cylinder seat 6-12, one end of the pushing cylinder connecting plate 6-11 is connected with the baffle slide block 6-3 of the feeding group, the other end is connected with the end of a piston rod of the feeding cylinder 6-12-1, the pull head feeding cylinder seat 6-12 is fixedly connected with the end face of the pull head feeding assembly plate 6-1, the pull head feeding cylinder 6-12-1 is fixedly connected with the pull head feeding cylinder seat 6-12, the pull head feeding limiting plate 6-13 is fixedly connected with the front end of the pull head feeding assembly plate 6-1, and the small limiting block 6-14 is fixedly connected with the lower end of the pull head feeding assembly baffle slider 6-3, so that a piston rod of the pull head feeding cylinder 6-12-1 moves forwards along with the slider two 6-1-2 along the guide rail two 6-1-1 through the push head feeding cylinder connecting plate 6-11, the pull head feeding assembly baffle slider 6-3 and parts connected with the pull head feeding assembly baffle slider 6-3 until the maximum stroke of the pull head feeding cylinder 6-12-1 stops.

Then the piston rod of the small cylinder 5-11-2 is pushed up, the lower die movable block 5-2 moves upwards along the guide rail one 5-1-1 with the parts connected with the lower die movable block 5-2, at this time, the pull head enters the lower die assembly 5, because the crochet hook fixing plate 5-8 is fixedly connected with the bottom of the side face of the pull head die B5-4, the crochet hook 5-9 is hinged with the crochet hook fixing plate 5-8, two crochet hook spring plates 5-10 are arranged, one crochet hook spring plate 5-10 is fixedly connected with the side face of the lower die movable block 5-2, the other crochet spring plate 5-10 is fixedly connected with the bottom of the side face of the pull head die A5-3, the crochet spring plate 5-10 is provided with a crochet cylinder 5-10-1, so that a piston rod of the crochet cylinder 5-10-1 on the crochet spring plate 5-10 fixedly connected with the pull head die A5-3 extends out, and meanwhile, a piston rod of the crochet cylinder 5-10-1 on the crochet spring plate 5-10 fixedly connected with the lower die movable block 5-2 contracts, so that the upper end of the crochet 5-9 hooks a hole of a hand-held part of the pull head, and the pull head is fastened in the lower die assembly 5.

Then the piston rod of the feeding cylinder 6-12-1 is contracted to the middle part of the cylinder barrel of the feeding cylinder 6-12-1, at the moment, a feeding pull tab baffle 6-5, a feeding pull head die A6-8, a feeding pull head die B6-9, a feeding pull head steel sheet 6-10 and a feeding pull head steel sheet pressing plate 6-15 which are arranged at the front end of the feeding group baffle slider 6-3 move backwards along the guide rail two 6-1-1 along with the feeding group baffle slider 6-3, and then leave from the position right above the lower die assembly 5.

Then the piston rod of the large cylinder 5-11-1 is pushed upwards, the lower die movable block 5-2 moves upwards along the first guide rail 5-1-1 together with the parts connected with the lower die movable block 5-2, and when the corresponding electric shock type sensor on the induction pin 4-9 lights up, the lower die assembly 5 is proved to have a pull head; the working principle in example 2 is then carried out; meanwhile, a piston rod of the feeding cylinder 6-12-1 is contracted to the tail end of a cylinder barrel of the feeding cylinder 6-12-1, then the piston rod of the pushing cylinder 7-14-1 drives the pushing rod 7-9 to move through the I-shaped buckle 7-15, the pull head limiting block 7-14 and the connecting block 7-13, the pushing clamp 7-11 at the end part of the pushing rod 7-9 pushes out one pull head, and then the pushing cylinder 7-14-1 stays for 0.2 seconds, so that the pull head is stabilized in the feeding pull head die A6-8 and the feeding pull head die B6-9, and preparation is made for next pull head penetrating.

While the invention has been described above by way of example with reference to the accompanying drawings, it is to be understood that the invention is not limited to the particular embodiments described, but is capable of numerous insubstantial modifications of the inventive concept and solution; or the invention is not improved, and the conception and the technical scheme are directly applied to other occasions and are all within the protection scope of the invention.

Claims (9)

1. An automatic change zip fastener and wear pull head production all-in-one, its characterized in that: the device comprises a case assembly (1), a panel assembly (2), a cutting assembly (3), an upper die assembly (4), a lower die assembly (5), a feeding assembly (6), a pull head rail assembly (7), a clamp assembly (8), a conveying belt assembly (9), a vibration disc assembly, a chain guide frame assembly (11) and an outer rail assembly (12), wherein the case assembly (1) consists of a small case (1-1) and a large case (1-2), the small case (1-1) is tightly connected with the large case (1-2), the panel assembly (2) is tightly connected with the upper end of the small case (1-1), the cutting assembly (3) is tightly connected with the upper end of the panel assembly (2), the upper die assembly (4) is tightly connected with the upper side of the cutting assembly (3), the lower die assembly (5) is tightly connected with the lower side of the cutting assembly (3), the feeding assembly (6) is tightly connected with the upper end of the panel assembly (2), the lower end of the pull head rail assembly (7) is tightly connected with the upper end of the panel assembly (2), the clamp assembly (7) is tightly connected with the upper end of the vibration disc assembly (8), the upper end of the vibration disc assembly (12) is tightly connected with the outer rail assembly (12), the vibration disc assembly is fixedly connected with the upper end of the panel assembly (2), and the chain guide frame assembly (11) is fixedly connected with the upper end of the panel assembly (2);

The lower die assembly (5) consists of a lower die main seat (5-1), a lower die movable block (5-2), a pull head die A (5-3), a pull head die B (5-4), a connecting block (5-5), a closing chain plate (5-6), a pull head baffle plate (5-7), a crochet hook fixing plate (5-8), a crochet hook (5-9), a crochet hook spring plate (5-10), a lower cylinder plate (5-11), a lower die cylinder connecting block (5-12), a limiting block (5-13) and a separating plate (5-14), wherein the lower die main seat (5-1) is fixedly connected with the lower end of the cutting assembly (3), a guide rail I (5-1-1) is arranged on the lower die main seat (5-1), a sliding block I (5-1-2) is arranged on the guide rail I (5-1-1) in a sliding manner, the lower die movable block (5-2) is fixedly connected with the sliding block I (5-1-2), the pull head die A (5-3) is fixedly connected with the middle die (5-2) at the middle side surface of the lower die (5-2) and the middle die B is fixedly connected with the middle die (5-2), the connecting block (5-5) is fastened between the pull head die A (5-3) and the pull head die B (5-4) through bolts, the joint plate (5-6) is fastened and connected with the upper end of the side face of the pull head die A (5-3), the pull head baffle (5-7) is fastened and connected with the center of the upper end of the pull head die A (5-3), the crochet hook fixing plate (5-8) is fastened and connected with the bottom of the side face of the pull head die B (5-4), the crochet hook (5-9) is hinged with the crochet hook fixing plate (5-8), two crochet hook spring plates (5-10) are arranged, one crochet hook spring plate (5-10) is fastened and connected with the side face of the lower die movable block (5-2), two crochet hook spring plates (5-10) are fastened and connected with the bottom of the side face of the pull head die A (5-3), the lower cylinder plate (5-11) is provided with two side faces of the lower die main seat (5-1), the lower cylinder plate (5-11) is provided with a big cylinder (5-11) and the big cylinder end part (11) is connected with the big cylinder (11) and the big cylinder end part (11) of the big cylinder (1-12), the limiting block (5-13) is fixedly connected with the top end of the lower die main seat (5-1), the template (5-14) is arranged between the pull head die A (5-3) and the pull head die B (5-4), and a crochet cylinder (5-10-1) is arranged on the crochet spring plate (5-10); the hook needle spring plate (5-10) is provided with a hook needle cylinder (5-10-1), so that a piston rod of the hook needle cylinder (5-10-1) on the hook needle spring plate (5-10) which is tightly connected with the pull head die A (5-3) extends out, and meanwhile, a piston rod of the hook needle cylinder (5-10-1) on the hook needle spring plate (5-10) which is tightly connected with the lower die movable block (5-2) contracts, so that the upper end of the hook needle (5-9) hooks a hole of a hand-held part of the pull head, and the pull head is tightly fixed in the lower die assembly (5).

2. The automated zipper pull-through production all-in-one machine of claim 1, wherein: a protective cover (1-3) is arranged above the large case (1-2), an organic glass fixing plate (1-5) is arranged on the protective cover (1-3), and a connecting chain bucket (1-4) is arranged on the front side of the large case (1-2); the panel assembly (2) is composed of a panel (2-1), a vertical rod base (2-2), a vertical rod (2-3), a vertical rod upper seat (2-4), a display screen cover (2-5) and a material-free sensing device (2-6), wherein the panel (2-1) is fixedly connected with the upper end of the small chassis (1-1), the vertical rod base (2-2) is fixedly connected with the upper part of the panel (2-1), the lower end of the vertical rod (2-3) is fixedly connected with the vertical rod base (2-2), the vertical rod upper seat (2-4) is fixedly connected with the upper end of the vertical rod (2-3), the display screen cover (2-5) is fixedly connected with the vertical rod upper seat (2-4), and the material-free sensing device (2-6) is fixedly connected with the panel (2-1).

3. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the cutting assembly (3) consists of a large sliding box (3-1), a sliding box bottom plate (3-2), a cutting cylinder plate (3-3), a cutting cylinder connecting block (3-4), a cutting sliding block (3-5), a cutting upper knife (3-6), a cutting lower knife (3-7), a guide plate adjusting plate (3-8), a dovetail plate (3-9), a lower guide plate (3-10), a cylinder connecting plate (3-11), an upper guide plate (3-12), a belt pressing cylinder plate (3-13), a chain feeding cylinder connecting head (3-14), a cutting cylinder (3-15), a chain feeding cylinder (3-16) and a chain pressing cylinder (3-17), the sliding box bottom plate (3-2) is connected with the upper end of the panel assembly (2), the lower end of the large sliding box (3-1) is fixedly connected with the sliding box bottom plate (3-2), the cutting cylinder plate (3-3) is fixedly connected with the upper end of the large sliding box (3-1), the cutting cylinder connecting block (3-4) is connected with the cutting end of the cutting cylinder connecting head (3-15), the cutting end of the cutting cylinder connecting block (3-4) is connected with the piston rod (3-5), the cutting-off upper knife (3-6) is fixedly connected with the lower end of the cutting-off sliding block (3-5), the cutting-off lower knife (3-7) is fixedly connected with the lower end of the large sliding box (3-1), the guide plate adjusting plate (3-8) is fixedly connected with the lower end of the back of the large sliding box (3-1), the dovetail plate (3-9) is fixedly connected with the guide plate adjusting plate (3-8), the lower guide plate (3-10) is slidably connected with the dovetail plate (3-9), the air cylinder connecting plate (3-11) is clamped with the lower guide plate (3-10), the upper guide plate (3-12) is fixedly connected with the lower guide plate (3-10), the belt pressing air cylinder plate (3-13) is fixedly connected with the upper guide plate (3-12), the chain feeding air cylinder connecting head (3-14) is fixedly connected with the air cylinder connecting plate (3-11), and the end part of the piston rod of the chain feeding air cylinder (3-16) is fixedly connected with the chain feeding air cylinder connecting head (3-14), and the chain pressing air cylinder connecting plate (3-17) is fixedly connected with the air cylinder connecting plate (3-13).

4. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the upper die assembly (4) consists of a sliding seat cover plate (4-1), an upper die seat (4-2), an inclined support plate (4-3), an upper die mounting plate (4-4), an induction seat (4-5), a spring cover plate (4-6), a pull head upper die (4-7), a guide rod seat (4-8), an induction pin (4-9), a guide plate (4-10), a guide plate adjusting block (4-11) and a die front pressure chain plate (4-12), the upper die seat (4-2) is in fastening connection with the sliding seat cover plate (4-1), the inclined support plate (4-3) is respectively in fastening connection with the sliding seat cover plate (4-1) and the upper die seat (4-2), the upper die mounting plate (4-4) is in fastening connection with the upper end of the upper die mounting plate (4-4), the spring cover plate (4-6) is in fastening connection with the upper end of the pull head upper die (4-7), the pull head upper die (4-7) is in fastening connection with the upper die seat (4-8) and the guide rod seat (4-2) is in fastening connection with the upper die seat (4-4), the induction pin (4-9) penetrates through the upper die (4-7) of the pull head and can be reset by a reset spring, the guide plate (4-10) is fixedly connected with the lower end of the guide rod seat (4-8), the guide plate adjusting block (4-11) is fixedly connected with the front end face of the upper die seat (4-2), and the front die pressing chain plate (4-12) is fixedly connected with the side face of the upper die (4-7) of the pull head.

5. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the feeding component (6) consists of a feeding assembly vertical plate (6-1), a feeding assembly bottom plate (6-2), a feeding assembly baffle slide block (6-3), a baffle spring plate (6-4), a feeding pull sheet baffle plate (6-5), a baffle limiting plate (6-6), a baffle plate cover plate (6-7), a feeding pull head die A (6-8), a feeding pull head die B (6-9), a feeding pull head steel sheet (6-10), a pushing air cylinder connecting plate (6-11), a feeding pull head air cylinder seat (6-12), a feeding limiting plate (6-13), a small limiting block (6-14) and a feeding pull head steel sheet pressing plate (6-15), the feeding assembly bottom plate (6-2) is fixedly connected with the panel component (2), a second guide rail (6-1-1) is arranged on the feeding assembly bottom plate (6-1), a second slide block (6-1) is arranged on the second guide rail (6-1-1) in a sliding manner, the feeding assembly bottom plate (6-2) is fixedly connected with the panel component (6-2), the feeding assembly bottom plate (6-1) is fixedly connected with the feeding assembly bottom plate (6-1) and the baffle plate (6-1) is fixedly connected with the baffle plate (6-2), the feeding pull piece baffle plate (6-5) is fixedly connected with the baffle spring plate (6-4), the baffle piece limiting plate (6-6) is fixedly connected with the baffle spring plate (6-4), the baffle piece cover plate (6-7) is fixedly connected with the feeding set baffle plate slider (6-3), the feeding pull head die A (6-8) is fixedly connected with the front end of the feeding set baffle plate slider (6-3), the feeding pull head die B (6-9) is hinged with the feeding pull head die A (6-8), the feeding pull head steel sheet (6-10) is fixedly connected with the lower end of the feeding pull head die A (6-8), the feeding pull head steel sheet pressing plate (6-15) is tightly pressed on the feeding pull head steel sheet (6-10) and is fixedly connected with the feeding pull head die A (6-8), the feeding cylinder (6-12-1) is arranged behind the feeding pull head cylinder seat (6-12), one end of the pushing cylinder connecting plate (6-11) is fixedly connected with the front end of the feeding set baffle plate slider (6-3), the other end of the feeding cylinder seat (6-12) is fixedly connected with the feeding cylinder seat (12), the feeding cylinder seat (12) is fixedly connected with the end of the feeding cylinder seat (12) and the feeding cylinder seat (12), the feeding limiting plate (6-13) is fixedly connected with the front end of the feeding assembly plate (6-1), and the small limiting block (6-14) is fixedly connected with the lower end of the feeding assembly baffle slider (6-3).

6. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the pull head track assembly (7) consists of a pull head track (7-1), a track steel sheet (7-2), a guide rail seat (7-3), a spring seat (7-4), a forcing rod (7-5), a small steel sheet (7-6), a small steel sheet pressing plate (7-7), a sliding seat cushion block (7-8), a pushing rod (7-9), a pushing rod sliding box (7-10), a pushing clamp (7-11), a pushing plate baffle (7-12), a connecting block (7-13), a pull head limiting block (7-14), an I-shaped buckle (7-15), a first mounting plate (7-16), a second mounting plate (7-17), a column rod (7-18), a first connecting plate (7-19), a first corner plate (7-20), a second corner plate (7-21) and a third mounting plate (7-22), wherein the second mounting plate (7-17) is fixedly connected with the panel assembly (2), the first mounting plate (7-16) is fixedly connected with the second mounting plate (7-17), the guide rail seat (7-3) is fixedly connected with the first mounting plate (7-16) and the third mounting plate (7-22), the lower end of the upright post rod (7-18) is fixedly connected with the mounting plate III (7-22), the upper end of the upright post rod (7-18) is fixedly connected with the angle plate I (7-20), the angle plate I (7-20) is fixedly connected with the angle plate II (7-21), the upper end of the connecting plate I (7-19) presses the rail steel sheet (7-2) to enable the upper end of the rail steel sheet (7-2) to be tightly pressed with the pull head rail (7-1), the lower ends of the pull head rail (7-1) and the rail steel sheet (7-2) are positioned at the upper end of the guide rail seat (7-3), the slide seat (7-8) and the push rod slide box (7-10) are tightly pressed on the guide rail seat (7-3), the push rod (7-9) is slidably connected with the push rod slide box (7-10), the pull head (7-14) is tightly pressed on the end of the push rod (7-9) by the limiting block (7-14), the H-shaped buckle (7-15) is clamped with the push rod (7-14) to be tightly connected with the push rod (7-9) by the push rod slide box (7-10), the pushing plate baffle (7-12) is fixedly connected with the pushing clamp (7-11), the tightening rod (7-5) is clamped with the guide rail seat (7-3), the small steel sheet (7-6) is tightly pressed on the guide rail seat (7-3) through the small steel sheet pressing plate (7-7), and the spring seat (7-4) is fixedly connected with two sides of the guide rail seat (7-3).

7. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the clamp assembly (8) consists of an upper plate (8-1), a lower plate (8-1), an inner plate (8-2), an outer plate (8-3), a clamp seat (8-4), an upper clamp (8-5), a lower clamp (8-6), a clamp jacking block (8-7), a jacking block connecting block (8-8), a locating pin (8-9), a clamp group fixing plate (8-10), a clamp pin (8-11), a swing bearing fixing block (8-12), a swing bearing pin (8-13) and a clamp locating pin (8-14), wherein the clamp group fixing plate (8-10) is connected with a synchronous belt in the outer rail assembly (12), the upper end and the lower end of the inner plate (8-2) and the outer plate (8-3) are respectively and fixedly connected with the upper plate and the lower plate (8-1) of the clamp group, the clamp seat (8-4) is hinged with the upper plate and the lower plate (8-1) of the clamp group through the locating pin (8-9), the upper clamp (8-5) and the lower clamp (8-6) are respectively provided with the side walls of the upper clamp seat (8-4) and the lower clamp seat (8-4) through the locating pin (8-9), the fixture jacking block (8-7) is connected with the end part of a piston rod of the jacking block cylinder (8-8-1) through a jacking block connecting block (8-8), the swing bearing fixing block (8-12) is fixedly connected with the upper end of the fixture seat (8-4), the swing bearing (8-12-1) is arranged on the swing bearing fixing block (8-12), the swing bearing pin (8-13) penetrates through the swing bearing (8-12-1), and the fixture locating pin (8-14) is embedded between the fixture group fixing plate (8-10) and the fixture group inner side plate (8-2).

8. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the conveyer belt component (9) consists of a conveyer belt left side plate (9-1), a conveyer belt right side plate (9-2), a conveyer belt long rod (9-3), a driven long rod (9-4), a conveyer belt fixed stay rod (9-5), a conveyer belt (9-6), a conveyer belt motor plate (9-7), an adjusting screw (9-8) and a conveyer motor (9-9), the conveyer belt left side plate (9-1) and the conveyer belt right side plate (9-2) are both in fastening connection with a mainframe box (1-2), one end of the conveyer belt long rod (9-3) is rotatably connected with one end of the conveyer belt left side plate (9-1), the other end of the conveyer belt long rod (9-3) is rotatably connected with one end of the conveyer belt right side plate (9-2), the other end of the driven long rod (9-4) is rotatably connected with the other end of the conveyer belt left side plate (9-1), the fixed stay rod (9-5) is rotatably connected with the other end of the conveyer belt right side plate (9-2), the conveyer belt fixed stay rod (9-4) is respectively fastened with the conveyer belt left side plate (9-2) and the two ends of the conveyer belt long rod (9-3) are respectively, the conveyer belt motor plate (9-7) is fixedly connected with the lower end of the conveyer belt right side plate (9-2), the adjusting screw (9-8) is screwed at the end part of the driven long rod (9-4), the conveyer motor (9-9) is fixedly connected with the conveyer belt motor plate (9-7), the end part of the conveyer belt long rod (9-3) is provided with a sprocket I (9-3-1), the output shaft of the conveyer motor (9-9) is provided with a sprocket II (9-9-1), and the sprocket I (9-3-1) is connected with the sprocket II (9-9-1) through a chain.

9. The automated zipper pull-through production all-in-one machine of claim 1, wherein: the chain guide frame assembly (11) consists of an angle seat (11-1), an inclined beam (11-2), a side fixing plate (11-3), a bottom plate (11-4), an inclined pressing plate (11-5), a pin shaft (11-6), a first spool (11-7), a second spool (11-8), a third spool (11-9) and a fourth spool (11-10), the angle seat (11-1) is fixedly connected with the panel assembly (2), the lower end of the inclined beam (11-2) is fixedly connected with the angle seat (11-1), the side fixing plate (11-3) is connected with the middle part of the inclined beam (11-2), the bottom plate (11-4) is clamped with the side fixing plate (11-3), the inclined pressing plate (11-5) is rotatably connected with the side fixing plate (11-3) through the pin shaft (11-6), one end of the torsion spring is connected with the side fixing plate (11-3) in a sleeved mode, one end of the torsion spring is connected with the inclined pressing plate (11-5), the first spool (11-7) is rotatably connected with the first spool (11-7) and the second spool (11-8) is rotatably connected with the top end of the first spool (11-7), the third I-shaped wheel (11-9) is arranged below the second I-shaped wheel (11-8) and is rotationally connected with the inclined beam (11-2), and the fourth I-shaped wheel (11-10) is arranged at the lower end of the installation position of the side fixing plate (11-3) and is rotationally connected with the inclined beam (11-2).