CN111633960A

CN111633960A - Garment buckle bending forming equipment and method

Info

Publication number: CN111633960A
Application number: CN202010393306.3A
Authority: CN
Inventors: 林阿香; 曹凤先; 陈记芬
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-11
Filing date: 2020-05-11
Publication date: 2020-09-08

Abstract

The invention relates to a garment buckle bending and forming device which comprises a rack, a feeding device, a cutting device, a forming device and a discharging device, wherein the feeding device is arranged on the rack; the machine frame comprises a base plate and a profile frame arranged on the base plate, the feeding device is arranged on the base plate, and the cutting device is arranged in the middle of the feeding device; the forming device is arranged on the section frame, the blanking device is arranged on the section frame, and the blanking device is positioned on the side of the forming device; the invention has the advantages that the plastic material rope is loaded for preheating and straightening treatment; the buckle can be bent at multiple parts, and a plurality of buckles are bent at the same time; the unloading does not produce the effort to the buckle, and the unloading is efficient, and the unloading is not remained advantage.

Description

Garment buckle bending forming equipment and method

Technical Field

The invention relates to a bending forming machine, in particular to clothes buckle bending forming equipment and a working method thereof.

Background

In clothing production, clothing needs to be packaged in a planar plastic bag, especially for clothing such as shirts and the like with high requirements on the type, the clothing is generally folded on a shaping paperboard, then the clothing is buckled on the shaping paperboard through a plastic buckle to realize fixation, and then the fixed clothing is stuffed into a packaging bag to complete packaging. The plastic buckle is produced by injection molding and bending, but the injection mold is high in price, and the bending has good economic benefit. The processing method of bending and forming generally comprises the steps of cutting a section of material rope with a fixed length on the material rope, and bending the section of material rope to obtain a buckle; the rope is generally obtained by an extrusion molding machine.

The patent of national intellectual property office publication number CN203945674U, the patent name is a plastics bender, it includes the base, the right side fixed mounting of the front surface of base has the support, the upper right corner of support is provided with the chamfer that matches with the technology groove in arranging the working of plastics on the support in, the left side fixed mounting of the rear surface of base has the briquetting that is arranged in compressing tightly the working of plastics groove left side part, the right side swing joint of the rear surface of base has rotating base, rotating base's front surface fixed mounting has the connecting block that is arranged in the working of plastics groove right side part of bending, the inside of connecting block is provided with pressure spring, the upper surface of connecting block is provided with the adjusting screw who is used for adjusting pressure spring packing force.

The automatic production equipment that is used for clothing plastics buckle is less now, and current equipment has following technical problem: 1. the excessive radian of the buckle causes difficult forming and easy cracking; the straightness of the feeding rope is low, so that the buckle shape is unqualified; 2. the shape of the clothes buckle is complex, the clothes buckle is obtained by bending in multiple steps, and the forming speed is low; 3. the production efficiency of the single buckle is low; the buckle unloading is cliied the buckle of unmodeled and can be caused the deformation, and it is slow to wait for buckle natural cooling to lead to the unloading speed, and the buckle unloading is remained easily.

Disclosure of Invention

The purpose of the invention is: aiming at the problems that in the prior art, the forming is difficult and cracks are easy to occur due to overlarge radian of the buckle forming; the straightness of the feeding rope is low, so that the buckle shape is unqualified; the shape of the clothes buckle is complex, the clothes buckle is obtained by bending in multiple steps, and the forming speed is low; the production efficiency of the single buckle is low; the problems that deformation is caused when an unshaped buckle is clamped by buckle blanking, blanking speed is low due to the fact that the buckle needs to be naturally cooled, and blanking of the buckle is easy to remain are solved, and preheating and straightening processing are carried out on feeding of a plastic material rope; the buckle can be bent at multiple parts, and a plurality of buckles are bent at the same time; the garment buckle bending forming equipment and the working method thereof have the advantages that acting force is not generated on the buckle during blanking, blanking efficiency is high, and blanking is not residual.

For the purpose of the invention, the following technical scheme is adopted for realizing the purpose:

a clothing buckle bending and forming device comprises a rack, a feeding device, a cutting device, a forming device and a discharging device; the machine frame comprises a base plate and a profile frame arranged on the base plate, the feeding device is arranged on the base plate, and the cutting device is arranged in the middle of the feeding device; the forming device is arranged on the section frame, the blanking device is arranged on the section frame, and the blanking device is positioned on the side of the forming device;

the feeding device is used for feeding plastic material ropes and heating the material ropes, the cutting device is used for cutting the material ropes, and the forming device is used for bending and forming a cut section of the material ropes; the blanking device is used for clamping the bent and formed buckle, so that blanking is realized.

Preferably, the feeding device comprises a straightening assembly, a roller assembly, a hot melting assembly and a traction assembly; along the feeding direction of plastics rope, alignment subassembly, roller components, hot melt subassembly and traction assembly link up mutually in proper order, the alignment subassembly be used for carrying out the alignment to the material rope, roller components be used for the drive to plastics rope feeding, the hot melt subassembly be used for heating a certain section of material rope, the assembly is drawn to the anytime and anywhere and is used for pressing from both sides the material rope and get the traction.

Preferably, the straightening assembly comprises a vertical seat, a wire guide plate, a first wire clamping mechanism, an elastic control plate, an elastic control cylinder, a groove wheel, a follower wheel and a driving motor; the vertical seat is fixed on the frame, the wire guide plate is arranged on the side of the vertical seat, and a wire guide hole for the feed rope to pass through is formed in the wire guide plate; the first wire clamping mechanism is arranged on the vertical seat and comprises a wire clamping cylinder, a fixed clamping plate and a movable clamping plate, rectangular grooves are formed in the upper ends of the fixed clamping plate and the movable clamping plate, the fixed clamping plate is arranged on the vertical seat, the movable clamping plate is movably connected with the fixed clamping plate through a sliding rail, the movable clamping plate is connected with the telescopic end of the wire clamping cylinder, and the wire clamping cylinder is arranged at the side end of the vertical seat; the elastic control plate is movably connected to the vertical seat through a sliding rail, the elastic control cylinder is arranged on the vertical seat, the telescopic end of the elastic control cylinder is connected with the elastic control plate, and the elastic control plate is used for pressing the material rope downwards; a plurality of groove wheels are stacked on a circular shaft, the circular shaft is hinged in the vertical seat, and the end part of the circular shaft is connected with an output shaft of the driving motor; the follower wheel corresponds to each groove wheel, the follower wheels are connected in series through a round shaft, the round shaft is connected to the vertical seat through a spring, and the spring presses the follower wheels in the groove wheels.

Preferably, the roller assembly comprises a roller seat, a roller shaft, a power motor and a belt transmission part; the two compressed roller shafts are connected to the roller seat, the power motor is arranged on the roller seat, and the telescopic end of the power motor is connected with one roller shaft through a belt transmission part to drive one roller shaft to rotate; the hot melting assembly comprises a base, a lower heating plate, an upper heating plate, a lifting cylinder, an upper side moving cylinder and a lower side moving cylinder; the base is fixedly arranged on the frame, the lower heating plate is movably connected to the base through a sliding rail, the telescopic end of the lower side moving cylinder is connected with the lower heating plate, and the lower side moving cylinder is fixedly arranged on the base; the upper heating plate is connected to the base through a vertical lifting cylinder and a horizontal upper side moving cylinder, and the lower heating plate corresponds to the upper heating plate up and down; a second wire clamping mechanism is also arranged on the side of the base; the traction assembly comprises a moving plate, a clamping cylinder, a clamping plate and a screw rod assembly; the movable plate is movably connected to the rack through a vertical plate, the screw rod assembly is arranged on the side of the vertical plate, and the screw rod assembly drives the movable plate to move back and forth; the clamping cylinder is arranged on the moving plate, and the clamping plates are arranged at two moving ends of the clamping cylinder.

Preferably, the cutting device comprises a connecting plate, an upper cutting cylinder, an upper cutter, a lower cutting cylinder and a lower cutter; the connecting plate is arranged on the side edge of the base, the upper cutting cylinder is arranged above the connecting plate, and the lower cutting cylinder is arranged below the connecting plate; the upper cutter is arranged at the telescopic end of the upper cutting cylinder, the lower cutter is arranged at the telescopic end of the lower cutting cylinder, and the upper cutter and the lower cutter are vertically corresponding.

Preferably, the forming device comprises a lifting frame, a lifting cylinder, a rear end clamping mechanism, a front end clamping mechanism and a lifting mechanism; the lifting cylinder is vertically arranged on the rack, the lifting frame is movably connected to the rack through a sliding rail, and the telescopic end of the lifting cylinder is connected with the lifting frame; the rear end clamping mechanism and the front end clamping mechanism are arranged at two ends of the lifting frame, and the lifting mechanism is arranged in the middle of the lifting frame; the rear end clamping mechanism and the front end clamping mechanism are respectively used for clamping two ends of the material rope, and the lifting mechanism is used for lifting the middle part of the material rope to enable the middle part of the material rope to deform.

Preferably, the rear end clamping mechanism comprises a first fixing plate, a first motor, a first screw group, a first sliding plate, a first clamping assembly and a first overturning assembly; the first fixing plate is installed on the lifting frame, the first sliding plate is movably connected to the first fixing plate through a sliding rail, the first motor and the first screw group are installed on the first fixing plate, and the first sliding plate is connected with the moving part of the first screw group; the first clamping assembly is hinged to the lower end of the first sliding plate; the first overturning assembly is arranged on the first sliding plate and comprises a driving motor and a transmission belt, and two ends of the transmission belt are respectively connected with a motor spindle and the first clamping assembly; the first clamping assembly comprises a fixed rotating shaft, a movable pressing rod and a clamping cylinder, two ends of the fixed rotating shaft are hinged to the first sliding plate, the movable pressing rod is connected to the fixed rotating shaft through a sliding rail, and the fixed rotating shaft and the movable pressing rod are both provided with a lug; the clamping cylinder is arranged on the fixed rotating shaft, and the telescopic end of the clamping cylinder is connected with the movable pressing rod; the front end clamping mechanism comprises a second fixing plate, a second motor, a second screw rod group, a second sliding plate, a second clamping assembly and a second overturning assembly; the second fixing plate is fixed on the first fixing plate, the second motor and the second screw rod group are installed on the second fixing plate, the second sliding plate is movably connected to the second fixing plate through a sliding rail, and the second clamping assembly is hinged to the second sliding plate; the second overturning assembly is arranged on the second sliding plate and drives the second clamping assembly to rotate.

Preferably, the lifting mechanism comprises a third sliding plate, a third screw group, a lifting screw assembly, a lifting plate and a clamping jaw assembly; the third sliding plate is movably connected to the lifting frame through a sliding rail, the third screw group is installed on the lifting frame, and the moving part of the third screw group is connected with the third sliding plate; the lifting screw rod assembly is arranged on the third sliding plate, and the lifting plate is arranged on the moving part of the lifting screw rod assembly and is connected with the moving part of the lifting screw rod assembly; the clamping jaw assembly is arranged on the lifting plate; the clamping jaw assembly comprises a connecting frame, a clamping jaw driving cylinder, a driving slide bar, a first clamping jaw and a second clamping jaw; the clamping jaw driving air cylinder is arranged at the upper end of the connecting frame, and the telescopic end of the clamping jaw driving air cylinder is connected with the driving slide bar; the end part of the driving sliding strip is provided with an inclined plane, the connecting frame is internally provided with a matched inclined plane, and the driving sliding strip can move along the inclined plane on the connecting frame; the middle parts of the first clamping jaw and the second clamping jaw are hinged on the connecting frame, and the hinged parts of the first clamping jaw and the second clamping jaw are provided with meshed gear tooth profile shapes; the driving slide bar is provided with a sliding groove; the upper end of the first clamping jaw is connected in a sliding groove of the driving sliding strip through a pin shaft.

Preferably, the blanking device comprises a platform plate, a longitudinal moving cylinder, a longitudinal moving mounting frame, a transverse moving cylinder, a material taking mechanism, a blanking base, a blanking belt assembly, a discharging cylinder, a discharging plate and a discharging connecting plate; the platform plate is arranged on the rack, and the longitudinal movement mounting rack is arranged on the platform plate through a linear bearing; the material taking mechanism is movably connected to the bottom of the longitudinal moving mounting frame, the transverse moving air cylinder is installed on the longitudinal moving mounting frame, and the telescopic end of the transverse moving air cylinder is connected with the material taking mechanism; the blanking base is arranged on the frame, the blanking belt assembly is arranged on the side of the blanking base, the discharging plates are uniformly arranged on the discharging connecting plate, the discharging connecting plate is movably connected to the blanking base through a sliding rail, the discharging cylinder is arranged on the blanking base, and the telescopic end of the discharging cylinder is connected with the discharging connecting plate; the material taking mechanism comprises a transverse moving mounting frame, a material taking cylinder, a synchronous driving strip, a mounting frame, a long material taking claw and a short material taking claw; the material taking cylinder is arranged on the transverse mounting frame, the synchronous driving strip is arranged at the telescopic end of the material taking cylinder, the mounting frame is fixedly arranged at the side end of the transverse mounting frame, and the synchronous driving strip is connected in the mounting frame in a matching manner; the long material taking claw and the short material taking claw are hinged on the mounting frame, and are meshed at the hinged positions through a gear pair; a slotted hole is formed in the synchronous driving strip, a pin shaft is arranged at the end part of the long material taking claw, and a groove pair connection is formed between the end part of the long material taking claw and the synchronous driving strip; a cavity is formed between the long material taking claw and the short material taking claw, and the discharging plate can be accommodated in the cavity; the side of the discharging plate is also provided with a connecting plate, the connecting plate is positioned on the side of the discharging belt assembly, and the connecting plate is used for pushing the buckle into the discharging belt assembly; the blanking belt component comprises a motor, a conveying belt, a roller and a transmission belt; the conveying belt is wound on the roller, and an output shaft of the motor is connected with the roller through the driving belt.

A garment buckle bending and forming method comprises the following steps of:

feeding a material rope: the roller assembly drives the clamped material rope, the material rope is straightened through the groove wheel and the follow-up wheel, and the two ends of the material rope are clamped by the first wire clamping mechanism and the second wire clamping mechanism at the position of the hot melting assembly; the lifting cylinder descends the upper heating plate to press the material rope, and then the upper side moving cylinder and the lower side moving cylinder drive the upper heating plate and the lower heating plate to move oppositely to carry out hot melting on the section of the material rope; the end part of the rear material rope is clamped by the clamping plate, and the lead screw component drives the clamped material rope to be led out, so that the material loading is realized;

(II) bending the material rope: the rear end clamping mechanism clamps the rear end of the material rope, and the clamping cylinder drives the movable pressure rod to be close to the fixed rotating shaft so as to clamp the material rope; the front end clamping mechanism clamps the front end of the material rope through the same mechanism; then the cutting device cuts off the material rope sent out by the feeding device; then the lifting screw component drives the clamping jaw component to descend, the clamping jaw drives the cylinder to drive the driving slide bar to move, the first clamping jaw is driven to swing, the first clamping jaw and the second clamping jaw clamp the material rope through gear tooth profile transmission, then the lifting screw component drives the middle part of the clamped material rope to lift, and meanwhile, the rear end clamping mechanism and the front end clamping mechanism are close to the middle part to finish bending and forming of the middle part; then the first overturning assembly drives the first clamping assembly to rotate for a certain angle, and the second overturning assembly drives the second clamping assembly to rotate for a certain angle to complete the bending of the two end parts;

(III) buckle blanking: the vertical movement is realized by a longitudinal movement mounting rack, the horizontal movement is realized by a transverse movement air cylinder, firstly, a material taking mechanism extends in to clamp a bent buckle, so that the buckle is hung between a long material taking claw and a short material taking claw, then, the material taking air cylinder drives a synchronous driving strip to move, the synchronous driving strip drives the long material taking claw to rotate around a shaft, and the short material taking claw is driven to rotate through the action of a gear; then the cylinder of unloading drives the stripper and releases, will take the buckle between the claw and the short material of getting to push down to unloading belt subassembly on and carry out the unloading.

The garment buckle bending forming equipment adopting the technical scheme and the working method thereof have the advantages that:

1. the feeding device heats the middle section of the material rope by arranging the hot melting assembly, the plasticity of the plastic material rope is improved after heating, the plastic material rope is used for forming a part with larger bending amplitude, the bending efficiency can be improved after hot melting, and cracks can be prevented from occurring after bending; in addition, the upper heating plate and the lower heating plate move in a staggered manner in the heating process, so that the material rope is twisted, is heated more uniformly and is convenient to bend; the straightening of the material rope by the aid of the groove wheels and the follow-up wheels is improved, straightness is improved, and the qualified rate of bent products is improved.

2. The forming device completes the bending of the middle part of the buckle to a larger extent by arranging a rear end clamping mechanism and a front end clamping mechanism with two movable ends and matching with a lifting mechanism with the middle part capable of rising; the bending of the two ends is completed by arranging the first clamping assembly and the second clamping assembly which can rotate, so that the small-amplitude bending of the end parts is realized, the clamping assembly can simultaneously realize the clamping of a plurality of strands of material ropes through only one air cylinder, and the clamping jaw assembly can also realize the clamping of the plurality of material ropes under the action of a single power source; the forming device can bend a plurality of buckles simultaneously, and the working efficiency is improved.

3. The blanking device clamps the cavity in the middle of the buckle by arranging the long material taking claw and the short material taking claw, so that the buckle is naturally hung on the two material claws and does not act on the buckle, and the shape of the buckle is protected; blanking can be carried out when the buckles are not completely cooled, and the blanking speed is improved by adopting a whole-row blanking mode; push away the buckle through having set up the stripper and fall, make partly hang and grab the buckle that the upper ear did not freely fall and carry out the mode unloading that pushes away once more falling in the material, improve the success rate of unloading.

Drawings

Fig. 1 is an exploded view of an embodiment of the present invention.

Fig. 2 is an exploded view of the feeding device.

Fig. 3 is an exploded view of the cutting device.

Fig. 4 is an exploded view of the molding apparatus.

Fig. 5 is an exploded view of the rear clamping mechanism and the front clamping mechanism.

Fig. 6 is an exploded view of the lifting mechanism.

Fig. 7 is an exploded view of the blanking apparatus.

Fig. 8 is an exploded view of the take off mechanism.

Fig. 9 is a structural view of the garment clasp.

Detailed Description

As shown in fig. 1, a garment buckle bending and forming device comprises a frame 1, a feeding device 2, a cutting device 3, a forming device 4 and a blanking device 5; the machine frame 1 comprises a base plate 11 and a section frame 12 arranged on the base plate, the feeding device 2 is arranged on the base plate 11, and the cutting device 3 is arranged in the middle of the feeding device 2; the forming device 4 is arranged on the section frame 12, the blanking device 5 is arranged on the section frame 12, and the blanking device 5 is positioned on the side of the forming device 4.

The feeding device 2 is used for feeding plastic material ropes and heating the material ropes, the cutting device 3 is used for cutting the material ropes, and the forming device 4 is used for bending and forming a cut section of the material ropes; and the blanking device 5 is used for clamping the bent and molded buckle to realize blanking.

As shown in fig. 2, the feeding device 2 includes a straightening assembly 21, a roller assembly 22, a heat-melting assembly 23 and a traction assembly 24; along the feeding direction of the plastic rope, the straightening component 21, the roller component 22, the hot melting component 23 and the traction component 24 are sequentially connected, the straightening component 21 is used for straightening the material rope, the roller component 22 is used for feeding and driving the plastic rope, the hot melting component 23 is used for heating a certain section of the material rope, and the traction component 24 is used for clamping and pulling the material rope at any time and any place.

The straightening assembly 21 comprises a vertical seat 211, a wire guide plate 212, a first wire clamping mechanism 213, an elastic force control plate 214, an elastic force control cylinder 215, a groove wheel 216, a follower wheel 217 and a driving motor 218; the vertical seat 211 is fixed on the frame, the wire guide plate 212 is installed at the side of the vertical seat 211, and the wire guide plate 212 is provided with a wire guide hole for passing a feeding rope; the first wire clamping mechanism 213 is installed on the vertical seat 211, the first wire clamping mechanism 213 comprises a wire clamping cylinder, a fixed clamping plate and a movable clamping plate, rectangular grooves are formed in the upper ends of the fixed clamping plate and the movable clamping plate, the side walls of the two rectangular grooves are used for clamping a material rope, the fixed clamping plate is installed on the vertical seat 211, the movable clamping plate is movably connected with the fixed clamping plate through a sliding rail, the movable clamping plate is connected with the telescopic end of the wire clamping cylinder, and the wire clamping cylinder is installed at the side end of the vertical seat 211; the elastic control plate 214 is movably connected to the vertical seat 211 through a sliding rail, the elastic control cylinder 215 is arranged on the vertical seat 211, the telescopic end of the elastic control cylinder 215 is connected with the elastic control plate 214, and the elastic control plate 214 is used for pressing the material rope downwards; a plurality of groove wheels 216 are stacked on a circular shaft, the circular shaft is hinged in the vertical seat 211, and the end part of the circular shaft is connected with an output shaft of a driving motor 218; a follower wheel 217 corresponds to each groove wheel 216, the follower wheels 217 are connected in series through a round shaft, the round shaft is connected to the vertical seat 211 through a spring, and the spring presses the follower wheel 217 in the groove wheels 216 to clamp the material rope.

The roller assembly 22 comprises a roller seat, a roller shaft, a power motor and a belt transmission part; two compressed roller shafts are connected to the roller seat, the power motor is installed on the roller seat, and the telescopic end of the power motor is connected with one roller shaft through a belt transmission part to drive one roller shaft to rotate.

The hot melting assembly 23 comprises a base 231, a lower heating plate 232, an upper heating plate 233, a lifting cylinder 234, an upper side moving cylinder 235 and a lower side moving cylinder 236; the base 231 is fixedly arranged on the frame, the lower heating plate 232 is movably connected to the base 231 through a sliding rail, the telescopic end of the lower moving cylinder 236 is connected with the lower heating plate 232, and the lower moving cylinder 236 is fixedly arranged on the base 231; the upper heating plate 233 is connected to the base 231 through a vertical lifting cylinder 234 and a horizontal upper side moving cylinder 235, and the lower heating plate 232 and the upper heating plate 233 are vertically corresponding; a second wire clamping mechanism 237 is further disposed on a side of the base 231.

The traction assembly 24 comprises a moving plate 241, a clamping cylinder 242, a clamping plate 243 and a lead screw assembly 244; the moving plate 241 is movably connected to the rack through a vertical plate 245, the screw rod assembly 244 is installed on the side of the vertical plate 245, and the screw rod assembly 244 drives the moving plate 241 to move back and forth; the gripping cylinder 242 is installed on the moving plate 241, and the clamping plates 243 are installed at both moving ends of the gripping cylinder 242.

When the feeding device 2 works, the roller assembly 22 drives the clamped material rope, the material rope is straightened through the groove wheel 216 and the follower wheel 217, and the two ends of the material rope are firstly clamped by the first wire clamping mechanism 213 and the second wire clamping mechanism 237 at the position of the hot melting assembly 23; the lifting cylinder 234 descends the upper heating plate 233 downwards to press the material rope, and then the upper side moving cylinder 235 and the lower side moving cylinder 236 drive the upper heating plate 233 and the lower heating plate 232 to move oppositely to melt the material rope; and the end of the rear rope is clamped by the clamp plate 243, and the screw assembly 244 drives the clamped rope to be led out, so that the feeding is realized.

The feeding device 2 solves the problems that the forming is difficult and cracks are easy to occur due to overlarge radian in the buckle forming process; the straightness of the feeding rope is low, so that the problem that the shape of the buckle is unqualified is caused; the hot melting assembly 23 is arranged to heat the middle section of the material rope, so that the plasticity of the plastic material rope is improved after heating, the plastic material rope is used for forming a part with a large bending amplitude, the bending efficiency can be improved after hot melting, and cracks can be prevented from occurring after bending; in addition, the upper heating plate 233 and the lower heating plate 232 move in a staggered manner in the heating process, so that the material rope is twisted, is heated more uniformly and is convenient to bend; the groove wheels 216 and the follow-up wheels 217 are arranged to straighten the material ropes, so that the straightness is improved, and the qualified rate of the bent product is improved.

As shown in fig. 3, the cutting device 3 includes a connecting plate 31, an upper cutting cylinder 32, an upper cutter 33, a lower cutting cylinder 34 and a lower cutter 35; the connecting plate 31 is arranged on the side edge of the base 231, the upper cutting cylinder 32 is arranged above the connecting plate 31, and the lower cutting cylinder 34 is arranged below the connecting plate 31; the upper cutter 33 is arranged at the telescopic end of the upper cutting cylinder 32, the lower cutter 35 is arranged at the telescopic end of the lower cutting cylinder 34, and the upper cutter 33 and the lower cutter 35 are vertically corresponding.

As shown in fig. 4, the forming device 4 includes a lifting frame 41, a lifting cylinder 42, a rear end clamping mechanism 43, a front end clamping mechanism 44 and a lifting mechanism 45; the lifting cylinder 42 is vertically arranged on the rack, the lifting frame 41 is movably connected to the rack through a sliding rail, and the telescopic end of the lifting cylinder 42 is connected with the lifting frame 41; the rear end clamping mechanism 43 and the front end clamping mechanism 44 are arranged at two ends of the lifting frame 41, and the lifting mechanism 45 is arranged in the middle of the lifting frame 41; the rear end clamping mechanism 43 and the front end clamping mechanism 44 are respectively used for clamping two ends of the material rope, and the lifting mechanism 45 is used for lifting the middle part of the material rope to enable the middle part of the material rope to deform.

As shown in fig. 5, the rear clamping mechanism 43 includes a first fixing plate 431, a first motor 432, a first screw set 433, a first sliding plate 434, a first clamping assembly 435, and a first overturning assembly 436; the first fixing plate 431 is installed on the lifting frame 41, the first sliding plate 434 is movably connected to the first fixing plate 431 through a sliding rail, the first motor 432 and the first screw group 433 are installed on the first fixing plate 431, and the first sliding plate 434 is connected with the moving part of the first screw group 433; the first clamping assembly 435 is hinged at the lower end of the first sliding plate 434; the first turning component 436 is installed on the first sliding plate 434, the first turning component 436 comprises a driving motor and a transmission belt, and two ends of the transmission belt are respectively connected with a motor spindle and the first clamping component 435; the first clamping assembly 435 comprises a fixed rotating shaft 4351, a movable pressing rod 4352 and a clamping cylinder 4353, two ends of the fixed rotating shaft 4351 are hinged to the first sliding plate 434, the movable pressing rod 4352 is connected to the fixed rotating shaft 4351 through a sliding rail, the fixed rotating shaft 4351 and the movable pressing rod 4352 are both provided with a convex block, and the side edge of the convex block is used for clamping the material rope; the clamping cylinder 4353 is installed on the fixed rotating shaft 4351, and the telescopic end of the clamping cylinder 4353 is connected with the movable pressing rod 4352.

The front end clamping mechanism 44 comprises a second fixed plate 441, a second motor 442, a second screw rod group 443, a second sliding plate 444, a second clamping assembly 445 and a second overturning assembly 446; the second fixing plate 441 is fixed on the first fixing plate 431, the second motor 442 and the second screw rod set 443 are installed on the second fixing plate 441, the second sliding plate 444 is movably connected to the second fixing plate 441 through a sliding rail, and the second clamping assembly 445 is hinged to the second sliding plate 444; the second turning assembly 446 is mounted on the second sliding plate 444, and the second turning assembly 446 drives the second clamping assembly 445 to rotate.

As shown in fig. 4 and 6, the lifting mechanism 45 includes a third sliding plate 451, a third screw assembly 452, a lifting screw assembly 453, a lifting plate 454 and a clamping jaw assembly 455; the third sliding plate 451 is movably connected to the lifting frame 41 through a sliding rail, the third screw group 452 is mounted on the lifting frame 41, and the moving part of the third screw group 452 is connected with the third sliding plate 451 to drive the third sliding plate 451 to move; the lifting screw assembly 453 is arranged on the third sliding plate 451, and the lifting plate 454 is arranged on the moving part of the lifting screw assembly 453 and connected with the moving part; the clamping jaw assembly 455 is mounted on the lifting plate 454; the clamping jaw assembly 455 comprises a connecting frame 4551, a clamping jaw driving cylinder 4552, a driving slide bar 4553, a first clamping jaw 4554 and a second clamping jaw 4555; the clamping jaw driving air cylinder 4552 is arranged at the upper end of the connecting frame 4551, and the telescopic end of the clamping jaw driving air cylinder 4552 is connected with the driving slide bar 4553; an inclined surface 4556 is arranged at the end part of the driving slide bar 4553, a matched inclined surface is arranged in the connecting frame 4551, and the driving slide bar 4553 can move along the inclined surface in the connecting frame 4551; the middle parts of the first clamping jaw 4554 and the second clamping jaw 4555 are hinged to the connecting frame 4551, and the hinged parts of the first clamping jaw 4554 and the second clamping jaw 4555 are provided with meshed gear tooth profile shapes; a sliding groove 4557 is arranged on the driving slide bar 4553; the upper end of the first jaw 4554 is pinned to a slot 4557 in a drive slide 4553.

When the forming device 4 works, the rear end clamping mechanism 43 clamps the rear end of the material rope, and the clamping cylinder 4353 drives the movable pressure rod 4352 to be close to the fixed rotating shaft 4351 to clamp the material rope therein; the front end clamping mechanism 44 clamps the front end of the material rope by the same mechanism; then the lifting screw rod assembly 453 drives the clamping jaw assembly 455 to descend, the clamping jaw driving cylinder 4552 drives the driving slide bar 4553 to move to drive the first clamping jaw 4554 to swing, the first clamping jaw 4554 and the second clamping jaw 4555 clamp the material rope through gear tooth profile transmission, then the lifting screw rod assembly 453 drives the middle part of the clamped material rope to lift, and meanwhile, the rear end clamping mechanism 43 and the front end clamping mechanism 44 are close to the middle part to finish bending and forming of the middle part; then the first turning component 436 drives the first clamping component 435 to rotate for a certain angle, and the second turning component 446 drives the second clamping component 445 to rotate for a certain angle, so as to complete the bending of the two ends.

The forming device 4 solves the problems that the shape of the clothes buckle is complex, the clothes buckle needs to be obtained by bending in multiple steps, and the forming speed is low; the production efficiency of the single buckle is low; the rear end clamping mechanism 43 and the front end clamping mechanism 44 with two movable ends are arranged and matched with the lifting mechanism 45 with the middle capable of lifting, so that the middle part of the buckle is bent to a larger extent; the bending of the two ends is completed by arranging the first clamping assembly 435 and the second clamping assembly 445 which can rotate, so that the small-amplitude bending of the ends is realized, the clamping assemblies can simultaneously realize the clamping of a plurality of strands of material ropes only through one air cylinder, and the clamping jaw assembly 455 can also realize the clamping of a plurality of material ropes under the action of a single power source; forming device 4 can buckle a plurality of buckles simultaneously, has improved work efficiency.

As shown in fig. 7 and 8, the blanking device 5 includes a platform plate 51, a longitudinal movement cylinder 52, a longitudinal movement mounting rack 53, a transverse movement cylinder 54, a material taking mechanism 55, a blanking base 56, a blanking belt assembly 57, a discharging cylinder 58, a discharging plate 59 and a discharging connecting plate 510; the platform plate 51 is arranged on the frame, and the longitudinal movement mounting rack 53 is arranged on the platform plate 51 through a linear bearing; the material taking mechanism 55 is movably connected to the bottom of the longitudinal moving mounting frame 53, the transverse moving air cylinder 54 is installed on the longitudinal moving mounting frame 53, and the telescopic end of the transverse moving air cylinder 54 is connected with the material taking mechanism 55; the blanking base 56 is arranged on the frame, the blanking belt component 57 is arranged on the side of the blanking base 56, the discharging plates 59 are uniformly arranged on the discharging connecting plate 510, the discharging connecting plate 510 is movably connected to the blanking base 56 through a sliding rail, the discharging cylinder 58 is arranged on the blanking base 56, and the telescopic end of the discharging cylinder 58 is connected with the discharging connecting plate 510.

The material taking mechanism 55 comprises a transverse moving mounting frame 551, a material taking air cylinder 552, a synchronous driving strip 553, a mounting frame 554, a long material taking claw 555 and a short material taking claw 556; the material taking cylinder 552 is arranged on the transverse mounting frame 551, the synchronous driving strip 553 is arranged at the telescopic end of the material taking cylinder 552, the mounting frame 554 is fixedly arranged at the side end of the transverse mounting frame 551, and the synchronous driving strip 553 is connected in the mounting frame 554 in a matching way; the long material taking claw 555 and the short material taking claw 556 are hinged to the mounting frame 554, and the long material taking claw 555 and the short material taking claw 556 are meshed at the hinged position through a gear pair; slotted holes are formed in the synchronous driving strips 553, a pin shaft is arranged at the end part of the long material taking claw 555, and a slotted pair connection is formed between the end part of the long material taking claw 555 and the synchronous driving strips 553.

A cavity is formed between the long fetching claw 555 and the short fetching claw 556, and the discharging plate 59 can be accommodated in the cavity; the side of the discharge plate 59 is also provided with a connecting plate 511, the connecting plate 511 is positioned at the side of the blanking belt assembly 57, and the connecting plate 511 is used for pushing the buckle into the blanking belt assembly 57.

The blanking belt component 57 comprises a motor, a conveying belt, a roller and a transmission belt; the conveying belt is wound on the roller, and an output shaft of the motor is connected with the roller through the driving belt.

When the blanking device 5 works, vertical movement is realized by the longitudinal movement mounting rack 53, horizontal movement is realized by the transverse movement air cylinder 54, firstly, the material taking mechanism 55 is stretched in to clamp the bent buckle, so that the buckle is hung between the long material taking claw 555 and the short material taking claw 556, then the material taking air cylinder 552 drives the synchronous driving strip 553 to move, the synchronous driving strip 553 drives the long material taking claw 555 to rotate around a shaft, and the short material taking claw 556 is driven to rotate through the action of a gear; then the cylinder 58 of unloading drives stripper 59 and releases, and the buckle that will be between long claw 555 and the short claw 556 of getting pushes down to unloading belt subassembly 57 on and carries out the unloading.

The blanking device 5 solves the problems that the buckle blanking clamps an unshaped buckle to cause deformation, the blanking speed is slow due to the fact that the buckle needs to be naturally cooled, and the buckle blanking is easy to remain; the long material taking claws 555 and the short material taking claws 556 are arranged to clamp the cavity in the middle of the buckle, so that the buckle is naturally hung on the two material claws and does not act on the buckle, and the shape of the buckle is protected; blanking can be carried out when the buckles are not completely cooled, and the blanking speed is improved by adopting a whole-row blanking mode; push away the buckle through having set up stripper 59 and fall, make partly hang and grab the buckle that the upper ear did not freely fall and carry out the mode unloading that pushes away once more falling in the material, improve the success rate of unloading.

A garment buckle bending and forming method uses the equipment, and when in work, the garment buckle bending and forming method sequentially comprises the following steps:

feeding a material rope: the roller assembly 22 drives the clamped material rope, the material rope is straightened through the groove wheel 216 and the follow-up wheel 217, and the two ends of the material rope are clamped by the first wire clamping mechanism 213 and the second wire clamping mechanism 237 at the position of the hot melting assembly 23; the lifting cylinder 234 descends the upper heating plate 233 downwards to press the material rope, and then the upper side moving cylinder 235 and the lower side moving cylinder 236 drive the upper heating plate 233 and the lower heating plate 232 to move oppositely to melt the material rope; the end part of the rear material rope is clamped by the clamping plate 243, and the screw rod component 244 drives the clamped material rope to be led out, so that the material loading is realized;

(II) bending the material rope: the rear end clamping mechanism 43 clamps the rear end of the material rope, and the clamping cylinder 4353 drives the movable pressure rod 4352 to be close to the fixed rotating shaft 4351 to clamp the material rope; the front end clamping mechanism 44 clamps the front end of the material rope by the same mechanism; then the cutting device 3 cuts off the material rope sent out by the feeding device 2; then the lifting screw rod assembly 453 drives the clamping jaw assembly 455 to descend, the clamping jaw driving cylinder 4552 drives the driving slide bar 4553 to move to drive the first clamping jaw 4554 to swing, the first clamping jaw 4554 and the second clamping jaw 4555 clamp the material rope through gear tooth profile transmission, then the lifting screw rod assembly 453 drives the middle part of the clamped material rope to lift, and meanwhile, the rear end clamping mechanism 43 and the front end clamping mechanism 44 are close to the middle part to finish bending and forming of the middle part; then the first turning component 436 drives the first clamping component 435 to rotate for a certain angle, and the second turning component 446 drives the second clamping component 445 to rotate for a certain angle, so as to complete the bending of the two end parts;

(III) buckle blanking: the vertical movement is realized by the longitudinal moving mounting rack 53, the horizontal movement is realized by the transverse moving air cylinder 54, the material taking mechanism 55 is firstly stretched in to clamp the bent buckle, so that the buckle is hung between the long material taking claw 555 and the short material taking claw 556, then the material taking air cylinder 552 drives the synchronous driving strip 553 to move, the synchronous driving strip 553 drives the long material taking claw 555 to rotate around a shaft, and the short material taking claw 556 is driven to rotate through the action of a gear; then the cylinder 58 of unloading drives stripper 59 and releases, and the buckle that will be between long claw 555 and the short claw 556 of getting pushes down to unloading belt subassembly 57 on and carries out the unloading.

Claims

1. A clothing buckle bending and forming device is characterized by comprising a rack (1), a feeding device (2), a cutting device (3), a forming device (4) and a discharging device (5); the machine frame (1) comprises a base plate (11) and a profile frame (12) arranged on the base plate, the feeding device (2) is arranged on the base plate (11), and the cutting device (3) is arranged in the middle of the feeding device (2); the forming device (4) is arranged on the section frame (12), the blanking device (5) is arranged on the section frame (12), and the blanking device (5) is positioned on the side of the forming device (4);

the feeding device (2) is used for feeding plastic material ropes and heating the material ropes, the cutting device (3) is used for cutting the material ropes, and the forming device (4) is used for bending and forming a cut section of the material ropes; and the blanking device (5) is used for clamping the bent and molded buckle to realize blanking.

2. The clothing buckle bending and forming equipment according to claim 1, wherein the feeding device (2) comprises a straightening assembly (21), a roller assembly (22), a hot melting assembly (23) and a traction assembly (24); along the feeding direction of plastics rope, alignment subassembly (21), roller components (22), hot melt subassembly (23) and traction assembly (24) link up mutually in proper order, alignment subassembly (21) be used for straightening the material rope, roller components (22) be used for the plastics rope feeding drive, hot melt subassembly (23) be used for heating a certain section of material rope, whenever and wherever possible traction assembly (24) are used for pressing from both sides the material rope and get the traction.

3. The garment buckle bending and forming device according to claim 2, wherein the straightening assembly (21) comprises an upright base (211), a wire guide plate (212), a first wire clamping mechanism (213), an elastic force control plate (214), an elastic force control cylinder (215), a groove wheel (216), a follower wheel (217) and a driving motor (218); the vertical seat (211) is fixed on the frame, the wire guide plate (212) is arranged on the side of the vertical seat (211), and the wire guide plate (212) is provided with a wire guide hole for the feed rope to pass through; the first wire clamping mechanism (213) is arranged on the vertical seat (211), the first wire clamping mechanism (213) comprises a wire clamping cylinder, a fixed clamping plate and a movable clamping plate, the upper ends of the fixed clamping plate and the movable clamping plate are provided with rectangular grooves, the fixed clamping plate is arranged on the vertical seat (211), the movable clamping plate is movably connected with the fixed clamping plate through a sliding rail, the movable clamping plate is connected with the telescopic end of the wire clamping cylinder, and the wire clamping cylinder is arranged at the side end of the vertical seat (211); the elastic control plate (214) is movably connected to the vertical seat (211) through a sliding rail, the elastic control cylinder (215) is arranged on the vertical seat (211), the telescopic end of the elastic control cylinder (215) is connected with the elastic control plate (214), and the elastic control plate (214) is used for pressing down the material rope; a plurality of groove wheels (216) are stacked on a circular shaft, the circular shaft is hinged in the vertical seat (211), and the end part of the circular shaft is connected with an output shaft of a driving motor (218); the follower wheels (217) correspond to each groove wheel (216), the follower wheels (217) are connected in series through a round shaft, the round shaft is connected to the vertical seat (211) through a spring, and the spring presses the follower wheels (217) in the groove wheels (216).

4. The garment buckle bending and forming device according to claim 2, wherein the roller assembly (22) comprises a roller seat, a roller shaft, a power motor and a belt transmission part; the two compressed roller shafts are connected to the roller seat, the power motor is arranged on the roller seat, and the telescopic end of the power motor is connected with one roller shaft through a belt transmission part to drive one roller shaft to rotate; the hot melting assembly (23) comprises a base (231), a lower heating plate (232), an upper heating plate (233), a lifting cylinder (234), an upper side moving cylinder (235) and a lower side moving cylinder (236); the base (231) is fixedly arranged on the frame, the lower heating plate (232) is movably connected to the base (231) through a sliding rail, the telescopic end of the lower side moving cylinder (236) is connected with the lower heating plate (232), and the lower side moving cylinder (236) is fixedly arranged on the base (231); the upper heating plate (233) is connected to the base (231) through a vertical lifting cylinder (234) and a horizontal upper side moving cylinder (235), and the lower heating plate (232) and the upper heating plate (233) are vertically corresponding; a second wire clamping mechanism (237) is arranged on the side of the base (231); the traction assembly (24) comprises a moving plate (241), a clamping cylinder (242), a clamping plate (243) and a lead screw assembly (244); the movable plate (241) is movably connected to the rack through a vertical plate (245), the screw rod assembly (244) is installed on the side of the vertical plate (245), and the screw rod assembly (244) drives the movable plate (241) to move back and forth; the clamping cylinder (242) is arranged on the moving plate (241), and the clamping plates (243) are arranged at two moving ends of the clamping cylinder (242).

5. The clothing buckle bending and forming equipment according to claim 1, wherein the cutting device (3) comprises a connecting plate (31), an upper cutting cylinder (32), an upper cutter (33), a lower cutting cylinder (34) and a lower cutter (35); the connecting plate (31) is arranged on the side edge of the base (231), the upper cutting cylinder (32) is arranged above the connecting plate (31), and the lower cutting cylinder (34) is arranged below the connecting plate (31); the upper cutter (33) is arranged at the telescopic end of the upper cutting cylinder (32), the lower cutter (35) is arranged at the telescopic end of the lower cutting cylinder (34), and the upper cutter (33) and the lower cutter (35) are vertically corresponding.

6. The garment buckle bending and forming device according to claim 1, wherein the forming device (4) comprises a lifting frame (41), a lifting cylinder (42), a rear end clamping mechanism (43), a front end clamping mechanism (44) and a lifting mechanism (45); the lifting cylinder (42) is vertically arranged on the rack, the lifting frame (41) is movably connected to the rack through a sliding rail, and the telescopic end of the lifting cylinder (42) is connected with the lifting frame (41); the rear end clamping mechanism (43) and the front end clamping mechanism (44) are arranged at two ends of the lifting frame (41), and the lifting mechanism (45) is arranged in the middle of the lifting frame (41); the rear end clamping mechanism (43) and the front end clamping mechanism (44) are respectively used for clamping two ends of the material rope, and the lifting mechanism (45) is used for lifting the middle part of the material rope to enable the middle part of the material rope to deform.

7. The garment buckle bending and forming device according to claim 6, wherein the rear end clamping mechanism (43) comprises a first fixing plate (431), a first motor (432), a first screw rod group (433), a first sliding plate (434), a first clamping assembly (435) and a first overturning assembly (436); the first fixing plate (431) is installed on the lifting frame (41), the first sliding plate (434) is movably connected to the first fixing plate (431) through a sliding rail, the first motor (432) and the first screw group (433) are installed on the first fixing plate (431), and the first sliding plate (434) is connected with the moving part of the first screw group (433); the first clamping assembly (435) is hinged at the lower end of the first sliding plate (434); the first overturning assembly (436) is arranged on the first sliding plate (434), the first overturning assembly (436) comprises a driving motor and a transmission belt, and two ends of the transmission belt are respectively connected with a motor spindle and the first clamping assembly (435); the first clamping assembly (435) comprises a fixed rotating shaft (4351), a movable pressing rod (4352) and a clamping cylinder (4353), two ends of the fixed rotating shaft (4351) are hinged to the first sliding plate (434), the movable pressing rod (4352) is connected to the fixed rotating shaft (4351) through a sliding rail, and the fixed rotating shaft (4351) and the movable pressing rod (4352) are both provided with a convex block; the clamping cylinder (4353) is arranged on the fixed rotating shaft (4351), and the telescopic end of the clamping cylinder (4353) is connected with the movable pressure rod (4352); the front end clamping mechanism (44) comprises a second fixing plate (441), a second motor (442), a second screw rod group (443), a second sliding plate (444), a second clamping assembly (445) and a second overturning assembly (446); the second fixing plate (441) is fixed on the first fixing plate (431), the second motor (442) and the second screw rod group (443) are installed on the second fixing plate (441), the second sliding plate (444) is movably connected to the second fixing plate (441) through a sliding rail, and the second clamping assembly (445) is hinged to the second sliding plate (444); the second overturning assembly (446) is arranged on the second sliding plate (444), and the second overturning assembly (446) drives the second clamping assembly (445) to rotate.

8. The garment buckle bending and forming device according to claim 1, wherein the lifting mechanism (45) comprises a third sliding plate (451), a third screw group (452), a lifting screw assembly (453), a lifting plate (454) and a clamping jaw assembly (455); the third sliding plate (451) is movably connected to the lifting frame (41) through a sliding rail, the third screw group (452) is installed on the lifting frame (41), and the moving part of the third screw group (452) is connected with the third sliding plate (451); the lifting screw assembly (453) is arranged on the third sliding plate (451), and the lifting plate (454) is arranged on the moving part of the lifting screw assembly (453) to be connected; the clamping jaw assembly (455) is arranged on the lifting plate (454); the clamping jaw assembly (455) comprises a connecting frame (4551), a clamping jaw driving cylinder (4552), a driving slide bar (4553), a first clamping jaw (4554) and a second clamping jaw (4555); the clamping jaw driving air cylinder (4552) is installed at the upper end of the connecting frame (4551), and the telescopic end of the clamping jaw driving air cylinder (4552) is connected with the driving slide bar (4553); the end of the driving slide bar (4553) is provided with an inclined surface (4556), a connecting frame (4551) is internally provided with a matched inclined surface, and the driving slide bar (4553) can move along the inclined surface in the connecting frame (4551); the middle parts of the first clamping jaw (4554) and the second clamping jaw (4555) are hinged on the connecting frame (4551), and the hinged parts of the first clamping jaw (4554) and the second clamping jaw (4555) are provided with meshed gear tooth profile shapes; a sliding groove (4557) is arranged on the driving sliding strip (4553); the upper end of the first jaw (4554) is pinned in a slide slot (4557) of a drive slide (4553).

9. The clothing buckle bending and forming equipment according to claim 1, wherein the blanking device (5) comprises a platform plate (51), a longitudinal moving cylinder (52), a longitudinal moving mounting frame (53), a transverse moving cylinder (54), a material taking mechanism (55), a blanking base (56), a blanking belt assembly (57), a discharging cylinder (58), a discharging plate (59) and a discharging connecting plate (510); the platform plate (51) is arranged on the rack, and the longitudinal movement mounting rack (53) is arranged on the platform plate (51) through a linear bearing; the material taking mechanism (55) is movably connected to the bottom of the longitudinal moving mounting frame (53), the transverse moving air cylinder (54) is installed on the longitudinal moving mounting frame (53), and the telescopic end of the transverse moving air cylinder (54) is connected with the material taking mechanism (55); the blanking device is characterized in that the blanking base (56) is arranged on a rack, the blanking belt component (57) is arranged on the side of the blanking base (56), the discharging plates (59) are uniformly arranged on the discharging connecting plate (510), the discharging connecting plate (510) is movably connected to the blanking base (56) through sliding rails, the discharging cylinder (58) is arranged on the blanking base (56), and the telescopic end of the discharging cylinder (58) is connected with the discharging connecting plate (510); the material taking mechanism (55) comprises a transverse moving mounting frame (551), a material taking air cylinder (552), a synchronous driving strip (553), a mounting frame (554), a long material taking claw (555) and a short material taking claw (556); the material taking cylinder (552) is installed on the transverse moving installation frame (551), the synchronous driving strip (553) is installed at the telescopic end of the material taking cylinder (552), the installation frame (554) is fixedly arranged at the side end of the transverse moving installation frame (551), and the synchronous driving strip (553) is connected in the installation frame (554) in a matching mode; the long material taking claw (555) and the short material taking claw (556) are hinged to the mounting frame (554), and the long material taking claw (555) and the short material taking claw (556) are meshed at the hinged position through a gear pair; a slotted hole is formed in the synchronous driving strip (553), a pin shaft is arranged at the end part of the long material taking claw (555), and a slotted pair connection is formed between the end part of the long material taking claw (555) and the synchronous driving strip (553); a cavity is formed between the long material taking claw (555) and the short material taking claw (556), and the discharging plate (59) can be accommodated in the cavity; a connecting plate (511) is further arranged on the side of the discharging plate (59), the connecting plate (511) is located on the side of the blanking belt component (57), and the connecting plate (511) is used for pushing the buckle into the blanking belt component (57); the blanking belt component (57) comprises a motor, a conveying belt, a roller and a transmission belt; the conveying belt is wound on the roller, and an output shaft of the motor is connected with the roller through the driving belt.

10. A garment buckle bending and forming method is characterized by sequentially processing the following steps:

feeding a material rope: the roller assembly (22) drives the clamped material rope, the material rope is straightened through the groove wheel (216) and the follow-up wheel (217), and the two ends of the material rope are clamped by the first wire clamping mechanism (213) and the second wire clamping mechanism (237) at the position of the hot melting assembly (23); the lifting cylinder (234) descends the upper heating plate (233) to press the material rope, and then the upper side moving cylinder (235) and the lower side moving cylinder (236) drive the upper heating plate (233) and the lower heating plate (232) to move oppositely to melt the material rope; then the end part of the material rope is clamped by a clamping plate (243), and the lead screw component (244) drives the clamped material rope to be led out, so that the material loading is realized;

bending a material rope: the rear end clamping mechanism (43) clamps the rear end of the material rope, and the clamping cylinder (4353) drives the movable pressure rod (4352) to be close to the fixed rotating shaft (4351) to clamp the material rope; the front end clamping mechanism (44) clamps the front end of the material rope through the same mechanism; then the cutting device (3) cuts off the material rope sent out by the feeding device (2); then the lifting screw rod assembly (453) drives the clamping jaw assembly (455) to descend, the clamping jaw driving cylinder (4552) drives the driving slide bar (4553) to move to drive the first clamping jaw (4554) to swing, the first clamping jaw (4554) and the second clamping jaw (4555) clamp the material rope through gear tooth profile transmission, then the lifting screw rod assembly (453) drives the middle of the clamped material rope to lift, and meanwhile the rear-end clamping mechanism (43) and the front-end clamping mechanism (44) are close to the middle to finish bending and forming of the middle; then the first overturning component (436) drives the first clamping component (435) to rotate for a certain angle, and the second overturning component (446) drives the second clamping component (445) to rotate for a certain angle, so that the two end parts are bent;

buckle blanking: the vertical movement is realized by a longitudinal moving mounting rack (53), the horizontal movement is realized by a transverse moving air cylinder (54), a material taking mechanism (55) is firstly stretched into the material taking mechanism to clamp a bent buckle, so that the buckle is hung between a long material taking claw (555) and a short material taking claw (556), then the material taking air cylinder (552) drives a synchronous driving strip (553) to move, the synchronous driving strip (553) drives the long material taking claw (555) to rotate around a shaft, and the short material taking claw (556) is driven to rotate under the action of a gear; then unload cylinder (58) and drive stripper (59) and release, will be long get the buckle between material claw (555) and the short material claw (556) and push down to unloading belt subassembly (57) on and carry out the unloading.