CN106915033B

CN106915033B - Automatic production line for clothing hanging particles

Info

Publication number: CN106915033B
Application number: CN201710327829.6A
Authority: CN
Inventors: 蒋四军; 冷金星
Original assignee: SHISHI XINGGANG PLASTIC PACKAGING CO Ltd
Current assignee: SHISHI XINGGANG PLASTIC PACKAGING CO Ltd
Priority date: 2017-05-10
Filing date: 2017-05-10
Publication date: 2020-07-03
Anticipated expiration: 2037-05-10
Also published as: WO2018205861A1; CN106915033A

Abstract

The invention relates to an automatic production line of clothing hanging granules, which comprises a feeding mechanism, an injection molding mechanism, a discharging mechanism, a traction mechanism and a gold stamping mechanism, wherein the discharging end of the feeding mechanism is connected with the feeding end of the injection molding mechanism, the discharging end of the injection molding mechanism is connected with the feeding end of the gold stamping mechanism, the discharging end of the gold stamping mechanism is connected with the discharging end of the discharging mechanism, and the traction mechanism is provided with a traction part for drawing a rope body of the hanging granules to travel in the feeding mechanism, the injection molding mechanism, the gold stamping mechanism and the discharging mechanism. After the technical scheme of the invention is adopted, the feeding mechanism, the injection molding mechanism, the discharging mechanism and the gold stamping mechanism are integrated on a production line through the traction mechanism, so that the automatic production of the clothing hanging granule is realized, and the production efficiency can be effectively improved.

Description

Automatic production line for clothing hanging particles

Technical Field

The invention relates to an automatic production line of clothing hanging granules.

Background

The hang granule is often used for hanging a trademark elevator and is used on clothes to show the model, material, attention and the like of commodities. The common basic structure of the hanging granule comprises a plastic head and a rope body, wherein one end of the rope body is fixed on the plastic head, a clamping block is arranged at the other end of the rope body, a clamping groove is formed in the plastic head, and the clamping block is clamped into the clamping groove, so that the rope body can be enclosed into a closed rope loop.

According to the traditional production method of the hanging granule, the rope body penetrates through the position between an upper die and a lower die of the injection molding mechanism, the plastic head is injected on the rope body through the injection molding mechanism, and then the rope body is manually cut off, so that the automation degree is low, and the production efficiency is low. In addition, some hanging particles are required to form logos or characters on the plastic head through a gold stamping process, and the traditional processing mode is that after the hanging particles are manufactured, the hanging particles are placed in gold stamping equipment for gold stamping treatment, so that the defect of low processing efficiency is also caused.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide an automatic production line of clothing hanging granules, which can improve the production efficiency.

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

dress hangs a grain automatic production line, including feed mechanism, the mechanism of moulding plastics, unloading mechanism and drive mechanism, still include gilt mechanism, feed mechanism's discharge end with the feed end of the mechanism of moulding plastics links up, the discharge end of the mechanism of moulding plastics with the feed end of gilt mechanism links up, gilt mechanism's discharge end with the discharge end of unloading mechanism links up, drive mechanism has the rope body that is used for pulling and hangs a grain and is in feed mechanism mould plastics mechanism, gilt mechanism and the traction element of walking in the unloading mechanism.

As a preferable mode of the present invention, the feeding mechanism includes a mounting bracket, a charging barrel for winding the rope, a guiding device for guiding the rope, and an alarm mechanism for realizing material shortage and material blockage alarm, the alarm mechanism is mounted on the mounting bracket, the alarm mechanism includes an alarm circuit, a trigger switch arranged on the alarm circuit, and an alarm arranged in the alarm circuit, the rope bypasses the trigger switch and is pressed against the trigger switch with a certain pressure, when the pressure of the rope on the trigger switch is eliminated, the trigger switch is turned on, and the alarm circuit, the trigger switch, and the alarm form a closed loop.

As a preferable mode of the present invention, the guiding device includes a first guiding ring and a second guiding ring which are arranged at two sides of the warning mechanism, a first tensioning mechanism is arranged between the first guiding ring and the second guiding ring, and a second tensioning mechanism is arranged between the second guiding ring and the injection molding mechanism.

As a preferable mode of the present invention, the first tensioning mechanism includes a stud, a first pressing plate sleeved on the stud, a second pressing plate movably sleeved on the stud, a pressure adjusting knob engaged with the stud, and a pressure adjusting spring disposed between the second pressing plate and the pressure adjusting knob, and the rope body passes through between the first pressing plate and the second pressing plate.

As a preferable mode of the present invention, the second tensioning mechanism is a counterweight, and a third guide ring is provided on the counterweight and is disposed below the second guide ring.

In a preferred embodiment of the present invention, the cylinder is placed at a lower portion of the mounting frame, and a guide roller for guiding the rope is provided between the first guide ring and the cylinder.

As a preferred mode of the invention, the injection molding mechanism comprises an upper mold, a lower mold and a driving mechanism for driving the upper mold and the lower mold to open and close relatively, a first mold cavity for molding a plastic head of the hanging granule, a second mold cavity for molding a clamping block of the hanging granule, a movable ejector rod for molding a clamping groove on the plastic head, an ejector pin driving block for driving the movable ejector rod to extend into the first mold cavity or leave the first mold cavity, a containing groove for containing the rope body and a material ejecting mechanism for ejecting an injection molded product from the lower mold upwards are formed between the upper mold and the lower mold.

As a preferable mode of the present invention, the ejector pin driving block includes a slider slidably disposed on the lower die and a guide plate formed on the upper die, the lower die is provided with a slide groove penetrating to an upper surface and a side surface of the lower die, the slider includes a mounting portion extending from the upper surface of the upper die and a guide portion extending from the side surface of the upper die, the movable ejector rod is connected to the mounting portion, the guide plate is provided with a chute for guiding the guide portion to slide, the chute extends from an inner side surface to an outer side surface of the guide plate, and the chute extends upward from a lower surface of the guide plate.

As a preferable aspect of the present invention, the chute includes a first chute and a second chute, the slider includes a first slider and a second slider, a first opening into which the guide portion of the first slider slides is formed at a lower end of the first chute, a first limit portion is formed at an upper end of the first chute, a second opening into which the guide portion of the second slider slides is formed at a lower end of the second chute, a second limit portion is formed at an upper end of the second chute, and a distance between the first chute and the second chute gradually decreases from the lower end to the upper end.

As a preferred mode of the invention, the gold stamping mechanism comprises an upper support, a lower support, an upper gold stamping plate arranged on the upper support, a lower gold stamping plate arranged on the lower support, a gold stamping plate driving mechanism for driving the upper gold stamping plate and the lower gold stamping plate to move relatively, a first conveying device for winding a first gold stamping belt, a first material receiving device for recovering waste materials, a second conveying device for winding a second gold stamping belt and a second material receiving device for recovering waste materials, wherein a gold stamping space for hanging particles to pass through is formed between the upper gold stamping plate and the lower gold stamping plate, a first guide mechanism for guiding the first gold stamping belt is arranged on the upper support, and a second guide mechanism for guiding the second gold stamping belt is arranged on the lower support.

As a preferable mode of the present invention, the first guide mechanism includes a first adjusting block and a first guide roller mounted on the first adjusting block, the first adjusting block is provided with a first bar-shaped groove arranged along a length direction of the first adjusting block, the first guide roller is mounted in the first bar-shaped groove through a first nut assembly, the first guide roller is arranged perpendicular to the first bar-shaped groove, an upper end of the first adjusting block is locked on the upper bracket through a first screw, the second guide mechanism includes a second adjusting block and a second guide roller mounted on the second adjusting block, the second adjusting block is provided with a second bar-shaped groove arranged along a length direction of the second adjusting block, the second guide roller is mounted in the second bar-shaped groove through a second nut assembly, the second guide roller is arranged perpendicular to the second bar-shaped groove, and an upper end of the second adjusting block is fixed on the lower bracket through a second screw.

As a preferred mode of the invention, the gold stamping plate driving mechanism is an oil cylinder or an air cylinder fixed on the upper support, and a piston rod of the oil cylinder or the air cylinder is fixedly connected with the upper gold stamping plate.

As a preferable mode of the present invention, the upper bracket and the lower bracket are connected together through a first connection column and a second connection column, the first connection column is sleeved with a first mounting block capable of moving up and down, the second connection column is sleeved with a second mounting block capable of moving up and down, the first mounting block is provided with a first guide block for guiding the hanging granule, the second connection mounting block is provided with a second guide block for guiding the hanging granule, the first guide block is connected to the first mounting block in a manner of being capable of moving horizontally through a first stud, and the second guide block is connected to the second mounting block in a manner of being capable of moving relative to the first guide block through a second stud.

As a preferred mode of the present invention, the discharging mechanism includes a support frame, a first manipulator for clamping the rope, a first driving device for driving the first manipulator to move back and forth along a conveying direction of the rope, a second manipulator for positioning the rope, a cutting device for cutting the rope, a third manipulator for clamping and conveying the cut rope, a second driving device for driving the third manipulator to move back and forth along a movement direction of the rope, and a fourth manipulator for removing the nozzle material adhered to the rope, and the cutting device is disposed between the second manipulator and the third manipulator.

As a preferable mode of the invention, the material cutting device comprises a cutter seat, a cutter correspondingly arranged above the cutter seat, and a cutter driving mechanism for driving the cutter to move up and down, the cutter driving mechanism is installed on the support frame, the support frame is further provided with a lifting device, and the cutter seat is installed on the lifting device.

In a preferred embodiment of the present invention, the fourth robot is mounted on the support frame through a driving cylinder, and the fourth robot is located above the tool rest.

In a preferred aspect of the present invention, the number of the third manipulators is two, and the two third manipulators are arranged along the conveying direction of the rope body.

In a preferred embodiment of the present invention, the first driving device and the second driving device are screw rods or linear motors.

After the technical scheme of the invention is adopted, the feeding mechanism, the injection molding mechanism, the discharging mechanism and the gold stamping mechanism are integrated on a production line through the traction mechanism, so that the automatic production of the clothing hanging granule is realized, and the production efficiency can be effectively improved.

Drawings

FIG. 1 is a schematic structural view of a granule and a nozzle material according to the present invention;

FIG. 2 is a partial schematic view of a loading mechanism of the present invention;

FIG. 3 is a schematic view of a loading mechanism according to the present invention;

FIG. 4 is a schematic view of the structure of the loading mechanism in cooperation with the injection mechanism of the present invention;

FIG. 5 is a partial schematic view of the injection mechanism of the present invention;

FIG. 6 is a schematic structural diagram of a gold stamping mechanism according to the present invention;

FIG. 7 is a schematic structural view of a blanking mechanism according to the present invention;

in the figure:

10-feed mechanism 11-mounting rack

12-charging barrel 13-alarm mechanism

14-first guide ring 15-second guide ring

16-guide roll 17-counterweight

18-third guide ring 131-first pressing piece

132-second pressing piece 133-pressure regulating knob

134-stud 135-pressure regulating spring

136-trigger switch 137-alarm

138-alarm circuit 139-conductive strip

1361-elastic mechanism 20-injection mechanism

201-upper die 202-lower die

203-first die cavity 204-movable ejector pin

205-container 206-hopper

207-first slider 2071-mounting part

2072-guide 208-second slide

209-first inclined groove 2091-first limiting part

2092-first opening 210-second chute

2101-second stopper 2102-second opening

211-guide plate 212-first runner

213-second runner 214-guide ramp

215-nozzle trough

301-upper support 302-lower support

303-upper gilding plate 304-lower gilding plate

305-first gilding tape 306-second gilding tape

307-first conveyor 308-second conveyor

309 first adjusting block 310 first guide roller

311-first elongated groove 312-first screw

313-second adjusting block 314-second guide roller

315-second strip groove 316-second screw

317-first material receiving device 318-second material receiving device

319-first mounting block 320-first locking screw

321-first stud 322-first guide block

323-second mounting block 324-second locking screw

325-second stud 326-second guide block

327-gilding plate driving mechanism 328-first connecting post

329-second connecting column 40-blanking mechanism

401-carriage 402-first manipulator

403-first drive 404-second robot

405-cutter 406-cutter driving mechanism

407-tool apron 408-lifting device

409 fourth manipulator 410 drive cylinder

411-third robot 412-second drive means

50-rope body 60-plastic head

61-clamping groove 62-clamping block

70-nozzle material

Detailed Description

In order to further explain the technical scheme of the invention, the following detailed description is combined with the accompanying drawings.

Referring to fig. 1 to 7, the automatic production line for clothing hanging granule comprises a feeding mechanism 10, an injection molding mechanism 20, a discharging mechanism 40, a traction mechanism and a gold stamping mechanism 30, wherein a discharging end of the feeding mechanism 10 is connected with a feeding end of the injection molding mechanism 20, a discharging end of the injection molding mechanism 20 is connected with a feeding end of the gold stamping mechanism 30, a discharging end of the gold stamping mechanism 30 is connected with a discharging end of the discharging mechanism 40, the traction mechanism is provided with a traction part for drawing the rope 50 of the hanging granule to walk in the feeding mechanism 10, the injection molding mechanism 20, the gold stamping mechanism 30 and the discharging mechanism 40, in the invention, the traction part is a first mechanical arm 402 and a first driving device 403, and the rope 50 is drawn by means of the first mechanical arm 402 and the first driving device 403, so that the intermittent conveying of the rope 50 is realized. The hanging granule comprises a rope body 50, a plastic head 60 injection-molded on the rope body 50, a clamping groove 61 formed on the plastic head 60 and a clamping block 62 injection-molded on the rope body 50, wherein in the processing process, a plurality of hanging granules are molded on a nozzle material 70, then the nozzle material 70 is removed, and the rope body 50 is cut into a preset length.

The invention improves the injection molding mechanism, the feeding mechanism 10 comprises a mounting frame 11, a charging barrel 12 for winding the rope body 50, a guiding device for guiding the rope body 50 and an alarm mechanism 13 for realizing the alarm of material shortage and material blockage, the alarm mechanism 13 is mounted on the mounting frame 11, the alarm mechanism 13 comprises an alarm circuit 138, a trigger switch 136 arranged on the alarm circuit 138 and an alarm 137 arranged in the alarm circuit 138, the rope body 50 bypasses the trigger switch 136 and is pressed against the trigger switch 136 with certain pressure, when the pressure of the rope body 50 on the trigger switch 136 is eliminated, the trigger switch 136 is conducted, the alarm circuit 138, the trigger switch 136 and the alarm 137 form a closed loop to realize the alarm, specifically, a conducting strip 139 is arranged on the alarm circuit 138, an elastic mechanism 1361 is arranged at one end of the trigger switch 136, and under the condition that the trigger switch 136 has no pressure of the rope body 50, by means of the elastic mechanism 1361, the trigger switch 136 is pressed against the conductive sheet 139, so as to form a closed loop, when the rope 50 is pressed against the other end of the trigger switch 136, the trigger switch 136 overcomes the elastic force of the elastic mechanism 1361, so that the trigger switch 136 is separated from the conductive sheet 139, the trigger switch 136 of the present invention is a common switch in the field of electronic components, and can be purchased from the market directly.

In a preferred embodiment of the present invention, the guiding device includes a first guiding ring 14 and a second guiding ring 15 disposed on both sides of the warning mechanism 13, the first guiding ring 14 and the second guiding ring 15 are disposed on substantially the same horizontal plane, a first tensioning mechanism is disposed between the first guiding ring 14 and the second guiding ring 15, and a second tensioning mechanism is disposed between the second guiding ring 15 and the injection molding mechanism 20.

In a preferred embodiment of the present invention, the first tensioning mechanism includes a stud 134, a first pressing plate 131 fitted over the stud 134, a second pressing plate 132 movably fitted over the stud 134, a pressure adjusting knob 133 fitted over the stud 134, and a pressure adjusting spring 135 disposed between the second pressing plate 132 and the pressure adjusting knob 133, and the string 50 passes through between the first pressing plate 131 and the second pressing plate 132. The interaction between the first pressing piece 131 and the second pressing piece 132 can be adjusted by the adjusting knob 133, so that a certain clamping force is generated on the string 50 between the first pressing piece 131 and the second pressing piece 132, and the string 50 can act on the trigger switch 136 with a certain pressure.

In a preferred embodiment of the present invention, the second tensioning mechanism is a counterweight 17, the counterweight 17 is directly placed on the ground, the counterweight 17 is provided with a third guide ring 18, and the third guide ring 18 is disposed below the second guide ring 15.

In a preferred embodiment of the present invention, the barrel 12 is placed at a lower portion of the mounting frame 11, the guide roller 16 for guiding the rope 50 is disposed between the first guide ring 14 and the barrel 12, and the guide roller 16 is disposed below the first guide ring 14 and the second guide ring 15, and in the present invention, the rope 50 is pressed against the trigger switch 136 by the guide roller 16, the first guide ring 14, the second guide ring 15, the third guide ring 18, the first pressing piece 131, and the second pressing piece 132.

The invention improves an injection molding mechanism 20, which comprises an upper mold 201, a lower mold 202 and a driving mechanism for driving the upper mold 201 and the lower mold 202 to open and close relatively, wherein the driving mechanism adopts an oil cylinder, a piston rod of the oil cylinder is connected to the lower end of the lower mold 202, and the oil cylinder drives the lower mold 201 to move up and down, so that the mold opening and closing are realized. A first die cavity 203 for molding a plastic head of hanging particles, a second die cavity (located between a plurality of slide blocks and shielded in the drawing) for molding a fixture block 62 for the hanging particles, a movable ejector rod 204 for molding a clamping groove 61 on the plastic head 60, an ejector pin driving block for driving the movable ejector rod 204 to extend into the first die cavity 203 or leave the first die cavity 203, a containing groove 205 for containing the rope 50, a nozzle groove for molding the nozzle material 70, and an ejecting mechanism for ejecting an injection molded product from the lower die 202 upwards, wherein the ejecting mechanism mainly comprises a driving source and an ejector pin, the ejector pin extends into the first die cavity 203 or the containing groove 205 or the nozzle groove 215, and after demolding, the ejector pin is driven by the driving source, so that the molded hanging particles are ejected from the lower die 202 and taken away by a traction mechanism, the material ejecting mechanism is a structure which is common in the injection molding mechanism and is not described in detail here. In the present invention, the injection mechanism 20 further includes a hopper 206, the hopper 206 is provided with a corresponding heating mechanism and a corresponding feeding mechanism, and a discharging end of the hopper 206 is communicated with a feeding end of the upper mold 201, and is used for feeding the hot-melt plastic body to the upper mold 201.

In a preferred embodiment of the present invention, the thimble driving block includes a slider slidably disposed on the lower die 202 and a guide plate 211 formed on the upper die 201, the lower die 202 is provided with a sliding slot penetrating to an upper surface and a side surface of the lower die 202, the slider includes a mounting portion 2071 extending from the upper surface of the upper die 201 and a guide portion 2072 extending from the side surface of the upper die 201, the movable ejector 204 is horizontally connected to the mounting portion 2071, the guide plate 211 is provided with a diagonal slot for guiding the guide portion 2072 to slide, the diagonal slot penetrates from the inner side surface to the outer side surface of the guide plate 211 and extends upward from the lower surface of the guide plate 211, the guide portion 2072 is correspondingly provided with a guide inclined surface 214, and the slider moves back and forth in the process of opening and closing the dies by the cooperation of the diagonal slot and the guide inclined surface 214.

In a preferred embodiment of the present invention, the chute includes a first chute 209 and a second chute 210, the slider includes a first slider 207 and a second slider 208, a first opening 2091 into which the guide portion of the first slider 207 slides is formed at a lower end of the first chute 209, a first limit portion 2091 is formed at an upper end of the first chute 209, a second opening 2102 into which the guide portion of the second slider 208 slides is formed at a lower end of the second chute 210, a second limit portion 2101 is formed at an upper end of the second chute 210, and a distance between the first chute 209 and the second chute 210 gradually decreases from the lower end to the upper end.

The invention also improves the gold stamping mechanism, the gold stamping mechanism 30 comprises an upper bracket 301, a lower bracket 302, an upper gold stamping plate 303 arranged on the upper bracket 301, a lower gold stamping plate 304 arranged on the lower bracket 302, a gold stamping plate driving mechanism 327 for driving the upper gold stamping plate 302 and the lower gold stamping plate 304 to move relatively, a first conveying device 307 for winding a first gold stamping belt 305, a first material receiving device 317 for recovering waste materials, a second conveying device 308 for winding a second gold stamping belt 306 and a second material receiving device 318 for recovering waste materials, wherein the first material receiving device 317 and the second material receiving device 318 respectively comprise a motor, a conveying belt and a material receiving wheel, the waste materials of the first gold stamping belt 305 and the waste materials of the second gold stamping belt 306 are respectively wound on the material receiving wheels, and the waste material recovery is realized by the driving of the motor. A gold stamping space for hanging particles to pass through is formed between the upper gold stamping plate 303 and the lower gold stamping plate 304, and the hanging particles pass through the gold stamping space and stay in the gold stamping space, so that gold stamping processing is realized. The upper bracket 301 is provided with a first guide mechanism for guiding the first gold stamping strip 305, the lower bracket 302 is provided with a second guide mechanism for guiding the second gold stamping strip 306, and the first guide mechanism and the second guide mechanism are used for avoiding the deviation of hanging particles and realizing accurate gold stamping.

In a preferred embodiment of the present invention, the first guide mechanism includes a first adjusting block 309 and a first guide roller 310 installed on the first adjusting block 309, the first adjusting block 309 is provided with a first bar-shaped groove 311 arranged along the length direction of the first adjusting block 309, the first guide roller is arranged in the first bar-shaped groove 311 through a first nut component 310, a first guide roller 310 is arranged perpendicular to the first bar-shaped groove 311, the upper end of the first adjusting block 309 is locked on the upper bracket 301 by a first screw 312, the second guide mechanism comprises a second adjusting block 313 and a second guide roller 314 mounted on the second adjusting block 313, a second strip-shaped groove 315 arranged along the length direction of the second adjusting block 313 is arranged on the second adjusting block 313, a second guide roller 314 is arranged in the second strip-shaped groove 315 through a second nut component, the second guide roller 314 is perpendicular to the second strip-shaped groove 315, and the upper end of the second adjusting block 313 is fixed to the lower bracket 302 by a second screw 316. With this structure, the first gilding belt 305 and the second gilding belt 306 are adjusted in direction by the first guide roller 310 and the second guide roller 314, respectively, and in the present invention, the first adjusting block 309 and the second adjusting block 313 can be adjusted in angle by the first screw 312 and the second screw 316, and the first guide roller 310 and the second guide roller 314 can be adjusted in position by the first strip-shaped groove 311 and the second strip-shaped groove 315, so that the first gilding belt 305 and the second gilding belt 306 are laid on the upper gilding plate 302 and the lower gilding plate 304 at a predetermined angle and tension.

As a preferred mode of the present invention, the gold stamping plate driving mechanism 327 is an oil cylinder or an air cylinder fixed on the upper bracket 301, and a piston rod of the oil cylinder or the air cylinder is fixedly connected to the upper gold stamping plate 303.

As a preferred aspect of the present invention, the upper bracket 301 and the lower bracket 302 are connected together by a first connecting post 328 and a second connecting post 329, a first mounting block 319 capable of moving up and down is sleeved on the first connecting post 328, a second mounting block 323 capable of moving up and down is sleeved on the second connecting post 329, a first guide block 322 for guiding the hang granule is disposed on the first mounting block 319, a second guide block 326 for guiding the hang granule is disposed on the second connecting mounting block 323, the first guide block 322 is connected to the first mounting block 323 in a horizontally movable manner by a first screw bolt 321, and the second guide block 326 is connected to the second mounting block 323 in a movable manner relative to the first guide block 322 by a second screw bolt 325. When the first mounting block 319 is locked on the first connecting column 328 by the first locking screw 320 and the second mounting block 324 is locked on the second connecting column 329 by the second locking screw 324, the first mounting block 319 and the second mounting block 324 can be adjusted and positioned on the first connecting column 328 and the second connecting column 329, and the first guide block 322 and the second guide block 326 can realize the adjustment of the horizontal position.

The invention also improves the blanking mechanism, the blanking mechanism 40 comprises a support frame 401, a first mechanical hand 402 for clamping the rope body 50, a first driving device 403 for driving the first mechanical hand 402 to move back and forth along the conveying direction of the rope body 50, a second mechanical hand 404 for positioning the rope body 50, a material cutting device for cutting the rope body 50, a third mechanical hand 411 for clamping and conveying the cut rope body 50, a second driving device 412 for driving the third mechanical hand 411 to move back and forth along the movement direction of the rope body 50 and a fourth mechanical hand 409 for removing the nozzle material adhered on the rope body 50, and the material cutting device is arranged between the second mechanical hand 404 and the third mechanical hand 411. The first manipulator 402, the second manipulator 404, the third manipulator 411 and the fourth manipulator 409 are clamping manipulators, and the clamping manipulators mainly clamp and release two clamping arms which drive the manipulators through cylinders, so that the manipulator can be directly purchased from the market.

As a preferable mode of the present invention, the material cutting device includes a tool post 407, a cutter 405 correspondingly disposed above the tool post 407, and a cutter driving mechanism 406 for driving the cutter 405 to move up and down, the cutter driving mechanism 406 is mounted on the supporting frame 401, the supporting frame 401 is further provided with a lifting device 408, the tool post 407 is mounted on the lifting device 408, and by setting the tool post 407 to be capable of lifting, scraping between the tool post 407 and a hanging granule is avoided, and quality of a product is ensured.

In a preferred embodiment of the present invention, the fourth robot 409 is mounted on the support frame 401 by a driving cylinder 410, and the fourth robot 409 is positioned above the tool rest 407.

In a preferred embodiment of the present invention, there are two third manipulators 411, and the two third manipulators 411 are arranged along the conveying direction of the rope 50.

In a preferred embodiment of the present invention, the first driving device 403 and the second driving device 412 are screws or linear motors.

By adopting the blanking mechanism 40 of the invention, during blanking, the first mechanical arm 402 and the first driving device 403 drive the hanging particles to move one station, the second mechanical arm 404 acts to clamp the hanging particles, the driving cylinder 410 drives the fourth mechanical arm 409 to move downwards and remove the water gap materials 70 from the hanging particles, the two third mechanical arms 411 move to the vicinity of the tool apron 407 and clamp the rope body 50 under the action of the second driving device 412, the lifting device 408 drives the tool apron 407 to ascend, the cutter driving mechanism 406 drives the cutter 405 to move downwards for cutting, the first mechanical arm 402 returns under the action of the first driving device 403 to clamp and feed materials at the next time, and the third mechanical arm 411 clamps and conveys the cut hanging particles to the finished product bin under the action of the second driving device.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims

1. Dress hangs a grain automatic production line, including feed mechanism, the mechanism of moulding plastics, unloading mechanism and drive mechanism, its characterized in that: the feeding mechanism comprises a mounting frame, a charging barrel for winding the rope body, a guiding device for guiding the rope body and an alarm mechanism for realizing the alarm of material shortage and material blockage, the alarm mechanism is mounted on the mounting frame and comprises an alarm circuit, a trigger switch arranged on the alarm circuit and an alarm arranged in the alarm circuit, the rope body bypasses the trigger switch and is pressed on the trigger switch with certain pressure, when the pressure of the rope body on the trigger switch is eliminated, the trigger switch is conducted, the alarm circuit, the trigger switch and the alarm form a closed loop, the guide device comprises a first guide ring and a second guide ring which are arranged on two sides of the alarm mechanism, a first tensioning mechanism is arranged between the first guide ring and the second guide ring, a second tensioning mechanism is arranged between the second guide ring and the injection molding mechanism, the first tensioning mechanism comprises a stud, a first pressing sheet sleeved on the stud, a second pressing sheet movably sleeved on the stud, a pressure regulating knob matched on the stud and a pressure regulating spring arranged between the second pressing sheet and the pressure regulating knob, the rope body penetrates through the space between the first pressing sheet and the second pressing sheet, the second tensioning mechanism is a balance weight, a third guide ring is arranged on the balance weight, the third guide ring is arranged below the second guide ring, and the charging barrel is arranged on the lower portion of the mounting frame, and a guide roller for guiding the rope body is arranged between the first guide ring and the charging barrel.

2. The automatic production line of clothing hang granule as claimed in claim 1, characterized in that: the injection molding mechanism comprises an upper die, a lower die and a driving mechanism for driving the upper die and the lower die to open and close relatively, a first die cavity for forming a plastic head of a suspended particle, a second die cavity for forming a fixture block of the suspended particle, a movable ejector rod for forming a clamping groove on the plastic head, an ejector pin driving block for driving the movable ejector rod to stretch into the first die cavity or leave the first die cavity, a containing groove for containing the rope body and a material ejecting mechanism for ejecting the injection molded product upwards from the lower die are formed between the upper die and the lower die.

3. The automatic production line of clothing hang granule as claimed in claim 2, characterized in that: the thimble driving block comprises a sliding block which can be arranged on the lower die in a sliding manner and a guide plate which is formed on the upper die, a sliding groove is arranged on the lower die and runs through to the upper surface and the side surface of the lower die, the sliding block comprises an installation part which stretches out the upper surface of the upper die and a guide part which stretches out the side surface of the upper die, the movable ejector rod is connected on the installation part, a chute which is used for guiding the guide part to slide is arranged on the guide plate, the chute penetrates through to the outer side surface from the inner side surface of the guide plate and extends upwards from the lower surface of the guide plate, the chute comprises a first chute and a second chute, the sliding block comprises a first sliding block and a second sliding block, a first opening which is used for the guide part of the first sliding block to slide into is formed at the lower end of the first chute, a first limit part is formed at the upper end of the first chute, and, the upper end of second chute forms the spacing portion of second, and the interval of first chute and second chute reduces from the lower extreme to the upper end gradually.

4. The automatic production line of clothing hang granule as claimed in claim 1, characterized in that: the gold stamping mechanism comprises an upper support, a lower support, an upper gold stamping plate arranged on the upper support, a lower gold stamping plate arranged on the lower support, a gold stamping plate driving mechanism used for driving the upper gold stamping plate and the lower gold stamping plate to move relatively, a first conveying device used for winding a first gold stamping belt, a first material receiving device used for recovering waste materials, a second conveying device used for winding a second gold stamping belt and a second material receiving device used for recovering the waste materials, a gold stamping space used for hanging particles to pass through is formed between the upper gold stamping plate and the lower gold stamping plate, a first guide mechanism used for guiding the first gold stamping belt is arranged on the upper support, and a second guide mechanism used for guiding the second gold stamping belt is arranged on the lower support.

5. The automatic production line of clothing hang granule as claimed in claim 4, characterized in that: the first guide mechanism comprises a first adjusting block and a first guide roller arranged on the first adjusting block, a first strip-shaped groove arranged along the length direction of the first adjusting block is formed in the first adjusting block, the first guide roller is arranged in the first strip-shaped groove through a first nut component, the first guide roller is perpendicular to the first strip-shaped groove, the upper end of the first adjusting block is locked on the upper support through a first screw, the second guide mechanism comprises a second adjusting block and a second guide roller arranged on the second adjusting block, a second strip-shaped groove arranged along the length direction of the second adjusting block is formed in the second adjusting block, the second guide roller is arranged in the second strip-shaped groove through a second nut component, the second guide roller is perpendicular to the second strip-shaped groove, the upper end of the second adjusting block is fixed on the lower support through a second screw, and the hot stamping plate driving mechanism is an oil cylinder or an air cylinder fixed on the upper support, and the oil cylinder or the piston rod of the air cylinder is fixedly connected with the upper gold stamping plate.

6. The automatic production line of clothing hang granule as claimed in claim 5, characterized in that: the upper bracket with the lower carriage links together through first spliced pole and second spliced pole, the cover is equipped with the first installation piece that can reciprocate on the first spliced pole, the cover is equipped with the second installation piece that can reciprocate on the second spliced pole, be equipped with the first guide block that is used for the guide to hang the grain on the first installation piece, be equipped with the second guide block that is used for the guide to hang the grain on the second even installation piece, first guide block is connected on first installation piece through first double-screw bolt with the mode that can horizontal migration, the second guide block passes through the second double-screw bolt in order to can be relative first guide block moving connection on the second installation piece.

7. The automatic production line of clothing hang granule as claimed in claim 1, characterized in that: the unloading mechanism includes the support frame, be used for the first manipulator of centre gripping rope body, a drive arrangement for driving first manipulator along rope body direction of delivery round trip movement, a second manipulator for realizing the rope body location, a blank device for realizing the rope body cuts off, a third manipulator for the centre gripping and carry the rope body after cutting off, a fourth manipulator for driving the second drive arrangement of third manipulator along the direction of motion round trip movement of the rope body and being used for rejecting the mouth of a river material that bonds on the rope body, blank device sets up between second manipulator and third manipulator.

8. The automatic production line of clothing hang granule as claimed in claim 7, characterized in that: the cutting device comprises a cutter holder, a cutter correspondingly arranged above the cutter holder, and a cutter driving mechanism used for driving the cutter to move up and down, the cutter driving mechanism is arranged on the support frame, a lifting device is further arranged on the support frame, the cutter holder is arranged on the lifting device, a fourth mechanical arm is arranged on the support frame through a driving cylinder body, the fourth mechanical arm is located above the cutter holder, the number of the third mechanical arms is two, the third mechanical arms are arranged along the conveying direction of the rope body, and the first driving device and the second driving device are lead screws or linear motors.