CN217050478U - Puller feeding device - Google Patents

Abstract

The application provides a puller feeding device, which comprises a frame; the storage hopper is used for containing a puller inserted with a plug block; a conveying module for magnetically adsorbing the stopper and conveying the slider along the conveying belt; the screening mechanism is used for screening the pull head; the positioning and material removing mechanism is used for releasing the pull head from the conveying module; the identification steering mechanism is used for adjusting each puller to keep the same-direction transmission of each puller on the feeding track; the block disengaging mechanism is used for separating and disengaging the plug block inserted on the slider from the middle slider; the plug discharging pipe is used for conveying the stripped plug; a chock hopper for recovering the separated chocks. This application realizes that the pull head especially has the automatic high-efficient feed of rope and meshbelt class pull head, is showing and has promoted feed efficiency, has reduced the human cost.

Description

Puller feeding device

Technical Field

The application relates to the technical field of pull head feeding equipment, in particular to a pull head feeding device.

Background

At present, the feeding mode of the zipper head on the market generally adopts a vibrating disk to screen and feed, and the zipper head products which can not realize feeding to the vibrating disk are mainly classified into three types: the first type is a slider with a light color and a surface which is easily stained; the second type is a pull head with bright surface and easy scratching; the third type is a pull head with a rope and a braid added on a pull piece.

Aiming at the first type and the second type of pull head products, the problem is solved by adopting a film coating method. However, the above third type of zipper puller with a string and a braid-like zipper pull is mainly supplied by manual operation and a vibration plate. Manual feeding efficiency is lower, and labour cost is high, can't be suitable for the manifold pull head product of kind through the vibration dish feed, can't satisfy the production demand.

SUMMERY OF THE UTILITY MODEL

The application provides a pull head feedway has solved above-mentioned technical problem, realizes the automatic feed of pull head, has showing the feeding efficiency who has promoted the pull head.

The application provides a pull head feedway, includes:

a frame;

the storage hopper is used for containing the puller inserted with the plug block;

the conveying module is arranged in the rack and used for magnetically adsorbing the chock block and conveying the puller along the conveying belt;

the material screening mechanism is used for screening the pull heads;

the positioning material removing mechanism is arranged in the rack and is used for releasing the pull head from the conveying module;

the identification steering mechanism is arranged in the frame and used for adjusting the sliders to keep the sliders to be conveyed on the feeding track in the same direction;

the block releasing mechanism is arranged in the frame and used for separating and releasing the plug block inserted on the pull head from the middle pull head;

the plug discharging pipe is used for conveying the removed plugs;

the chock hopper is used for recovering the separated chocks.

Preferably, aluminium alloy and synchronizing wheel mounting, conveyer belt, fixed mounting be used for adsorbing a plurality of magnetite seat, the synchronizing wheel of chock on the conveyer belt, be used for driving step motor, the module support of synchronizing wheel operation and install in the module driving motor of module support.

Preferably, sieve material mechanism includes parallel arrangement's sieve material mechanism right side fixed plate and sieve material mechanism left side fixed plate, set up in install in sieve material mechanism right side fixed plate with connecting axle and drive brush wheel between the fixed plate of sieve material mechanism left side scrape the flitch and install on the connecting axle, the spacer sleeve is connected to the one end installation clockwork spring seat and the other end of connecting axle, scrape the top installation doctor-bar of flitch, the drive brush wheel passes through the hold-in range and the coaxial synchronizing wheel of brush connects brush driving motor.

Preferably, the location removes material mechanism includes the cylinder and install in the limiting plate of cylinder bottom, the cylinder perpendicular to the vertical direction setting of conveyer belt, the magnetite seat moves extremely during the limiting plate, the cylinder drive the limiting plate is pasted the conveyer belt, the restriction the magnetite seat upwards moves.

Preferably, the identifying and steering mechanism comprises a material pulling cylinder, a track push pin, a reverse rotating shaft, a steering motor, a material pushing cylinder, a material pushing rod, a rotating motor induction sheet, an origin positioning photoelectric switch, a rotating motor fixing block and a material pulling cylinder fixing seat;

draw the material cylinder to pass through the material of track ejector pin with L type ejection of compact guide rail pan feeding end pushes the reverse side pivot is discerned the material through sensor discernment pull head cap and is just reversed, through rotatory adjustment pull head direction, the steering motor drives reverse side pivot is rotatory 90, the epaxial track of reverse side pivot with the discharge end track collineation of L type ejection of compact guide rail, the drive of material cylinder the ejector pin is released the material the reverse side pivot gets into the ejection of compact track of L type ejection of compact guide rail.

Preferably, the stripping mechanism comprises a stripping push rod and a stripping air cylinder for driving the stripping push rod to extend to strip the plug from the slider.

Preferably, the bottom of the storage hopper is provided with a turnover plate.

Preferably, a hopper opening and closing mechanism is connected between the turnover plate and the rack.

Preferably, the hopper opening and closing mechanism is a driving cylinder or a driving oil cylinder.

Preferably, the screening mechanism is provided with a cover plate outside.

The application provides a pull head feedway, remove material mechanism, discernment steering mechanism, take off a mechanism, chock discharging pipe, chock hopper and store the fill including frame, storage hopper, transport module, location. And the conveying module adsorbs steel balls on the plug blocks in the operation process, so that the pull heads with the plug blocks inserted in the storage hopper are driven to be conveyed forwards, the pull heads are screened by the material screening mechanism, the pull heads with inconsistent postures are eliminated, and the pull heads with the qualified postures are screened. The puller material is accurately positioned at the positioning material removing mechanism and is separated from the conveying module. The identifying and steering mechanism identifies the positive and negative of the material by identifying the cap of the pull head, and outputs the material after adjusting the direction of the pull head after judging. The block releasing mechanism separates the blocking block from the pull head, the blocking block falls into a blocking block hopper through a blocking block discharging pipe, and the pull head enters a feeding track of the butt joint equipment.

This application compact structure, rationally distributed can be accurate and snatch the draw zipper head of being equipped with the chock in advance steadily, and especially the pulling-on piece contains the pull head of rope, meshbelt class, realizes the automatic material loading feed of this type of product and similar product, has significantly promoted feed efficiency, has reduced the human cost, and the production beat is stable controllable.

Drawings

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

FIG. 1 is a schematic structural view of a slider feeder according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an internal structure of a slider feeding device according to an embodiment of the present application;

FIG. 3 is a schematic view of a magnet holder according to an embodiment of the present application;

FIG. 4 is a schematic view of another angle of FIG. 2;

FIG. 5 is a front view of FIG. 4;

FIG. 6 is an enlarged view of portion A of FIG. 4;

FIG. 7 is a side view of FIG. 4;

FIG. 8 is an enlarged view of the portion B in FIG. 5;

FIG. 9 is an enlarged view of the portion C in FIG. 7

Fig. 10 and 11 are schematic structural diagrams of an identification steering mechanism and a block removing mechanism provided in an embodiment of the present application.

Detailed Description

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

In order to enable those skilled in the art to better understand the scheme of the present application, the present application will be described in further detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of a slider feeding device according to an embodiment of the present application; fig. 2 is a schematic view of the internal structure of a slider feeder according to an embodiment of the present application.

The application provides a pull head feedway mainly includes frame 1, storage hopper 2, carries module 3, sieve material mechanism 4, location and removes material mechanism 5, discernment steering mechanism 6, takes off a piece mechanism, chock discharging pipe 8 and chock hopper 9.

The puller is inserted with a plug block with a built-in steel ball in advance, the conveying module 3 magnetically attracts the zipper puller inserted with the plug block with strong force in the transmission process, the strong magnet is fixed on the conveying belt, and puller products are continuously sucked through the transmission of the conveying belt; the puller attracted by the powerful magnet is pushed into the guide rail through the positioning material removing mechanism 5; the pull heads are adjusted through a direction steering mechanism 6 and the pull heads are ensured to be consistent in direction above the feeding track; the stopper inserted on the zipper head is separated from the zipper head by a block separating mechanism; the removed plugs are recovered through a plug discharging pipe 8 and a plug hopper 9.

Refer to fig. 2. The slider material is transported in the transport direction indicated by the arrow in fig. 2.

The conveying module 3 drives the sliders to be upwards conveyed by the aid of the plug blocks for adsorbing the sliders, the sieving mechanism 4 sieves the passing sliders, sliders with inconsistent postures are removed, and sliders with satisfactory postures are sieved. The puller material is accurately positioned through the positioning material removing mechanism 5 and is separated from the conveying module 3. The identifying and steering mechanism 6 identifies the positive and negative of the material by identifying the cap of the pull head, adjusts the direction of the pull head after the judgment and outputs the material. The block stripping mechanism separates the block from the slider, the block falls into a block hopper 9 through a block discharging pipe 8, and the slider enters a feeding track of the butt joint equipment.

The core of this application lies in, before the equipment of meshbelt rope, cartridge (accomplish through the cartridge kludge) in the pull head, and through magnetic transmission afterwards, through pull head screening, adjustment pull head direction, cartridge separation again, carry the pull head to wearing a first track, realize being in the zipper head of link in the middle of the production, especially the automation, the batched feed of zipper head are drawn to rope and meshbelt class, and is more high-efficient, has realized the automation mechanized operation of pull head feeding process completely.

According to a concrete embodiment of this application, shrouding 10 is installed on the top of frame 1, controls side 11, back and bottom installation shrouding, and shrouding 10 inboard middle part installation support fixed plate 12 is gone up on the top of frame 1, carries to be provided with sieve material mechanism 4 on the module 3, the location removes material mechanism 5, discernment steering mechanism 6, takes off a mechanism and chock discharging pipe 8, carries module 3 to pass through support fixed plate 12 and installs inside frame 1. In addition, universal wheels 15 are installed at four foot positions at the bottom of the frame 1, so that the frame 1 is supported to be transported and stably locked. In addition, the middle part of the frame 1 is provided with an operation closing plate 13, a chock outlet is arranged on the operation closing plate, and a chock hopper 9 at the lower part is used for receiving the outlet and recovering the separated chocks. In addition, two electrical boxes 14 and a discharging storage hopper 16 are mounted on a bottom partition of the rack 1, the electrical boxes 14 are used for supplying power to electrical equipment, and the discharging storage hopper 16 is used for storing semi-finished products.

Referring to fig. 3 and 4, fig. 3 is a schematic structural view of a magnet holder according to an embodiment of the present disclosure; fig. 4 is a schematic view of another angle of fig. 2.

According to a specific embodiment of this application, carry the module including aluminium alloy and synchronizing wheel mounting, conveyer belt 301, a plurality of magnetite seat 302, step motor 303, synchronizing wheel 304, module support and module driving motor 305, each magnetite seat 302 evenly sets up the transmission direction at conveyer belt 301, magnetite seat 302 equals with conveyer belt 301 width, it includes magnet 3021 and magnetite 3022, magnet 3021 is plate structure, magnetite 3022 is transversely installed on magnet 3021, install on conveyer belt 301 through magnet 3021 and connecting piece, in the transportation, thereby drive the slider transmission by the chock that magnetite 3022 adsorbs the slider.

Storage hopper and screening mechanism all fix the both sides at the aluminium alloy through the connecting piece, and module driving motor 305 transmits synchronizing wheel 304 through conveyer belt 301, and synchronizing wheel 304 warp beam connects conveyer belt 301 to drive conveyer belt 301 upward movement.

Referring to fig. 4, 5 and 6, fig. 5 is a front view of fig. 4, and fig. 6 is an enlarged view of a portion a of fig. 4.

According to an embodiment of the present application, the material sieving mechanism 4 includes a scraper plate 401, a brush driving motor 402, a brush wheel 403, a connecting shaft 404, a retaining sleeve 405, a right side fixing plate 406 of the material sieving mechanism, a spring seat 407, a left side fixing plate 408 of the material sieving mechanism, a coaxial brush synchronizing wheel 409 and a scraper 410.

The bottom of the scraper plate 401 is fixed on the connecting shaft 404 through threaded connection, the left end of the connecting shaft 404 is connected with the driving scraper spring seat 404, the right end of the connecting shaft 404 is installed on the right fixing plate 406 of the screening mechanism through a retaining sleeve 405, and the axial displacement of the connecting shaft 404 is limited through the retaining sleeve 405. The spring seat 407 is fixed on a left fixing plate 408 of the screening mechanism through threaded connection, the brush wheel 403 is coaxially connected with a coaxial synchronous brush wheel 409, and the brush driving motor 402 drives the coaxial synchronous brush wheel 409 to rotate through a synchronous belt, so as to drive the brush wheel 403 to rotate. In addition, a scraping blade 410 is installed on the top of the scraping plate 401, when the slider passes through the scraping plate 401, the scraping blade 410 scrapes off the uneven slider sucked on the magnet seat 302, and can pull down the product which is not firmly sucked by pressing the pull tab, and then brush and sweep the product by the brush wheel 403, so that the slider is smoother.

In order to prevent external interference, a cover plate can be installed on the outer wall of the screening mechanism 4 to form a surrounding closed structure, so that the interference is prevented, and meanwhile, the slider can be prevented from being polluted by external dust or foreign matters.

Referring to fig. 5 and 8, fig. 8 is an enlarged view of a portion B of fig. 5.

According to a specific embodiment of this application, location removes material mechanism 5 and includes cylinder 501, limiting plate 502, fixed mainboard 503, pushes away material cylinder 504, ejector beam 505, L type ejection of compact guide rail 506 and left side fixed plate 507.

Storage hopper 2 and sieve material mechanism 4 are all fixed in the both sides of aluminium alloy through the connecting piece, and it fixes on fixed mainboard 503 to push away material cylinder 504 and L type ejection of compact guide rail 506 through threaded connection, and fixed mainboard 503 is fixed on the aluminium alloy through left side fixed plate 507 and the sieve material mechanism right side fixed plate 406 and the sieve material mechanism left side fixed plate 408 of symmetry.

When the magnet seat 502 rises to be close to the limiting plate 502, the air cylinder 501 drives the limiting plate 502 to be attached to the conveying belt 301, the magnet seat 302 is limited to move upwards, and accurate positioning is achieved by matching with the air cylinder. Particularly, the slider material is transported to the location and is removed material mechanism 5 department, and after the accurate location of limiting plate 502 of magnetite seat 302, push away material cylinder 505 drive ejector pin 505 and stretch out, push into L type ejection of compact guide rail 506 with all materials of absorbing on the magnetite seat 302.

Referring to fig. 7 and 9, fig. 7 is a side view of fig. 4; fig. 9 is an enlarged view of the portion C in fig. 7.

According to a specific embodiment of the present application, the identification steering mechanism 6 includes a material pulling cylinder 601, a track push pin 602, a reverse rotating shaft 603, a steering motor 604, a material pushing cylinder 605, a material pushing rod 606, a rotating motor induction sheet 607, an origin positioning photoelectric switch 608, a rotating motor fixing block 609, and a material pulling cylinder fixing seat 610.

The material pulling cylinder 601 pushes the material at the feeding end of the L-shaped discharging guide rail 506 into the reverse rotating shaft 603 through the rail pushing pin 602, the cap of the puller is identified through the sensor to distinguish the positive and negative of the material, the direction of the puller is adjusted through rotation after the judgment, and the reverse motor 604 drives the reverse rotating shaft 603 to rotate clockwise or anticlockwise for 90 degrees to realize reversing. The small section of track on the reverse rotating shaft 603 is in line with the discharge end track of the L-shaped discharge guide rail 506, and the material pushing cylinder 605 drives the material pushing rod 606 to push the material out of the reverse rotating shaft 603 and enter the discharge track of the L-shaped discharge guide rail 506.

In addition, the device also comprises a rotating motor, a rotating motor induction sheet 607, an origin positioning photoelectric switch 608, a rotating motor fixing block 609 and a material pulling cylinder fixing seat 610. The rotating motor sensing piece 607 is used for finding the origin of the motor, the origin positioning photoelectric switch 608 is used for detecting the steering position, and the rotating motor fixing block 609 and the material pulling cylinder fixing seat 610 are used for fixing the rotating motor 604 and the material pulling cylinder 601 on the mounting frame respectively. In addition, a synchronous conveyor belt positioning sensor 611 is further arranged on the mounting frame, the moving position is detected through the synchronous conveyor belt positioning sensor 611, and when the magnetic seat 3022 is detected to move to the preset position, the pushing cylinder 505 is controlled to act. The preset position is generally set close to the stopper plate 502.

Referring to fig. 10 and 11, a schematic view for identifying the structure of the steering mechanism and the block-removing mechanism is shown.

According to an embodiment of the present application, the stripping mechanism includes a stripping push rod 701 and a stripping cylinder 702 for driving the stripping push rod 701 to extend to strip the chock from the slider. The stripping push rod 701 and the stripping cylinder 702 are both arranged above the L-shaped discharge guide rail 506, the stripping cylinder 702 extends out, the puller and the plug are separated through the stripping push rod 701, the stripped plug falls into the plug hopper 9 through the plug discharge pipe 8, and the puller enters a feeding track of the butt joint equipment.

According to one embodiment of the present application, the side walls and/or the bottom of the storage hopper 2 are provided with a flap that can be opened by an external force to transport the material in the storage hopper 2 to the discharge hopper 16.

Optionally, a hopper opening and closing mechanism 17 is connected between the turnover plate and the storage hopper 2, and the hopper opening and closing mechanism 17 can be opened and closed by automatically controlling the turnover plate through a controller and can also be automatically controlled to open and close the turnover plate.

The hopper opening and closing mechanism 17 is specifically a driving cylinder or a driving oil cylinder.

By using the puller feeding device, the feeding process is as follows:

the method comprises the following steps: the puller inserted with the plug block is stacked in the storage hopper 2, the conveyer belt 301 transports upwards for transmission, the magnet seat 302 arranged on the conveyer belt 301 attracts steel balls on the plug block, so that the puller is transported upwards, and the pulling piece (rope, braid and the like) of the puller is downward under the action of gravity.

Step two: when the puller is transported upwards to pass through the material screening mechanism 4, the materials with the consistent postures can normally pass through, and the materials with the inconsistent postures are removed.

Step three: the slider material is transported to the location and material removal mechanism 5, and after the magnet base 302 is accurately located by the limiting plate 502, the material pushing cylinder 504 drives the material pushing rod 505 to extend out, so that all the material sucked on the magnet base 302 is pushed into the L-shaped material discharging guide rail 506.

Step four: the material pulling cylinder 601 pushes the material at the feeding end of the L-shaped discharging guide rail 506 into the reverse rotating shaft 603 through the rail pushing pin 602, the sensor identifies the cap of the slider to distinguish the front and the back of the material, the direction of the slider is adjusted through rotation after judgment, the steering motor 604 drives the reverse rotating shaft 603 to rotate clockwise or anticlockwise for 90 degrees, the small section of rail on the reverse rotating shaft 603 and the discharging end rail of the L-shaped discharging guide rail 506 are in the same line, and the material pushing cylinder 504 drives the material pushing rod 505 to push the material out of the reverse rotating shaft 603 to enter the discharging rail of the L-shaped discharging guide rail 506.

And step five, a stripping push rod 701 extends out, the slider is separated from the chock through the stripping push rod 701, the chock falls into a chock hopper 9 through a chock discharge pipe 8, and the slider product enters a feeding track of the butt joint device.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The slider feeder provided by the present application is described in detail above. The principles and embodiments of the present application are explained herein using specific examples, which are provided only to help understand the method and the core idea of the present application. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present application without departing from the principle of the present application, and such improvements and modifications also fall within the scope of the claims of the present application.

Claims (10)

1. A slider feeder, comprising:

a frame (1);

the storage hopper (2) is used for containing a pull head inserted with a plug block;

the conveying module (3) is arranged in the rack (1) and is used for magnetically adsorbing the chock block and conveying the puller along the conveying belt;

the screening mechanism (4) is used for screening the pull heads;

the positioning material removing mechanism (5) is arranged in the rack (1), and the positioning material removing mechanism (5) is used for releasing the pull head from the conveying module (3);

the identification steering mechanism (6) is arranged in the frame (1) and is used for adjusting each pull head to keep the pull heads to transmit on the feeding track in the same direction;

the block stripping mechanism is arranged in the frame (1) and is used for separating and stripping the plug block inserted on the pull head from the middle pull head;

a plug discharging pipe (8) for conveying the plug;

a chock hopper (9) for recovering the separated chocks.

2. The slider feeding device according to claim 1, wherein said conveying module comprises an aluminum profile and a synchronizing wheel fixing member, a conveying belt (301), a plurality of magnet holders (302) fixedly mounted on said conveying belt (301) for adsorbing the stoppers, a synchronizing wheel (304), a stepping motor (303) for driving said synchronizing wheel (304) to operate, a module bracket, and a module driving motor (305) mounted on said module bracket.

3. The pull head feeding device according to claim 1, wherein the material sieving mechanism comprises a right side fixing plate (406) and a left side fixing plate (408) of the material sieving mechanism, a connecting shaft (404) and a driving brush wheel (403) which are arranged in parallel, the connecting shaft (404) is arranged between the right side fixing plate (406) of the material sieving mechanism and the left side fixing plate (408) of the material sieving mechanism, a scraper plate (401) is installed on the connecting shaft (404), a spring seat (407) is installed at one end of the connecting shaft (404) and a blocking sleeve (405) is connected at the other end of the connecting shaft, a scraper blade (410) is installed at the top end of the scraper plate (401), and the driving brush wheel (403) is connected with a brush driving motor (402) through a synchronous belt and a coaxial synchronous brush wheel (409).

4. The slider feeding device according to claim 2, wherein the positioning and material removing mechanism comprises an air cylinder (501) and a limiting plate (502) installed at the bottom of the air cylinder (501), the air cylinder (501) is perpendicular to the vertical direction of the conveyor belt (301), and when the magnet holder (302) moves to the limiting plate (502), the air cylinder (501) drives the limiting plate (502) to cling to the conveyor belt (301) so as to limit the magnet holder (302) to move upwards.

5. The slider feeding device according to claim 4, wherein said identification steering mechanism comprises a pulling cylinder (601), a rail pushing pin (602), a reverse rotating shaft (603), a steering motor (604), a pushing cylinder (605), a pushing rod (606), a rotating motor sensing piece (607), an origin positioning photoelectric switch (608), a rotating motor fixing block (609) and a pulling cylinder fixing block (610);

the material pulling cylinder (601) pushes the material at the feeding end of the L-shaped discharging guide rail (506) into the reverse rotating shaft (603) through the rail pushing pin (602), the direction of the material is identified through a sensor to identify the positive and negative directions of the material through rotating and adjusting the direction of the puller, the steering motor (604) drives the reverse rotating shaft (603) to rotate by 90 degrees, the rail on the reverse rotating shaft (603) is collinear with the discharging end rail of the L-shaped discharging guide rail (506), and the material cylinder (605) drives the material pushing rod (606) to push the material out of the reverse rotating shaft (603) to enter the discharging rail of the L-shaped discharging guide rail (506).

6. The slider feeding device according to any of claims 1 to 5, wherein said ejector mechanism comprises an ejector rod (701) and an ejector cylinder (702) for driving said ejector rod (701) to extend to eject the stopper from the slider.

7. The slider feeding device according to any one of claims 1 to 5, characterized in that a turning plate is installed at the bottom of the storage hopper (2).

8. The slider feeder according to claim 7, characterized in that a hopper opening and closing mechanism (17) is connected between said flap and said frame.

9. Slider feeding device according to claim 8, characterised in that said hopper opening and closing means (17) are embodied as a driving cylinder or a driving oil cylinder.

10. The slider feeder according to claim 3, characterised in that said screening means (4) is provided with a cover plate.

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