CN210988545U - Device for threading stop slider - Google Patents

Abstract

The utility model provides a head penetrating device of a stop slider, which comprises a feeding guide mechanism, a downward pressing feeding mechanism and a slider positioning opening mechanism, wherein the feeding guide mechanism is provided with a vertical guide groove for feeding the stop slider and guiding the stop slider, and the lower end of the vertical guide groove is just opposite to a zipper tape clamp; the downward pressing feeding mechanism is arranged on one side of the feeding guide mechanism, and the output end of the feeding guide mechanism extends to the vertical guide groove and pushes the stop pull head in the vertical guide groove to the zipper tape clamp; the puller positioning and opening mechanism is arranged on one side of the feeding guide mechanism, the output end of the puller positioning and opening mechanism extends to the vertical guide groove and is positioned above the output end of the downward pressing feeding mechanism, and the puller positioning and opening mechanism is used for shifting a pulling piece for stopping the puller to pivot to a unlocking state relative to the puller body. According to the utility model provides a locking pull head device of wearing, through increasing pull head location opening mechanism, can adapt to the production demand of locking pull head.

Description

Device for threading stop slider

Technical Field

The utility model relates to a zip fastener manufacture equipment technical field, specifically speaking relate to a locking pull head penetrating device.

Background

The stopping slider has a self-locking function, and can be pulled to open or close the zipper only when the pull piece of the stopping slider is positioned at a position approximately vertical to the zipper puller body and the pull piece is pulled outwards relative to the zipper puller body; when the pull piece of the stopping slider is close to the slider body, the stopping slider is locked and cannot be pulled, and the zipper strip is kept in an open or closed state.

The chinese utility model patent document with publication No. CN105495879B, entitled "an integrated machine for cutting, threading and punching zipper tapes" discloses a rotary table machine integrating the functions of post-manufacturing processes of zippers, such as cutting, threading and punching zipper tapes. However, the threading device does not have the function of opening the stopping slider and pulling the pull piece outwards relative to the slider body, and the threading operation of the stopping slider cannot be realized.

In this regard, there is a need for an improved structure of the threading device to meet the production requirements of the locking slider.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an improve penetrator device of structure to satisfy the production demand of locking pull head.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: the stopping puller penetrating device comprises a feeding guide mechanism, a downward pressing feeding mechanism, a puller positioning opening mechanism and a feeding driving mechanism, wherein the feeding guide mechanism is provided with a vertical guide groove for feeding the stopping puller and guiding the stopping puller, and the lower end of the vertical guide groove is opposite to the zipper tape clamp; the downward pressing and feeding mechanism is arranged on one side of the feeding guide mechanism, and the output end of the downward pressing and feeding mechanism extends to the vertical guide groove and pushes the stop pull head in the vertical guide groove to the pull head positioning and opening mechanism; the puller positioning and opening mechanism is arranged on one side of the feeding guide mechanism and comprises a puller positioning unit and a puller opening unit, the puller positioning unit is positioned right below the downward pressing feeding mechanism and provided with a positioning part for positioning the stopping puller, and the puller opening unit is used for shifting the pulling piece of the stopping puller to pivot relative to the puller body and outwards pull the pulling piece to a lock releasing state; the feeding driving mechanism drives the pull head positioning opening mechanism to move downwards, so that the locking pull head is kept in a locking releasing state in the process of penetrating the head to the zipper positioned by the zipper tape clamp.

Compared with the prior art, the utility model provides a locking pull head threading device has increased pull head location opening mechanism, and it carries out reliable location to the locking pull head via pull head positioning unit before the locking pull head is worn the head, later opens the pull-on piece that the unit stirred the locking pull head to the relative pull-on piece pivot of pull-on piece and will pull-on piece outward to the state of releasing the lock via the pull head, and material loading actuating mechanism drives pull head location opening mechanism downstream, makes the locking pull head keeps the state of releasing the lock at the in-process of threading to the zip fastener of being fixed a position by anchor clamps zipper strip, and then makes the threading operation of locking pull head and zip fastener can accomplish smoothly. According to the utility model provides a locking pull head device of wearing, through increasing pull head location opening mechanism, can adapt to the production demand of wearing the head to the locking pull head.

Preferably, the pull head opening unit comprises a poking finger for poking the pull piece to pivot relative to the pull head body and a pulling finger for pulling the pull piece outwards; the pulling finger is used for pulling the pulling piece outwards, and the pulling finger are used for releasing the locking of the locking pulling head through the combined action of the pulling finger and the pulling finger.

Specifically, the poking finger is provided with an inclined surface, the poking finger approaches to a pull piece of the stopping pull head from bottom to top, and the poking pull piece is poked to pivot relative to the pull head body through the inclined surface.

Specifically, the pull tab is pivotally connected to the slider via a connecting ring at one end; the pulling finger can be arranged on the outer side of the positioning portion in a pivoting mode, the pulling finger is driven by the first driving piece to pivot so that one end of the pulling finger extends into the connecting ring, and the pulling finger is driven by the second driving piece to move towards the direction far away from the positioning portion so as to pull the pulling piece outwards.

Further, the puller positioning and opening mechanism comprises a positioning plate fixedly connected to the feeding driving mechanism, and the puller positioning unit and the puller opening unit are respectively movably connected to the positioning plate; the second driving piece is fixedly connected to the positioning plate, the output end of the second driving piece drives the pull head positioning unit and the pull head opening unit to move relative to the positioning plate, and therefore the pulling finger and the positioning portion are kept away from each other, and the pull piece outer pull-release lock for stopping the pull head is achieved.

Specifically, the puller positioning unit and the puller opening unit are respectively connected to the left side and the right side of the positioning plate, and the second driving piece is arranged between the puller positioning unit and the puller opening unit; the output end of the second driving piece is provided with a driving inclined plane, and the second driving piece drives the driving inclined plane to vertically move so as to drive the pull head positioning unit and the pull head opening unit to be far away.

Preferably, the feeding driving mechanism further comprises a driving pawl for opening the fastener tape clip.

Preferably, the stopping pull head penetrating device further comprises a one-by-one feeding mechanism, and the one-by-one feeding mechanism, the downward pressing feeding mechanism, the pull head positioning opening mechanism and the feeding driving mechanism are sequentially arranged from top to bottom relative to the feeding guide mechanism; the one-by-one feeding mechanism is used for controlling a plurality of stop sliders arranged in the vertical guide grooves to feed one by one.

Drawings

Fig. 1 is a schematic view of the structure of a stop slider.

Fig. 2 is a schematic structural view of the stopper slider threading device of the present invention.

Fig. 3 is an exploded view of the stopper slider threading device of the present invention.

Fig. 4 is a schematic view of the structure of the feed mechanism.

Fig. 5 is a schematic structural view of the slider positioning and opening mechanism.

Fig. 6 is a schematic view of the internal structure of the slider positioning and opening mechanism.

FIG. 7 is an exploded schematic view of the slider positioning and opening mechanism.

Fig. 8 is a schematic structural view of the slider positioning unit.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Stop slider a00, shown in fig. 1, includes a slider body a10 and pull tab a20, with pull tab a20 pivotally connected to slider body a10 via a coupling ring at one end. The stop slider a00 has a self-locking function, and only when the pull tab a20 of the stop slider a00 is at a position approximately perpendicular to the slider body a10 and the pull tab a20 is at a position to be pulled outward relative to the slider body a10, the stop slider a00 is unlocked and can be pulled to open or close the slide fastener; and when tab a20 of stop slider a10 is in close proximity to the body a10 or tab a20 is in a position generally perpendicular to body a10 but is unstressed and pulled outwardly relative to body a10, stop slider a00 is locked from being pulled, and the fastener strips remain open or closed.

The utility model provides a locking pull head threading device is for wearing locking pull head a00 to by the zip fastener of zipper strip anchor clamps centre gripping on, realize zip fastener and locking pull head a 00's preliminary assembly.

As shown in fig. 2 to 8, the utility model provides a stop slider threading device for threading a stop slider a00 to a zipper positioned by a zipper tape clamp. The stopping slider penetrating device comprises a feeding guide mechanism 100, a downward pressing feeding mechanism 200, a slider positioning opening mechanism 300 and a feeding driving mechanism 400, wherein the feeding guide mechanism 100 is provided with a vertical guide groove 110 for feeding a stopping slider a00 and guiding a stopping slider a00, and the lower end of the vertical guide groove 110 is over against the zipper tape clamp; the downward pressing feeding mechanism 200 is arranged at one side of the feeding guide mechanism 100, and the output end of the downward pressing feeding mechanism 200 extends to the vertical guide groove 110 and pushes the stop slider a00 in the vertical guide groove 110 to the slider positioning opening mechanism 300; the slider positioning and opening mechanism 300 is arranged at one side of the feeding guide mechanism 100, the slider positioning and opening mechanism 300 comprises a slider positioning unit 310 and a slider opening unit 320, the slider positioning unit 310 is positioned under the downward pressing feeding mechanism 200, the slider positioning unit 310 is provided with a positioning part 311 for positioning the stopping slider a00, and the slider opening unit 320 is used for toggling the pull piece a20 of the stopping slider a00 to pivot relative to the slider body a10 and pull the pull piece a20 outwards to a release state; the loading drive mechanism 400 moves the slider positioning opening mechanism 300 downward so that the stopper slider a00 is kept in a release state during threading to the slide fastener positioned by the fastener tape clamp. More specifically:

as shown in fig. 2-8, the utility model provides a stop pull head threading device includes feeding guiding mechanism 100, pushes down feeding mechanism 200, pull head location opening mechanism 300, material loading actuating mechanism 400 and feeding mechanism 500 one by one, and feeding mechanism 500, pushing down feeding mechanism 200, pull head location opening mechanism 300, material loading actuating mechanism 400 set gradually from the top down relative to feeding guiding mechanism 100 one by one. The feeding guide mechanism 100 comprises a guide plate 110 which is vertically arranged, a vertical guide groove 111 which penetrates through the guide plate 110 is vertically formed in the guide plate 110, and the stopping sliders a00 enter the vertical guide groove 111 through the upper end of the vertical guide groove 111, are limited by the vertical guide groove 111 and are arranged in the vertical guide groove 111 in a single row; the one-by-one feeding mechanism 500 is used for controlling a plurality of stop sliders a00 arranged in the vertical guide groove 111 to feed one by one; the downward pressing feeding mechanism 200 is arranged at one side of the feeding guide mechanism 100, and the output end of the downward pressing feeding mechanism 200 extends to the vertical guide groove 111 and pushes the stop slider a00 in the vertical guide groove 111 to the slider positioning opening mechanism 300; the slider positioning and opening mechanism 300 is used for toggling the pull tab a20 of the stop slider a00 to pivot relative to the slider body a10 and open outwards to a release state; the feeding driving mechanism 400 is used for driving the slider positioning and opening mechanism 300 to move integrally, and driving the released stop slider a00 to penetrate the zipper to the zipper positioned by the zipper tape clamp.

The structure of each mechanism is explained in more detail below:

as shown in fig. 2-3, for the feed guide mechanism 100: the feed guide mechanism 100 includes a guide plate 110 disposed vertically. A vertical guide groove 111 which penetrates through the guide plate 110 is vertically formed; the stopper sliders a00 enter the vertical guide grooves 111 through the upper ends of the vertical guide grooves 111, are retained by the vertical guide grooves 111, and are arranged in the vertical guide grooves 111 in a single row. The guide plate 110 is provided with a striker 112 along the vertical direction, wherein for the striker 112: the material blocking mechanism 112 comprises a left baffle and a right baffle, the left baffle and the right baffle are connected with the guide plate 110 in a left-right sliding mode, and the right part of the left baffle and the left part of the right baffle normally extend into the vertical guide groove 111. The stopper sliders a00, which enter and are arranged in a single row in the vertical guide groove 111, are restricted by the middle stopper 112 of the guide plate 110 and cannot move downward freely.

As shown in connection with fig. 4, for the feed-by-feed mechanism 500: the one-by-one feeding mechanism 500 is disposed at a position corresponding to the striker 112 in the middle of the guide plate 110. The feeding mechanism 500 comprises feeding cylinders 510 which are arranged downwards one by one, feeding connecting blocks 520 which are fixedly connected with driving rods of the feeding cylinders 510 one by one, and lower shifting blocks 530 which are hinged with the feeding connecting blocks 520 one by one, wherein the middle parts of the lower shifting blocks 530 are hinged with the feeding connecting blocks 520 one by one, feeding return springs (not shown) one by one are arranged between the rear parts of the lower shifting blocks 530 and the feeding connecting blocks 520 one by one, and protruding parts 531 which can enable a left baffle plate in the material blocking mechanism 112 to slide leftwards and a right baffle plate to slide rightwards are arranged on the front parts of the lower shifting blocks 530. The feeding mechanism 500 is integrally positioned at the rear side of the guide plate 110 and away from the vertical guide groove 111; the protrusion 531 at the front of the lower shifting block 530 passes through the guide plate 110 and extends into the vertical guide groove 111 to press the stopper slider a00 at the lower side thereof downward, the downward pressing force and the inclined surface structure of the slider body a10 at the lower end of the stopper slider a00 drive the left shutter in the striker 112 to slide leftward and the right shutter to slide rightward, and the pressed stopper slider a00 passes through the striker 112 and slides downward.

Preferably, the vertical guide grooves 111 have different cross-sectional dimensions. The size of the vertical guide groove 111 on the upper side of the striker 112 is larger, and a certain gap is formed between the stop slider a00 on the upper half section of the vertical guide groove 111 and the vertical guide groove 111, so that the stop slider a00 can be downwards stacked on the upper side of the striker 112 under the action of gravity; the size of the vertical guide groove 111 positioned at the lower side of the upper material baffle plate 112 is reduced, and the stopping sliders a00 are driven by the feeding mechanisms 500 one by one to enter the lower half section of the vertical guide groove 111 through the upper material baffle plate 112 one by one; the vertical guide groove 111 with smaller size can limit the stop slider a00, so that the position and angle of the stop slider a00 in the vertical guide groove 111 can be controlled, and the subsequent threading operation is facilitated.

As shown in fig. 5 to 7, for the slider positioning opening mechanism 300: the slider positioning and opening mechanism 300 comprises a slider positioning unit 310 and a slider opening unit 320, wherein the slider opening unit 320 is used for toggling a pull tab a20 of a stop slider a00 to pivot relative to a slider body a10 and pull the pull tab a20 outwards to a release state, and the slider positioning unit 310 is used for driving the slider opening unit 320 and the stop slider positioned to the release state by the slider opening unit 320 to move downwards to penetrate through a zipper positioned by a zipper tape clamp, so that threading is realized.

Specifically, as for the slider positioning unit 310, as shown in fig. 3, 5, and 8, the slider positioning unit 310 is located just below the push-down feeding mechanism 200, and the slider positioning unit 310 has a positioning portion 311 for positioning the stopper slider a 00. As shown in fig. 8, the positioning portion 311 corresponds to the outer shape of the stopper slider a 00; the push-down feeding mechanism 200 is disposed at a position slightly below the vertical guide groove 110, and the push-down feeding mechanism 200 is configured to push down and push the stopper sliders a00, which are distributed one by the feeding mechanism 500 to be arranged in a lower half of the vertical guide groove 110, into the positioning portion 311, and the stopper slider a00 pushed into the positioning portion 311 is reliably restrained by the positioning portion 311, so that the slider opening unit 320 drives the stopper slider a00 to an open and release state.

With respect to the opening unit 320, as shown in fig. 3, 5-7, the slider opening unit 320 includes a toggle finger 321 for toggling the pull tab a20 to pivot with respect to the slider body a10 and a pulling finger 322 for pulling the pull tab a20 outward. Wherein the toggle finger 321 is used to pivotally toggle the pull tab a20 away from the pull head body a10, and the pull finger 322 is used to pull the pull tab a20 outward, via the combined action of the toggle finger 321 and the pull finger 322, to unlock the stop slider a 00.

Further, as shown in fig. 5 to 7, the slider positioning and opening mechanism 300 is integrally and fixedly connected to the loading drive mechanism 400. Specifically, the slider positioning and opening mechanism 300 further comprises a positioning plate 330 and a second driving piece 340, and the slider positioning and opening mechanism 300 is fixedly connected to the feeding driving mechanism 400 through the positioning plate 330; the slider positioning unit 310 and the slider opening unit 320 are respectively movably connected to the positioning plate 330; the second driving element 340 is fixedly connected to the positioning plate 330, and the output end of the second driving element 340 simultaneously drives the slider positioning unit 310 and the slider opening unit 320 to move relative to the positioning plate 330, so that the pulling finger 321 and the positioning portion 311 are far away from each other, and the pull tab a20 of the locking slider a00 is pulled out of the lock.

More specifically, as shown in fig. 5 to 7, specifically, the slider positioning unit 310 and the slider opening unit 320 are respectively connected to the left and right sides of the positioning plate 330, and the second driving piece 340 is disposed between the slider positioning unit 310 and the slider opening unit 320; the output end of the second driving element 340 is provided with a driving inclined surface, and the second driving element 340 moves vertically via the driving inclined surface to drive the slider positioning unit 310 and the slider opening unit 320 to move away, so that the pull tab a20 and the pull head body a10 are moved away to realize unlocking.

The slider positioning unit 310 is located below the vertical guide groove 111, and the vertical guide groove 111 is pushed into the positioning portion 311 of the slider positioning unit 310 through the push-down feeding mechanism 200, so that the slider body a10 of the stopper slider a00 is reliably limited, and the pull tab a20 is exposed. For the slider opening unit 320, the toggle finger 321 has an inclined surface, and as the feeding mechanism 200 is pressed down to push the vertical guide groove 111 into the positioning part 311 of the slider positioning unit 310, the toggle finger 321 approaches the pull tab a20 from bottom to top relative to the stop slider a00, and the inclined surface of the toggle finger 321 toggles the pull tab a20 to pivot open relative to the slider body a 10; the pulling finger 322 is pivotally disposed outside the positioning portion 311, and the pulling finger 322 is driven by the first driving member 323 to pivot so that one end of the pulling tab a20 extends into the connecting ring for connecting with the pulling head body a10, and the pulling finger 322 is driven by the second driving member 323 to move in a direction away from the positioning portion 311 to pull the pulling tab a20 outwards.

The working process of the stopping slider penetrating device of the present invention will be described in detail with reference to fig. 1 to 8:

the stopping sliders a00 enter the vertical guide groove 111 through the upper end of the vertical guide groove 111, slide downwards under the action of gravity until being blocked by the blocking mechanism 112, and the blocked stopping sliders a00 are vertically arranged in the vertical guide groove 111 in a single row;

the feeding mechanism 500 works one by one, the feeding cylinder 510 drives the lower shifting block 530 to move downwards one by one, so that the protrusion 531 at the front part of the lower shifting block 530 extending into the vertical guide groove 111 presses the stop slider a00 at the lower side of the lower shifting block downwards, the downward pressing force and the inclined surface structure of the pull head body a10 at the lower end of the stop slider a00 drive the left baffle 112a in the striker 112 to slide leftwards and the right baffle 112b to slide rightwards, and the pressed stop slider a00 passes through the striker 112 and slides downwards; the action of the feeding cylinder 510 is recovered one by one, the lower shifting block 530 rebounds under the action of the restoring force of the feeding return spring one by one, and the protruding part 531 moves to the position above one stopping pull head a00 above the stop mechanism 112;

the feeding mechanism 200 is pressed downwards to move, the single stopping slider a00 in the lower half section of the vertical guide groove 111 is pushed into the positioning part 311 of the slider positioning unit 310, and the stopping slider a00 pushed into the positioning part 311 is reliably limited by the positioning part 311;

it will be appreciated that during the process of the stop slider a00 being pushed into detent 311, the toggle finger 321 approaches tab a20 from below upwards relative to stop slider a00, the inclined surface of the toggle finger 321 toggles tab a20 to pivot open relative to head body a 10; pulling finger 322 pivots under the drive of first drive 323 so that one end extends into the connecting ring of pull tab a20 for connection with pull tab body a10, pulling finger 322 moves under the drive of second drive 323 in a direction away from locator 311 to pull tab a20 outward; the action of plucking finger 321 and pulling finger 322 while being applied to pull tab a20 and held, pull tab a20 being in a unlocked state;

the loading drive mechanism 400 moves down with the slider positioning opening mechanism 300 and the stopper slider a00 which is restrained by the slider positioning opening mechanism 300 and in the unlocked state, to thread the stopper slider a00 onto the fastener tape.

Compared with the prior art, the utility model provides a locking pull head threading device has increased pull head location opening mechanism 300, it is before locking pull head a00 threading, carry out reliable location to locking pull head a00 via pull head positioning unit 310 in advance, later stir the relative pull head a20 of pull head a00 to pull head a10 pivot of pull head a20 via pull head opening unit 320 and pull head a20 outwards pull to the state of releasing the lock, and material loading actuating mechanism 400 drives pull head location opening mechanism 300 and moves down for locking pull head a00 keeps the state of releasing the lock in the process of threading to the zip fastener of being fixed a zip fastener tape anchor clamps location, and then make the threading operation of locking pull head a00 and zip fastener can accomplish smoothly. According to the utility model provides a locking pull head device of wearing, through increasing pull head location opening mechanism, can adapt to the production demand of wearing the head to the locking pull head.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (8)

1. A stop slider head threading device is used for threading a stop slider head on a zipper positioned by a zipper belt clamp; the method is characterized in that: the stop pull head penetrating device comprises a feeding guide mechanism, a downward pressing feeding mechanism, a pull head positioning opening mechanism and a feeding driving mechanism, wherein the feeding guide mechanism is provided with a vertical guide groove for feeding the stop pull head and guiding the stop pull head, and the lower end of the vertical guide groove is over against the zipper tape clamp; the downward pressing and feeding mechanism is arranged on one side of the feeding guide mechanism, and the output end of the downward pressing and feeding mechanism extends to the vertical guide groove and pushes the stop pull head in the vertical guide groove to the pull head positioning and opening mechanism; the puller positioning and opening mechanism is arranged on one side of the feeding guide mechanism and comprises a puller positioning unit and a puller opening unit, the puller positioning unit is positioned right below the downward pressing feeding mechanism and provided with a positioning part for positioning the stopping puller, and the puller opening unit is used for shifting the pulling piece of the stopping puller to pivot relative to the puller body and outwards pull the pulling piece to a lock releasing state; the feeding driving mechanism drives the pull head positioning opening mechanism to move downwards, so that the locking pull head is kept in a locking releasing state in the process of penetrating the head to the zipper positioned by the zipper tape clamp.

2. The stop slider threading device according to claim 1, characterized in that: the pull head opening unit comprises a poking finger for poking the pull piece to pivot relative to the pull head body and a pulling finger for pulling the pull piece outwards.

3. The stop pull threading device of claim 2, wherein: the poking finger is provided with an inclined surface, the poking finger approaches to the pull piece of the stopping pull head from bottom to top, and the pull piece is poked to pivot relative to the pull head body through the inclined surface.

4. The stop pull threading device of claim 2, wherein: the pull piece is pivotally connected with the pull head through a connecting ring at one end; the pulling finger can be arranged on the outer side of the positioning portion in a pivoting mode, the pulling finger is driven by the first driving piece to pivot so that one end of the pulling finger extends into the connecting ring, and the pulling finger is driven by the second driving piece to move towards the direction far away from the positioning portion so as to pull the pulling piece outwards.

5. The stop pull threading device of claim 4, wherein: the puller positioning and opening mechanism comprises a positioning plate fixedly connected to the feeding driving mechanism, and the puller positioning unit and the puller opening unit are respectively movably connected to the positioning plate; the second driving piece is fixedly connected to the positioning plate, the output end of the second driving piece drives the pull head positioning unit and the pull head opening unit to move relative to the positioning plate, and therefore the pulling finger and the positioning portion are kept away from each other, and the pull piece outer pull-release lock for stopping the pull head is achieved.

6. The stop pull threading device of claim 5, wherein: the puller positioning unit and the puller opening unit are respectively connected to the left side and the right side of the positioning plate, and the second driving piece is arranged between the puller positioning unit and the puller opening unit; the output end of the second driving piece is provided with a driving inclined plane, and the second driving piece drives the driving inclined plane to vertically move so as to drive the pull head positioning unit and the pull head opening unit to be far away.

7. The stop slider threading device according to claim 1, characterized in that: the feeding driving mechanism further comprises a driving claw for opening the zipper tape clamp.

8. The stop slider threading device according to claim 1, characterized in that: the stopping pull head penetrating device further comprises a one-by-one feeding mechanism, and the one-by-one feeding mechanism, the downward pressing feeding mechanism, the pull head positioning and opening mechanism and the feeding driving mechanism are sequentially arranged from top to bottom relative to the feeding guide mechanism; the one-by-one feeding mechanism is used for controlling a plurality of stop sliders arranged in the vertical guide grooves to feed one by one.

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