CN218790913U - Material receiving device of zipper head penetrating machine - Google Patents

Abstract

The utility model belongs to the technical field of zipper equipment, refer in particular to a receiving device of zip fastener threading machine, including the bottom plate, be connected with the flitch that connects of its translation relatively on the bottom plate, connect to be formed with on the flitch and be used for putting into the silo that connects of pull head, connect to be connected with wobbling locating lever on the flitch, the one end of locating lever is formed with and connects the pressure material end that the silo aligns, presses the material end to move to connect the silo top along with the locating lever swing. The material receiving device can accurately reinforce and position the puller in the process of receiving and conveying the puller.

Description

Material receiving device of zipper head penetrating machine

Technical Field

The utility model belongs to the technical field of the zip fastener equipment, a receiving device of zip fastener penetrator is related to.

Technical Field

In a zipper head threading machine, after a slider needs to be fed onto an upper slider mold, the upper slider mold can perform an upper slider action to load the slider into a zipper tape. Therefore, a device capable of receiving and feeding the slider to the upper slider mold is required in the slide fastener stringer.

For example, CN202123423988.7 discloses a slider upper mold mechanism of a slider loader, which includes a feeding device, a receiving device and a loading mold, wherein the receiving device can receive a slider from the feeding device and move above the loading mold to feed the slider into the loading mold. However, when the material receiving device in the above mechanism conveys the slider, the slider is simply clamped in the material receiving groove, the corresponding positioning structure is lacked to reinforce the position of the slider in the material receiving device, the slider is likely to shake or shift when the material receiving device drives the slider to move, and then the position of the subsequent slider is shifted, and the slider cannot be accurately loaded to a material loading mold.

Disclosure of Invention

The utility model provides an according to the above-mentioned problem, a receiving device of zip fastener threading machine is provided, this receiving device receives the pull head in the zip fastener threading machine after, can consolidate the position of pull head in this receiving device through wobbling locating lever.

The purpose of the utility model is realized like this:

the utility model provides a receiving device of zip fastener threading machine, includes the bottom plate, is connected with the flitch that connects that can its translation relatively on the bottom plate, connects to be formed with on the flitch to be used for putting into the silo that connects of pull head, connect to be connected with wobbling locating lever on the flitch, the one end of locating lever be formed with connect the material pressing end that the silo aligns, press the material end along with the locating lever swing removal extremely connect the silo top.

As a further description of the above technical solution, the pressing end is connected with a pressing wheel with an arc-shaped surface, and the pressing wheel can move to the upper part of the material receiving groove along with the pressing end.

As a further description of the above technical solution, a guide block located on one side of the material receiving plate is fixed on the bottom plate, and a guide rod capable of translating relative to the guide block and connected to the material receiving plate is arranged on the guide block.

As a further description of the above technical solution, a pushing block extending above the positioning rod is fixed on the bottom plate, a tilting end capable of abutting against the lower end of the pushing block is formed on the positioning rod, the positioning rod passes through the lower end of the pushing block along with the translation of the material receiving plate, a spring connected with the positioning rod is arranged on the material receiving plate, and the spring makes the positioning rod have a tendency of swinging in a direction in which the material pressing end descends and the tilting end ascends.

As a further description of the above technical solution, the pushing block is connected with a pushing wheel with an arc-shaped surface, and the tilting end is formed with an inclined surface that abuts against the pushing wheel.

As a further description of the above technical solution, the material receiving plate is fixed with a supporting block, the supporting block is connected with a limiting block extending above the positioning rod, and the spring is supported between the positioning rod and the limiting block.

As a further description of the above technical solution, a support hole for connecting to the support block is formed on the positioning rod, and the positioning rod swings with the support hole as a rotation center.

As a further description of the above technical solution, a receiving end is arranged on the receiving plate, a detachable receiving mold is connected to the receiving end, a first clamping block is formed on the receiving mold, a second clamping block aligned with the first clamping block is formed on the receiving end, and the receiving groove is defined between the first clamping block and the second clamping block.

As a further description of the above technical solution, the second clamping block may swing with respect to the first clamping block.

As a further description of the above technical solution, an adjusting hole for connecting to the receiving end is formed on the receiving mold, and the adjusting hole can translate relative to the receiving end.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. in this receiving device, connect the flitch connect the silo to be equipped with the pull head after, through letting the locating lever swing to the pressure material end push down pull head wherein in the silo top of connecing, can play the effective reinforcement of pull head position in this receiving device, place and appear rocking, the skew in the in-process pull head that connects the flitch to remove on connecing the silo for this receiving device can accurately send the pull head to the relevant position on the last pull head mould of zip fastener penetrator in, improves the whole precision and the stability of zip fastener penetrator in the course of working of processing the zip fastener.

2. Through the detachable material receiving die, the size of the material receiving groove on the material receiving plate can be changed correspondingly according to the replacement and movement of the material receiving die, so that the material receiving device can adapt to the acceptance of the pull heads with different sizes, the pull heads are accurately positioned after the size of the material receiving groove is adjusted, and the stability of the material receiving device during the transportation of the pull heads is further improved.

Drawings

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

Fig. 1 is a schematic perspective view showing a connection between a receiving device and a feeding device in a zipper head threading machine.

Fig. 2 is a first perspective view of the present invention.

Fig. 3 is a second perspective view of the present invention.

Fig. 4 is a perspective view of the receiving mold.

1-bottom plate, 2-material receiving plate, 21-material receiving groove, 22-material receiving end, 23-second clamping block, 3-positioning rod, 31-material pressing end, 311-pressing wheel, 32-tilting end, 321-inclined surface, 33-supporting hole, 4-guiding block, 41-guide rod, 5-pushing block, 51-pushing wheel, 6-supporting block, 61-limiting block, 7-material receiving mold, 71-first clamping block, 72-adjusting hole, 8-feeding device and 81-feeding groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The invention will be further described in the following with reference to specific embodiments thereof,

as shown in fig. 1-3, a receiving device of a zipper head threading machine comprises a bottom plate 1 which can drive the receiving device to move integrally in the zipper head threading machine, the bottom plate 1 receives a slider sent out from a feeding device 8 of the zipper head threading machine through a material receiving plate 2 which can move horizontally relative to the bottom plate, the slider is sent into a material receiving groove 21 of the material receiving plate 2 from a feeding groove 81, and then a material pressing end 31 of a positioning rod 3 abuts against the upper end of the slider in the material receiving groove 21 through the swinging of the positioning rod 3. In the zipper head threading machine, the zipper head is firstly sent to the feeding groove 81 of the feeding device 8, the material receiving plate 2 of the material receiving device is translated to the material receiving groove 21 to be aligned with the feeding groove 81 in the feeding device 8, after the zipper head in the feeding groove 81 is pushed to the material receiving groove 21, the material receiving plate 2 continues to translate to the upper part of the upper zipper head mold, and after the notch for placing the zipper head on the material receiving groove 21 and the upper zipper head mold is aligned up and down, the zipper head is received by the raised upper zipper head mold. In the process that the material receiving plate 2 moves above the upper puller mold, the positioning rod 3 swings to the material pressing end 31 to abut against the puller in the material receiving groove 21, so that the effect of reinforcing the position of the puller in the material receiving groove 21 is achieved in the moving process of the material receiving plate 2. In this receiving device, the translation of connecing flitch 2 is controlled by driving pieces such as motor, cylinder, and it can to realize corresponding effect.

As shown in fig. 2-3, a pressing wheel 311 is connected to the pressing end 31 of the positioning rod 3, and after the pressing end 31 swings with the positioning rod 3, the pressing wheel 311 abuts against the upper end of the slider in the receiving groove 21, so as to position the slider. Wherein, pinch roller 311 reduces the wearing and tearing that the pull head received when supporting the pull head, plays the effect of protection pull head to improve the quality of zip fastener penetrating machine output product.

As an improved embodiment, on the base 1, when the material receiving plate 2 is controlled by the driving part to translate, the guide rod 41 moves synchronously with the material receiving plate 2, the guide rod 41 penetrates out of the guide block 4, the guide block 4 plays a role in guiding when the guide rod 41 translates relative to the guide block, and the guide block 4 is matched with the guide rod 41 to enable the material receiving plate 2 to move linearly and smoothly.

As an improved embodiment, in the material receiving device, when the material pressing end 31 of the positioning rod 3 abuts against the upper end of the slider in the material receiving groove 21 on the material receiving plate 2, the tilting end 32 at the other end of the positioning rod 3 tilts and abuts against the lower end of the pushing block 5 on the bottom plate 1. In the translation process of the material receiving plate 2, when the material receiving plate 2 translates towards the direction which enables the material receiving groove 21 to align with the feeding groove 81 of the feeding device 8, the tilting end 32 of the positioning rod 3 passes through the lower end of the pushing block 5, the pushing block 5 applies downward pushing force to the positioning rod 3, so that the tilting end 32 descends towards the positioning rod 3, the pressing end 31 swings in the ascending direction, a spring connected to the positioning rod 3 is compressed when the pressing end 31 ascends, and after the material receiving groove 21 aligns with the feeding groove 81, a pull head can smoothly move from the feeding groove 81 to the material receiving groove 21 without being obstructed by the pressing end 31; when connecing flitch 2 during towards the top translation of last pull head mould, the perk end 32 of locating lever 3 removes to the below that promotes piece 5, promote piece 5 and reduce the whole decurrent thrust of applying of locating lever 3, the spring receives pressure to reduce and promotes the pressure material end 31 decline of locating lever 3 through kick-backing, locating lever 3 orientation makes pressure material end 31 decline this moment, the direction swing that perk end 32 rose, perk end 32 supports again in the lower extreme that promotes piece 5, make connecing flitch 2 at the in-process that moves to last pull head mould top, the pressure material end 31 of locating lever 3 supports in the pull head upper end that connects in silo 21.

As an improved embodiment, the pushing block 5 abuts against the tilting end 32 of the positioning rod 3 through the pushing wheel 51 in the swinging process of the positioning rod 3, the pushing block 5 can reduce the friction force generated between the pushing block and the pushing block when abutting against the tilting end, and when the material receiving plate 2 translates towards the direction that the material receiving groove 21 is aligned with the material feeding groove 81 of the material feeding device 8, the tilting end 32 on the positioning rod 3 slides along the pushing wheel 51 through the inclined surface 321 to drive the positioning rod 3 to wholly move towards the tilting end 32 to descend, the material pressing end 31 swings towards the ascending direction, and the inclined surface 321 enables the tilting end 32 of the positioning rod 3 to pass through the lower end of the pushing block 5 more smoothly. When the pressing end 31 of the positioning rod 3 abuts against the upper end of the slider in the receiving groove 21 on the receiving plate 2, the inclined surface 321 of the tilting end 32 abuts against the push wheel 51 of the push block 5.

As an improved embodiment, on the material receiving plate 2, the limiting block 61 is installed above the positioning rod 3 through the supporting block 6, the positioning rod 3 controls the swinging direction of the positioning rod 3 through a spring abutting on the limiting block 61, and the spring abutting on one end of the positioning rod 3 applies a thrust force to the positioning rod 3 to enable the material pressing end 31 to move downwards. When the material receiving plate 2 is translated towards the direction which enables the material receiving groove 21 to be aligned with the material feeding groove 81 of the material feeding device 8, the material pressing end 31 on the positioning rod 3 is pressed down by the pushing block 5 to ascend due to the tilting end 32, and extrudes the spring between the positioning rod 3 and the limiting block 61, so that the spring is compressed; when the material receiving plate 2 moves horizontally towards the upper part of the upper puller mould, the tilting end 32 of the positioning rod 3 is pushed by the pushing block 5 to be reduced in the moving process along with the material receiving plate 2, the pressure of the spring from the material pressing end 31 is reduced, and the spring begins to rebound and pushes the material pressing end 31 to descend.

As an improved embodiment, on the receiving plate 2, the positioning rod 3 is connected to the supporting block 6 by a round rod passing through a supporting hole 33 and inserted into the supporting block 6, and the positioning rod 3 swings with the supporting hole 33 as a rotation center by supporting the round rod connecting the positioning rod with the supporting block 6.

As shown in fig. 2-4, since the zipper head threading machine can work for various sliders with different sizes, the receiving mold 7 connected to the receiving end 22 on the receiving plate 2 can be replaced according to the size of the slider to be processed by the zipper head threading machine, the first clamping blocks 71 with different sizes are arranged on different receiving molds 7, the slider positioned in the receiving groove 21 is clamped by the receiving end 22 through the first clamping block 71 and the second clamping block 23, and the size of the first clamping block 71 is changed by replacing the receiving mold 7, so that the size of the receiving groove 21 defined by the first clamping block 71 and the second clamping block 23 can adapt to the size change of the slider to be processed in the zipper head threading machine, the position of the slider in the receiving groove 21 can be further kept stable, and the phenomenon of position deviation and shaking in the receiving groove 21 due to the non-matching of the size of the slider is avoided.

As an improved embodiment, in the zipper head threading machine, when the material receiving plate 2 moves above the upper slider mold, and the material receiving groove 21 is aligned with the notch on the upper slider mold for receiving the slider, the second clamping block 23 can open the material receiving groove 21 by swinging, and the slider in the material receiving groove 21 can be smoothly received by the raised upper slider mold after being no longer clamped. The movement of the second clamping block 23 is controlled by corresponding driving parts such as a cylinder and a motor, and the corresponding effect can be achieved.

As a modified example, on the receiving plate 2, the receiving mold 7 is connected to the receiving end 22 by being connected through the adjusting hole 371 and into the receiving plate 2 by, for example, a bolt, a nut, a screw, or the like, and the position where the receiving mold 7 is connected to the receiving end 22 can be adjusted according to the position of the adjusting hole 371 relative to the connecting piece when the receiving mold 7 is fixed after passing through the adjusting hole 371 by the connecting piece. The position of the movable adjusting hole 371 relative to the connecting piece can change the whole position of the material receiving mold 7 when the material receiving mold 7 is installed, and the size of the material receiving groove 21 defined between the first clamping block 71 on the material receiving mold 7 and the second clamping block 23 on the material receiving end 22 also changes along with the movement of the material receiving mold 7 driving the first clamping block 71, so that the size of the material receiving groove 21 can be changed adaptively according to the size of the processing puller in the zipper puller threading machine.

In conclusion, the material receiving device can not only reinforce and position the position of the pull head in the process of receiving the pull head and conveying the pull head, but also adjust the size of the pull head, so that the material receiving device can be suitable for receiving and conveying various pull heads.

The above embodiment is only the preferred embodiment of the present invention, and the protection scope of the present invention is not limited in this way, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a receiving device of zip fastener threading machine, includes the bottom plate, is connected with the flitch that connects that can its translation relatively on the bottom plate, connects to be formed with on the flitch to be used for putting into the silo that connects of pull head, its characterized in that, connect to be connected with wobbling locating lever on the flitch, the one end of locating lever be formed with connect the material end of pressing that the silo aligns, press the material end along with the locating lever swing removal extremely connect the silo top.

2. The material receiving device of the zipper slider threading machine according to claim 1, wherein a pressing wheel with an arc-shaped surface is connected to the pressing end, and the pressing wheel can move above the material receiving groove along with the pressing end.

3. The receiving device of a zipper slider threading machine according to claim 1, wherein a guide block is fixed on the bottom plate and positioned at one side of the receiving plate, and a guide rod capable of translating relative to the guide block and connected to the receiving plate is arranged on the guide block.

4. The receiving device of a zipper head threading machine according to claim 1, wherein a pushing block extending above the positioning rod is fixed on the bottom plate, a tilting end capable of abutting against the lower end of the pushing block is formed on the positioning rod, the positioning rod passes through the lower end of the pushing block along with the translation of the receiving plate, a spring connected with the positioning rod is arranged on the receiving plate, and the spring makes the positioning rod have a tendency of swinging towards a direction that the material pressing end descends and the tilting end ascends.

5. The material receiving device of a zipper puller according to claim 4, wherein the pushing block is connected with a pushing wheel with an arc-shaped surface, and the tilting end is provided with an inclined surface which is abutted to the pushing wheel.

6. The receiving device of a zipper head threading machine according to claim 4, wherein a supporting block is fixed on the receiving plate, a limiting block extending above the positioning rod is connected on the supporting block, and the spring is abutted between the positioning rod and the limiting block.

7. The receiving device of a zipper puller according to claim 6, wherein a supporting hole for connecting to the supporting block is formed on the positioning rod, and the positioning rod swings around the supporting hole as a rotation center.

8. The receiving device of a zipper slider threading machine according to claim 1, wherein the receiving plate is provided with a receiving end, a detachable receiving mold is connected to the receiving end, a first clamping block is formed on the receiving mold, a second clamping block aligned with the first clamping block is formed on the receiving end, and the receiving groove is defined between the first clamping block and the second clamping block.

9. The receiving device of a zipper slider threading machine according to claim 8, wherein the second clamping block can swing relative to the first clamping block.

10. The receiving device of a zipper slider threading machine according to claim 8, wherein an adjusting hole for connecting to the receiving end is formed on the receiving mold, and the adjusting hole can translate relative to the receiving end.

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