CN211608387U - Zipper head combined structure and sliding part thereof - Google Patents

Abstract

The utility model discloses a draw zipper head integrated configuration and slider thereof. Draw zipper head integrated configuration includes: a sliding part, an elastic part and a pulling part. The sliding part comprises a first sliding part, two riveting parts arranged on the first sliding part and two stopping parts respectively adjacent to the two riveting parts. The elastic member is provided on the slider. The elastic piece is arranged on the sliding piece and comprises a clamping part, a movable part movably penetrating through the first sliding part and an elastic part connected between the clamping part and the movable part. The pulling element comprises a pivoting part movably arranged on the first sliding part and two abutting parts respectively connected with two opposite side ends of the pivoting part. Therefore, when the pulling piece moves relative to the sliding piece and is approximately perpendicular to the first sliding part, the two abutting parts of the pulling piece respectively abut against the two stopping parts, so that the pulling piece is blocked by the two stopping parts.

Description

Zipper head combined structure and sliding part thereof

Technical Field

The utility model relates to a integrated configuration and slider thereof especially relate to a draw zipper head integrated configuration and slider thereof.

Background

The basic pull-close components of conventional garments are not limited to use with buttons or zipper structures. Compared with a button, the zipper structure has better usability and firmer structural characteristics, the common zipper structure is provided with a zipper puller and a zipper tape, the zipper puller is mainly matched with the zipper tape to serve as a connecting component for the zipper structure to be pulled in a reciprocating manner, and the zipper structure is more popular in clothes and accessories.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a zip fastener head integrated configuration and slider is provided to prior art's not enough.

In order to solve the above technical problem, the utility model discloses one of them technical scheme who adopts provides a draw zipper head integrated configuration, and it includes: a sliding part, an elastic part and a pulling part. The sliding part comprises a first sliding part, a second sliding part corresponding to the first sliding part, a connecting part connected between the first sliding part and the second sliding part, two riveting parts arranged on the first sliding part and two stopping parts respectively adjacent to the two riveting parts. The elastic piece is arranged on the sliding piece and comprises a clamping part clamped by the connecting part, a movable part movably penetrating through the first sliding part and an elastic part connected between the clamping part and the movable part. The pulling piece comprises a pivoting part movably arranged on the first sliding part and two abutting parts respectively connected to two opposite side ends of the pivoting part, and the pivoting part comprises two pivoting sections respectively in pivoting fit with the two riveting parts and an abutting section connected between the two pivoting sections. When the pulling member does not move relative to the sliding member and is approximately flatly placed on the first sliding portion, the elastic portion of the elastic member pushes the pushing section of the pivoting portion of the pulling member downwards. When the pulling member moves relative to the sliding member and is approximately perpendicular to the first sliding portion, the abutting section of the pivoting portion of the pulling member abuts against the elastic portion of the elastic member, and the two abutting portions of the pulling member abut against the two stopping portions respectively, so that the pulling member is stopped by the two stopping portions.

Further, the first sliding part has a first end portion that is floating and a second end portion opposite to the first end portion, the second sliding part has a first end portion that is floating and a second end portion opposite to the first end portion, the first end portion of the first sliding part corresponds to the first end portion of the second sliding part, and the connecting portion is connected between the second end portion of the first sliding part and the second end portion of the second sliding part; the first sliding part is provided with a through opening, the movable part of the elastic part movably penetrates through the through opening of the first sliding part, and the two riveting parts are respectively arranged beside two opposite sides of the through opening; the abutting section is provided with a depressed area formed between the two pivoting sections and an abutting area extending outwards from the depressed area; one of the riveting parts comprises two first bending sections which are correspondingly arranged on the first sliding part, and the two first bending sections cover one of the pivoting sections of the pivoting part, so that the pulling part is limited and cannot be separated from the sliding part; the other riveting part comprises two second bending sections which are correspondingly arranged on the first sliding part, and the two second bending sections cover the other pivoting section of the pivoting part, so that the pulling part is limited and cannot be separated from the sliding part; when the pulling piece does not move relative to the sliding piece and is approximately flatly placed on the first sliding part, the elastic part of the elastic piece downwards abuts against the concave area of the abutting section; when the pulling member moves relative to the sliding member and is approximately perpendicular to the first sliding portion, the abutting area of the abutting section abuts against the elastic portion of the elastic member upwards.

Furthermore, one of the riveting parts comprises two first bending sections correspondingly arranged on the first sliding part, and the other riveting part comprises two second bending sections correspondingly arranged on the first sliding part; one of the stopping parts is connected to one of the first bending sections, and the other stopping part is connected to one of the second bending sections; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

Furthermore, one of the riveting parts comprises two first bending sections correspondingly arranged on the first sliding part, and the other riveting part comprises two second bending sections correspondingly arranged on the first sliding part; wherein one of the stop portions and one of the first bending sections are separated from each other and adjacent to each other, and the other of the stop portions and one of the second bending sections are separated from each other and adjacent to each other; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

In order to solve the above technical problem, the utility model discloses another technical scheme who adopts provides a draw zipper head integrated configuration, and it includes: a sliding part, an elastic part and a pulling part. The sliding part comprises a first sliding part, two riveting parts arranged on the first sliding part and two stopping parts respectively adjacent to the two riveting parts. The elastic member is provided on the slider. The pulling piece comprises a pivoting part movably arranged on the first sliding part and two abutting parts respectively connected to two opposite side ends of the pivoting part. When the pulling member moves relative to the sliding member and is approximately perpendicular to the first sliding portion, the two abutting portions of the pulling member abut against the two stopping portions respectively, so that the pulling member is stopped by the two stopping portions.

Furthermore, one of the riveting parts comprises two first bending sections correspondingly arranged on the first sliding part, and the other riveting part comprises two second bending sections correspondingly arranged on the first sliding part; one of the stopping parts is connected to one of the first bending sections, and the other stopping part is connected to one of the second bending sections; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

Furthermore, one of the riveting parts comprises two first bending sections correspondingly arranged on the first sliding part, and the other riveting part comprises two second bending sections correspondingly arranged on the first sliding part; wherein one of the stop portions and one of the first bending sections are separated from each other and adjacent to each other, and the other of the stop portions and one of the second bending sections are separated from each other and adjacent to each other; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

In order to solve the above technical problem, the utility model discloses another technical scheme who adopts provides a slider, and it is applied to a zipper head integrated configuration, the slider includes: the connecting device comprises a first sliding part, a second sliding part, a connecting part, two riveting parts and two blocking parts. The second sliding portion corresponds to the first sliding portion. The connecting portion is connected between the first sliding portion and the second sliding portion. The two riveting parts are arranged on the first sliding part. The two stop parts are respectively adjacent to the two riveting parts. When a pulling member moves relative to the sliding member and is approximately perpendicular to the first sliding portion, the two abutting portions of the pulling member respectively abut against the two stopping portions, so that the pulling member is stopped by the two stopping portions.

Furthermore, one of the riveting parts comprises two first bending sections correspondingly arranged on the first sliding part, and the other riveting part comprises two second bending sections correspondingly arranged on the first sliding part; one of the stopping parts is connected to one of the first bending sections, and the other stopping part is connected to one of the second bending sections.

Furthermore, one of the riveting parts comprises two first bending sections correspondingly arranged on the first sliding part, and the other riveting part comprises two second bending sections correspondingly arranged on the first sliding part; one of the stop portions and one of the first bending sections are separated from each other and adjacent to each other, and the other stop portion and one of the second bending sections are separated from each other and adjacent to each other.

The utility model has the advantages of one of them, the utility model provides a draw zipper head integrated configuration, it can pass through "the slider includes a first sliding part, sets up two riveting portions on the first sliding part and adjacent two respectively two stop portions of riveting portion" and "the pulling piece includes movably setting up a pin joint portion on the first sliding part and connect respectively in two top support portions of the opposite sides side of pin joint portion"'s technical scheme, so that work as the pulling piece for the slider removes and roughly perpendicular to during first sliding part, two of pulling piece top support portion pushes up two respectively stop portion, so that the pulling piece is by two stop portion stops.

The present invention provides a sliding member, which can be used as a sliding member for a sliding member, wherein the sliding member is provided with a first sliding portion, a second sliding portion, a first stop portion, a second stop portion, and a plurality of riveting portions.

For a further understanding of the nature and technical content of the present invention, reference should be made to the following detailed description and accompanying drawings, which are provided for reference and illustration purposes only and are not intended to limit the invention.

Drawings

Fig. 1 is an exploded view of a zipper slider assembly according to a first embodiment of the present invention (the riveting portion is not yet riveted).

Fig. 2 is a schematic view of a combination structure of a zipper slider according to a first embodiment of the present invention (the riveting portion is riveted).

Fig. 3 is another exploded view of the zipper slider assembly according to the first embodiment of the present invention (the riveting portion is not yet riveted).

Fig. 4 is another schematic combination diagram of the zipper slider assembly according to the first embodiment of the present invention (the riveting portion is riveted).

Fig. 5 is a schematic top view of a slider according to a first embodiment of the present invention (the riveting portion is not yet riveted).

Fig. 6 is a schematic side view of the zipper slider assembly according to the first embodiment of the present invention.

Fig. 7 is another schematic side view of the zipper slider assembly according to the first embodiment of the present invention.

Fig. 8 is a partial cross-sectional view of the pull member of the slider assembly according to the first embodiment of the present invention, or a partial cross-sectional view taken along line VIII-VIII in fig. 2, when the pull member is not moved relative to the slider and is substantially laid on the first slide portion.

Fig. 9 is a partial sectional view schematically showing the pull of the slider assembly of the first embodiment of the present invention moving relative to the slider and substantially perpendicular to the first slide portion.

Fig. 10 is a partial schematic side view of the slider of the slide fastener slider assembly according to the first embodiment of the present invention, when the slider moves relative to the slider and is substantially perpendicular to the first slide portion.

Fig. 11 is a schematic top view of a slider according to a second embodiment of the present invention (the caulking portion is not yet caulked).

Detailed Description

The following is a description of the embodiments of the present invention relating to the "slider assembly and the slider thereof" with specific embodiments, and those skilled in the art can understand the advantages and effects of the present invention from the disclosure of the present specification. The present invention may be practiced or carried out in other different embodiments, and various modifications and changes may be made in the details of this description based on the different points of view and applications without departing from the spirit of the present invention. The drawings of the present invention are merely schematic illustrations, and are not drawn to scale, but are described in advance. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

First embodiment

Referring to fig. 1 to 10, a first embodiment of the present invention provides a zipper slider assembly Z, which includes: a sliding member 1, an elastic member 2 and a pulling member 3.

First, as shown in fig. 1 to 5, the slider 1 (or zipper head) includes a first sliding portion 11, a second sliding portion 12 corresponding to the first sliding portion 11, a connecting portion 13 connected between the first sliding portion 11 and the second sliding portion 12, two riveting portions 14 disposed on the first sliding portion 11, and two stopping portions 15 respectively adjacent to the two riveting portions 14. For example, the first sliding part 11 has a first end portion 111 floating and a second end portion 112 opposite to the first end portion 111, and the second sliding part 12 has a first end portion 121 floating and a second end portion 122 opposite to the first end portion 121. In addition, the first end portion 111 of the first slide portion 11 corresponds to the first end portion 121 of the second slide portion 12, and the connection portion 13 is connected between the second end portion 112 of the first slide portion 11 and the second end portion 122 of the second slide portion 12. However, the present invention is not limited to the above examples.

In addition, as shown in fig. 1 to 5, the elastic element 2 is disposed on the sliding element 1, and the elastic element 2 includes a fastening portion 21 fastened by the connecting portion 13, a movable portion 22 movably passing through the first sliding portion 11, and an elastic portion 23 connected between the fastening portion 21 and the movable portion 22. For example, the first sliding portion 11 has a through opening 110, the movable portion 22 of the elastic element 2 movably passes through the through opening 110 of the first sliding portion 11, and the two riveting portions 14 are respectively disposed beside two opposite sides of the through opening 110. However, the present invention is not limited to the above examples.

Furthermore, as shown in fig. 1 to fig. 5, the pulling element 3 includes a pivoting portion 31 movably disposed on the first sliding portion 11 and two abutting portions 32 respectively connected to two opposite side ends of the pivoting portion 31, and the pivoting portion 31 includes two pivoting sections 311 respectively pivotally connected to the two riveting portions 14 and a abutting section 312 connected between the two pivoting sections 311. For example, the abutting section 312 has a recessed area 3121 formed between the two pivoting sections 311 and an abutting area 3122 extending outward from the recessed area 3121. However, the pulling element 3 provided by the present invention is not limited to the above examples.

More specifically, as shown in fig. 1, 3 and 6 to 8, when the pulling member 3 does not move relative to the sliding member 1 and substantially lies on the first sliding portion 11, the elastic portion 23 of the elastic member 2 downwardly abuts against the abutting section 312 of the pivoting portion 31 of the pulling member 3. In other words, when the pulling member 3 does not move relative to the sliding member 1 and substantially lies on the first sliding portion 11, the elastic portion 23 of the elastic member 2 abuts downward against the recessed area 3121 of the abutting section 312, and a portion of the elastic portion 23 of the elastic member 2 is accommodated in the recessed area 3121 of the abutting section 312. In addition, as shown in fig. 9 and 10, when the pulling member 3 moves relative to the sliding member 1 and is substantially perpendicular to the first sliding portion 11 (the pulling member 3 is pulled upward to change the pulling member 3 in a horizontal shape into the pulling member 3 in a vertical shape), the abutting section 312 of the pivot portion 31 of the pulling member 3 abuts against the elastic portion 23 of the elastic member 2, and the two abutting portions 32 of the pulling member 3 abut against the two stopping portions 15, respectively, so that the pulling member 3 is stopped by the two stopping portions 15 and cannot move forward. In other words, when the pulling member 3 moves relative to the sliding member 1 and is substantially perpendicular to the first sliding portion 11, the abutting region 3122 of the abutting section 312 abuts the elastic portion 23 of the elastic member 2, so that the distal end portion of the movable portion 22 is accommodated in the through opening 110.

For example, referring to fig. 1 to fig. 5, one of the riveting portions 14 includes two first bending sections 141 correspondingly disposed on the first sliding portion 11, and the two first bending sections 141 cover (or wrap) a portion of one of the pivoting sections 311 of the pivoting portion 31, so that the pulling member 3 is limited and cannot be separated from the sliding member 1. In addition, the other rivet portion 14 includes two second extending sections 142 correspondingly disposed on the first sliding portion 11, and the two second extending sections 142 cover (or wrap) a portion of the other pivot section 311 of the pivot portion 31, so that the pulling member 3 is limited and cannot be separated from the sliding member 1. Therefore, the pulling element 3 can be pivotally disposed on the first sliding portion 11 by the cooperation of the two first extending sections 141 of one of the riveting portions 14 and one of the pivoting sections 311 of the pivoting portion 31, and by the cooperation of the two second extending sections 142 of the other riveting portion 14 and the other pivoting section 311 of the pivoting portion 31. However, the present invention is not limited to the above examples, and the fitting relationship between the riveting portion 14, the first bending section 141 and the second bending section 142 is not limited to the above examples.

It should be noted that, in conjunction with fig. 1, fig. 3 and fig. 5 to fig. 7, one of the stop portions 15 can be tightly connected to one of the first bending sections 141, and the other stop portion 15 can be tightly connected to one of the second bending sections 142.

For example, in conjunction with fig. 1 and 3, the stop portion 15 has an inner arc surface 1501 and an outer arc surface 1502 opposite to the inner arc surface 1501, the first extension section 141 has a first inner arc surface 1411 and a first outer arc surface 1412 opposite to the first inner arc surface 1411, and the second extension section 142 has a second inner arc surface 1421 and a second outer arc surface 1422 opposite to the second inner arc surface 1421. In addition, the inner arc surface 1501 of one of the stoppers 15 is similar to and partially aligned with the first inner arc surface 1411 of one of the first bending sections 141, and the inner arc surface 1501 of the other stopper 15 is similar to and partially aligned with the second inner arc surface 1421 of one of the second bending sections 142. In addition, the outer arc surface 1502 of one of the stoppers 15 has a profile similar to the profile of the first outer arc surface 1412 of one of the first bending sections 141, and the outer arc surface 1502 of the other stopper 15 has a profile similar to the profile of the second outer arc surface 1422 of one of the second bending sections 142. However, the relationship between the stop portion 15, the first bending section 141 and the second bending section 142 provided by the present invention is not limited to the above-mentioned examples.

For example, as shown in fig. 6 and 7, a width W of a bottom end of the stopper 15 is smaller than a width W1 of a bottom end of the first bending section 141 and a width W2 of a bottom end of the second bending section 142, and a height H of the stopper 15 is smaller than a height H1 of the first bending section 141 and a height H2 of the second bending section 142. However, the relationship between the stop portion 15, the first bending section 141 and the second bending section 142 provided by the present invention is not limited to the above-mentioned examples.

Second embodiment

Referring to fig. 11, a second embodiment of the present invention provides a zipper slider assembly (not shown) and a slider 1 thereof. As can be seen from a comparison between fig. 11 and fig. 5, the greatest difference between the second embodiment of the present invention and the first embodiment is: in the second embodiment, one of the stoppers 15 and one of the first bending sections 141 are separated from and adjacent to each other, and the other stopper 15 and one of the second bending sections 142 are separated from and adjacent to each other. That is, one of the stoppers 15 may be closely connected to one of the first bending sections 141 (as in the first embodiment shown in fig. 5) or one of the second bending sections 142 separately and adjacent to each other (as in the second embodiment shown in fig. 11), and the other stopper 15 may be closely connected to one of the second bending sections 142 (as in the first embodiment shown in fig. 5) or one of the second bending sections 142 separately and adjacent to each other (as in the second embodiment shown in fig. 11).

Advantageous effects of the embodiments

The utility model has the advantages of one of them, the utility model provides a draw zipper head integrated configuration Z, it can include a first sliding part 11 through "slider 1, set up two riveting portion 14 on first sliding part 11 and two stop parts 15" of two adjacent riveting portion 14 respectively and "pull piece 3 includes movably a pivot portion 31 that sets up on first sliding part 11 and connect respectively in two abutting portion 32" of the double-phase opposite side end of pivot portion 31 to make when pulling piece 3 removes for slider 1 and when roughly perpendicular to first sliding part 11, two abutting portion 32 of pulling piece 3 can push up respectively and abut against two stop parts 15, so that pull piece 3 is blockked by two stop parts 15.

The present invention has another advantageous effect in that, the utility model provides a slider 1, it can set up on first sliding part 11 "and the technical scheme that" two stopper portions 15 are close to two riveting portions 14 respectively "through" two riveting portions 14 to make when a pulling piece 3 moves for slider 1 and when roughly perpendicular to first sliding part 11, two abutting portions 32 of pulling piece 3 can abut against two stopper portions 15 respectively, so that pulling piece 3 is stopped by two stopper portions 15.

The above disclosure is only a preferred and feasible embodiment of the present invention, and is not intended to limit the scope of the claims of the present invention, so that all the equivalent technical changes made by the contents of the specification and the drawings are included in the scope of the claims of the present invention.

Claims (10)

1. A zipper slider assembly, comprising:

the sliding part comprises a first sliding part, a second sliding part corresponding to the first sliding part, a connecting part connected between the first sliding part and the second sliding part, two riveting parts arranged on the first sliding part and two stopping parts respectively adjacent to the two riveting parts;

the elastic piece is arranged on the sliding piece and comprises a clamping part clamped by the connecting part, a movable part movably penetrating through the first sliding part and an elastic part connected between the clamping part and the movable part; and

the pulling piece comprises a pivoting part movably arranged on the first sliding part and two abutting parts respectively connected to two opposite side ends of the pivoting part, and the pivoting part comprises two pivoting sections respectively in pivoting fit with the two riveting parts and an abutting section connected between the two pivoting sections;

when the pulling piece does not move relative to the sliding piece and is flatly placed on the first sliding part, the elastic part of the elastic piece downwards pushes against the pushing section of the pivoting part of the pulling piece;

when the pulling member moves relative to the sliding member and is perpendicular to the first sliding portion, the abutting section of the pivoting portion of the pulling member abuts against the elastic portion of the elastic member, and the two abutting portions of the pulling member abut against the two stopping portions respectively, so that the pulling member is stopped by the two stopping portions.

2. The slider assembly as set forth in claim 1, wherein said first slider has a first end portion suspended in air and a second end portion opposite to said first end portion, said second slider has a first end portion suspended in air and a second end portion opposite to said first end portion, said first end portion of said first slider corresponds to said first end portion of said second slider, and said connecting portion is connected between said second end portion of said first slider and said second end portion of said second slider; the first sliding part is provided with a through opening, the movable part of the elastic part movably penetrates through the through opening of the first sliding part, and the two riveting parts are respectively arranged beside two opposite sides of the through opening; the abutting section is provided with a depressed area formed between the two pivoting sections and an abutting area extending outwards from the depressed area; one of the riveting parts comprises two first bending sections which are correspondingly arranged on the first sliding part, and the two first bending sections cover one of the pivoting sections of the pivoting part, so that the pulling part is limited and cannot be separated from the sliding part; the other riveting part comprises two second bending sections which are correspondingly arranged on the first sliding part, and the two second bending sections cover the other pivoting section of the pivoting part, so that the pulling part is limited and cannot be separated from the sliding part; when the pulling piece does not move relative to the sliding piece and is flatly placed on the first sliding part, the elastic part of the elastic piece downwards abuts against the concave area of the abutting section; when the pulling member moves relative to the sliding member and is perpendicular to the first sliding portion, the abutting region of the abutting section abuts against the elastic portion of the elastic member.

3. The zipper slider assembly according to claim 1, wherein one of the rivet portions includes two first bent sections correspondingly disposed on the first slide portion, and the other rivet portion includes two second bent sections correspondingly disposed on the first slide portion; one of the stopping parts is connected to one of the first bending sections, and the other stopping part is connected to one of the second bending sections; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

4. The zipper slider assembly according to claim 1, wherein one of the rivet portions includes two first bent sections correspondingly disposed on the first slide portion, and the other rivet portion includes two second bent sections correspondingly disposed on the first slide portion; wherein one of the stop portions and one of the first bending sections are separated from each other and adjacent to each other, and the other of the stop portions and one of the second bending sections are separated from each other and adjacent to each other; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

5. A zipper slider assembly, comprising:

the sliding part comprises a first sliding part, two riveting parts arranged on the first sliding part and two stopping parts respectively adjacent to the two riveting parts;

the elastic piece is arranged on the sliding piece; and

the pulling piece comprises a pivoting part movably arranged on the first sliding part and two abutting parts respectively connected to two opposite side ends of the pivoting part;

when the pulling member moves relative to the sliding member and is perpendicular to the first sliding portion, the two abutting portions of the pulling member abut against the two stopping portions respectively, so that the pulling member is stopped by the two stopping portions.

6. The zipper slider assembly according to claim 5, wherein one of the rivet portions includes two first bent sections correspondingly disposed on the first slide portion, and the other rivet portion includes two second bent sections correspondingly disposed on the first slide portion; one of the stopping parts is connected to one of the first bending sections, and the other stopping part is connected to one of the second bending sections; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

7. The zipper slider assembly according to claim 5, wherein one of the rivet portions includes two first bent sections correspondingly disposed on the first slide portion, and the other rivet portion includes two second bent sections correspondingly disposed on the first slide portion; wherein one of the stop portions and one of the first bending sections are separated from each other and adjacent to each other, and the other of the stop portions and one of the second bending sections are separated from each other and adjacent to each other; the width of one bottom end of the blocking part is smaller than the width of one bottom end of the first bending section and the width of one bottom end of the second bending section, and the height of the blocking part is smaller than the height of the first bending section and the height of the second bending section; wherein the stop portion has an inner arc surface and an outer arc surface opposite to the inner arc surface, the first extension section has a first inner arc surface and a first outer arc surface opposite to the first inner arc surface, and the second extension section has a second inner arc surface and a second outer arc surface opposite to the second inner arc surface; wherein the inner arc surface of one of the stoppers is similar in contour and partially cut-off from the first inner arc surface of one of the first bending sections, and the inner arc surface of the other stopper is similar in contour and partially cut-off from the second inner arc surface of one of the second bending sections; wherein a profile of the outer arc surface of one of the stoppers is similar to a profile of the first outer arc surface of one of the first bending sections, and a profile of the outer arc surface of the other of the stoppers is similar to a profile of the second outer arc surface of one of the second bending sections.

8. A slider for use in a slider assembly, the slider comprising:

a first sliding part;

a second sliding part corresponding to the first sliding part;

a connecting portion connected between the first sliding portion and the second sliding portion;

two riveting parts arranged on the first sliding part; and

two stop parts respectively adjacent to the two riveting parts;

when a pulling member moves relative to the sliding member and is perpendicular to the first sliding portion, the two abutting portions of the pulling member respectively abut against the two stopping portions, so that the pulling member is stopped by the two stopping portions.

9. The slider according to claim 8 wherein one of the rivets comprises two first bent sections correspondingly disposed on the first sliding portion, and the other rivet comprises two second bent sections correspondingly disposed on the first sliding portion; one of the stopping parts is connected to one of the first bending sections, and the other stopping part is connected to one of the second bending sections.

10. The slider according to claim 8 wherein one of the rivets comprises two first bent sections correspondingly disposed on the first sliding portion, and the other rivet comprises two second bent sections correspondingly disposed on the first sliding portion; one of the stop portions and one of the first bending sections are separated from each other and adjacent to each other, and the other stop portion and one of the second bending sections are separated from each other and adjacent to each other.

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