Slider Assembly for a Slide Fastener

Abstract

There is provided a slider assembly for a slide fastener, including: a slider body; a pull-tab; and a resilient locking member. The pull-tab is provided with a window aligned with an aperture in an upper wing of the slider body when the pull-tab is in a first angular end position. A distal end of the locking member extends towards a guide channel through the window and the aperture. The locking member is configured to be resiliently biased towards a locking position where a distal end thereof protrudes in the guide channel. A proximal end of the pull-tab has a cam cooperating with the locking member such that the locking member takes the locking position when the pull-tab is in the first angular end position, and the locking member is moved towards an unlocking position when the pull-tab is pivoted away from the first angular end position.

Claims

1. A slider assembly for a slide fastener, comprising: a slider body; a pull-tab; and a resilient locking member, wherein the slider body has upper and lower wings linked by a post and an essentially Y-shaped guide channel defined between the upper wing and the lower wing, wherein an upper surface of the upper wing has a recess extending in a longitudinal direction of the slider body, wherein the recess has two confronting side walls and a bottom wall disposed between the two confronting side walls, wherein the upper wing is provided with an aperture putting the recess in communication with the guide channel, wherein the pull-tab has a distal end adapted to be gripped and a proximal end pivotably mounted in the recess of the upper wing, between the two confronting side walls thereof, wherein the slider assembly is provided with a pivot pin which extends in a transverse direction of the slider body, through holes in the two confronting side walls and a hole in the proximal end of the pull-tab, wherein the pull-tab is provided with a window which is aligned with the aperture in the upper wing when the pull-tab is in a first angular end position relative to the slider body, wherein the locking member has a proximal end retained to the slider body, an intermediate portion extending in the recess around the proximal end of the pull-tab, and a distal end extending towards the guide channel through the window in the pull-tab and the aperture in the upper wing, wherein the locking member is configured such that the locking member is resiliently biased towards a locking position in which the distal end thereof protrudes to a predetermined extent in the guide channel, and wherein the proximal end of the pull-tab has a cam cooperating with the locking member such that the locking member takes the locking position when the pull-tab is in the first angular end position, and the locking member is moved towards an unlocking position when the pull-tab is pivoted away from the first angular end position.

2. The slider assembly according to claim 1, wherein the bottom wall of the recess is provided with a longitudinal groove, and wherein the intermediate portion of the locking member extends at least in part inside the longitudinal groove.

3. The slider assembly according to claim 2, wherein on at least one side of right and left sides of the longitudinal groove with respect to the longitudinal direction of the slider body the bottom wall of the recess forms a sloping surface slanting upwardly towards a front portion of the slider body, and wherein the pull-tab abuts against the sloping surface in a second angular end position, with an inclination of less than 180° with respect to the first angular end position.

4. The slider assembly according to claim 3, wherein the cam is configured such that the locking member takes the locking position also when the pull-tab is in the second angular end position.

5. The slider assembly according to claim 2, wherein in a front portion of the slider body a bottom wall of the longitudinal groove is provided with a well, and wherein the proximal end of the locking member is engaged with the well and retained to the slider body.

6. The slider assembly according to claim 2, wherein a transverse width of the intermediate portion of the locking member is essentially equal to a transverse width of the longitudinal groove, and wherein a transverse width of the proximal end of the pull-tab is essentially equal to a transverse width of the recess.

7. The slide fastener comprising the slider assembly according to claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] Further features and advantages of the present invention will become apparent from the following description, provided merely by way of a non-limiting example, with reference to the attached drawings wherein:

[0031] FIG. 1 is a rear perspective view of a slider assembly for a slide fastener according to the present invention;

[0032] FIG. 2 is a perspective exploded view of the slider assembly of FIG. 1;

[0033] FIG. 3 is a top plan view of said slider assembly;

[0034] FIG. 4 is a side elevational view of said slider assembly;

[0035] FIG. 5 is a partial sectional view taken along line V-V of FIG. 1, and

[0036] FIG. 6 is a side elevational view of said slider assembly, showing the pull-tab in different angular positions.

DETAILED DESCRIPTION

[0037] In the embodiment illustrated in the drawings a slider assembly 1 according to the present invention includes a slider body 10 with a front portion 10a and a rear portion 10b.

[0038] The slider body 10 has upper and lower wings or blades 11 and 12, arranged to be substantially parallel to each other and linked by a guide post 13 extending vertically in the front portion 10a (see in particular FIGS. 4 to 6).

[0039] The upper and lower wings 11 and 12 and the guide post 13 are configured such that an essentially Y-shaped guide channel 14 is defined therebetween. The guide channel 14 is formed in a per se known manner.

[0040] Referring in particular to FIGS. 1, 2 and 5, an upper surface 11 a of the upper wing 11 is formed with a recess 15 which extends in the longitudinal direction of the slider body 10, i.e. from the rear portion 10b of the slider body towards the front portion 10a.

[0041] The recess 15 has two confronting side walls 15a and a bottom wall 15b disposed between the two confronting side walls 15a (see in particular FIGS. 2 and 5).

[0042] The bottom wall 15b of the recess 15 is provided with a longitudinal groove 16.

[0043] On at least one side of right and left sides of the longitudinal groove 16 with respect to the longitudinal direction of the slider body 10, the bottom wall 15b of the recess 15 forms a sloping surface 15c slanting upwardly towards the front portion 10a of the slider body 10 (see in particular FIG. 2).

[0044] With reference to FIG. 5, in the front portion 10a of the slider body 10 a well 17 extends from the bottom wall of the longitudinal groove 16 to the lower surface of the lower wing 12.

[0045] As best seen in FIGS. 2 and 5, the upper wing 11 of the slider body 10 is provided with an aperture 18 putting the recess 15 in communication with the underlying guide channel 14.

[0046] In the illustrated embodiment the well 17 has an upper portion 17a (see FIG. 5) which is essentially shaped like a trough with a cross section tapering downwardly, and a lower portion 17b having an essentially constant transverse cross section.

[0047] With reference to FIG. 5, the lower portion 17b of the well 17 is formed between a front wall 17c and a rear wall 17d which face each other. A pair of parallel nose-like projections 19 extend from the rear wall 17d toward the front wall 17c of the well 17. The pair of projections 19 are transversely aligned with each other, through separated from one another. Only one of the pair of projections 19 can be seen in FIG. 5.

[0048] The slider assembly 1 further comprises a pull-tab 20. The pull-tab 20 has a distal end 20a adapted to be gripped by fingers and a proximal end 20b pivotably mounted in the recess 15 of the upper wing 11, between the two confronting side walls 15a.

[0049] The pull-tab 20 is mounted rotatable about a pivot pin 21. The pivot pin 21 extends in the transverse direction of the slider body 10 through holes 22 in the two confronting side walls 15a and a hole 23 provided in the proximal end 20b of the pull-tab 20 (see in particular FIG. 2).

[0050] The pull-tab 20 at the proximal end 20b thereof is further provided with a window 24. As shown in FIGS. 1 and 5, the window 24 is aligned with the aperture 18 in the upper wing 11 when the pull-tab 20 is in a predetermined first angular end position relative to the slider body 10 (i.e. the position shown in FIGS. 1 and 3 to 5).

[0051] The slider assembly 1 further comprises a resilient locking member 30. The locking member 30 is made for instance of metal, such as stainless steel, or any other suitable material that is configured to return to its original shape or configuration after flexing or bending.

[0052] In the illustrated embodiment the locking member 30 is in the form of a shaped strip. The locking member 30 has a proximal end 30a retained to the slider body 10 as shown in FIG. 5, an intermediate portion 30b extending in the longitudinal groove 16 and the recess 15 and passing around the proximal end 20b of the pull-tab 20, and a distal end 30c which extends towards the guide channel 14 through the window 24 in the pull-tab and the aperture 18 in the upper wing 11 of the slider body 10. The distal end 30c has at a tip thereof a stopper claw 30e having a width narrower than that of the distal end 30c.

[0053] In the illustrated embodiment the intermediate portion 30b of the locking member 30 is formed into a stepped shape, and the proximal end 30a and the distal end 30c thereof are bent downwardly.

[0054] In the illustrated embodiment the proximal portion 30a of the locking member 30 is provided on both opposite sides thereof with indentations 30d (see FIG. 2) for the engagement therein of the pair of projections 19 provided in the lower portion 17b of the well 17, as shown in FIG. 5. The locking member 30 and the slider body 10 are configured such that the locking member 30 is resiliently biased towards a locking position in which the distal end 30c and the stopper claw 30e of the locking member 30 protrude to a predetermined extent in the guide channel 14. In the locking position, the stopper claw 30e is sufficiently engaged with between coupling elements (not shown) of a slide fastener, so as to prevent the slider assembly 1 from being displaced.

[0055] As it can be seen in FIG. 5, the proximal end 20b of the pull-tab 20 has a cam member (cam means) 31 cooperating with the locking member 30, such that the locking member 30 takes the locking position when the pull-tab 20 is in the above-mentioned first angular end position, as shown in FIGS. 1 and 3-5, and the locking member 30 is moved towards an unlocking position when the pull-tab 20 is pivoted away from the first angular end position.

[0056] The sloping surfaces 15c of the recess 15 are provided on both sides of the longitudinal groove 16 with respect to the longitudinal direction of the slider body 10. The pull-tab 20 abuts against and is stopped at the sloping surfaces 15c of the recess 15 when the pull-tab 20 reaches a second angular end position, shown in dashed lines in the right-end portion of FIG. 6. In the second angular end position, the pull-tab 20 has an inclination of less than 180° with respect to the first angular end position, shown in dashed lines in the left-end portion of FIG. 6.

[0057] The cam member 31 can be shaped such that the locking member 30 takes the locking position also when the pull-tab 20 is in the second angular end position.

[0058] Advantageously, the transverse width of the intermediate portion 30b of the locking member 30 is essentially equal to the transverse width of the longitudinal groove 16, and the transverse width of the proximal portion 20b of the pull-tab 20 is essentially equal to the transverse width of the recess 15.

[0059] According to the slider assembly 1 configured as explained above, the risk that unwanted debris may be trapped between the locking member 30, the pull-tab 20 and the slider body 10 is dramatically reduced.

[0060] The relatively “high” lateral walls of the longitudinal groove 16 and the recess 15 offer a significant protection to the pull-tab 20 and the locking member 30.

[0061] The present invention is not limited to the above-described embodiment, which can be suitably changed without departing from the scope defined in the annexed claims.