Structure for attachment to aglets, zippers, and cords

Abstract

An ornamental structure that is constructed and arranged to be coupled to an end of a cord includes a body with a through-hole and a cord-end receiving cavity that has a width about equal to a diameter of the cord, where the through hole and cavity are proximate one another.

Claims

1. An ornamental structure that is constructed and arranged to be coupled to an end of a cord, wherein the cord has an aglet at an end thereof, the structure comprising: a body with first and second opposed surfaces, and a through-hole extending entirely though the body from the first surface to the second surface; and a cord-end receiving blind hole that has a width about equal to a diameter of the cord, where the through hole and blind hole are proximate one another, and where the blind hole extends from the first surface through most of the body but not through the second surface.

2. The ornamental structure of claim 1, wherein the blind hole has a width about equal to a diameter of the aglet.

3. The ornamental structure of claim 1, wherein the through hole is wider than the cord.

4. The ornamental structure of claim 1, wherein the body is solid except for the through-hole and the blind hole.

5. The ornamental structure of claim 4, wherein the body is made from a rubber material or an elastomer material.

6. The ornamental structure of claim 4, wherein the body is made from a material having a hardness of about 50 Shore A.

7. The ornamental structure of claim 1, further comprising a coupling device that is configured to be coupled to a zipper puller and the ornamental structure.

8. The ornamental structure of claim 7, wherein the coupling device comprises an enlarged head with an open center and two spaced depending flexible legs.

9. The ornamental structure of claim 8, wherein the legs each comprise an enlarged end.

10. The ornamental structure of claim 9, wherein the legs are configured to fit entirely through the body through-hole.

11. The ornamental structure of claim 10, wherein the leg ends are spaced apart more than the diameter of the through-hole and sit outside of the through-hole.

12. The ornamental structure of claim 1, wherein the through hole and blind hole are parallel.

13. A method of coupling an ornamental structure to the end of a cord that comprises an aglet, wherein the structure comprises a body with first and second opposed surfaces, and a through-hole extending entirely though the body from the first surface to the second surface, and a cord-end receiving blind hole that has a width about equal to a diameter of the cord, where the through hole and blind hole are proximate one another and are generally parallel, and where the blind hole extends from the first surface through most of the body but not through the second surface comprising: pushing the aglet into and through the entire length of the through-hole; then pulling enough of the cord through the through-hole to allow the aglet to be pushed into the blind hole; and then pushing the aglet into the blind hole.

14. The method of claim 13, further comprising pulling slack in the cord back through the through-hole.

15. The method of claim 14, wherein slack in the cord is pulled such that the cord projects as little as possible from the blind hole and from the through-hole opening adjacent the blind hole.

16. An ornamental structure that is constructed and arranged to be coupled to an end of a cord, the structure comprising: a body with a through-hole; a cord-end receiving blind hole that has a width about equal to a diameter of the cord, where the through hole and blind hole are proximate one another; and a coupling device that is configured to be coupled to a zipper puller and the ornamental structure, wherein the coupling device comprises an enlarged head with an open center and two spaced depending flexible legs.

17. The ornamental structure of claim 16, wherein the legs each comprise an enlarged end.

18. The ornamental structure of claim 17, wherein the legs are configured to fit entirely through the body through-hole.

19. The ornamental structure of claim 18, wherein the leg ends are spaced apart more than the diameter of the through-hole and sit outside of the through-hole.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The drawings illustrate non-limiting examples of the subject ornamental structures and manners in which they can be used.

(2) FIGS. 1A-1C are front, side, and cross-sectional views, respectively, of an exemplary ornamental structure that looks like a soccer ball.

(3) FIGS. 2A-2D illustrate an ornamental structure being coupled to the end of a shoelace, drawstring, or other cord with an aglet.

(4) FIGS. 3A and 3B are front and side views of a coupling device that allows an ornamental structure to be coupled to the puller of a zipper.

(5) FIGS. 4A-4C illustrate an ornamental structure being coupled to the puller of a zipper by the coupling device of FIGS. 3A and 3B.

DETAILED DESCRIPTION

(6) Ornamental structure 10, FIGS. 1A-1C, is a mostly solid article that can be made from an appropriate material with the properties described herein. One exemplary, non-limiting material is a rubber material or a thermoplastic elastomer such as a silicone. In one non-limiting example the material has a hardness in the range of about 50 Shore A; this material is soft enough to be squeezed/manipulated to allow the structure to be coupled to the end of a lace or cord, as further described below. Structure 10 may have (but need not have) opposed generally flat or slightly domed surfaces 16 and 18 that can be constructed and arranged to present a desired appearance. In this non-limiting example, faces 16 and 18 are each arranged to look like a view of a soccer ball, with a plurality of adjacent pentagonal shapes that look like the panels of a soccer ball. The appearance can be varied and as desired, but is not important to the function. Central portion 19 comprises through-hole 12 and closely adjacent, generally parallel blind hole (i.e., cavity) 14. Through-hole 12 is preferably wider than the typical diameter of an aglet, and cavity 14 has a width that is preferably about equal to the aglet diameter. Typical, non-limiting dimensions (in inches) include: structure width 0.875; structure thickness 0.50; cavity depth 0.74.

(7) The ornamental structure is an accessory for clothing, installed by fitting over drawstring and shoelace aglets. The structure has a hole 12 in the center that goes all the way through (a through-hole) that is sized to allow aglets of different sizes to fit inside. In non-limiting examples the hole is about 0.23 inches in diameter. Through-hole 12 is slightly wider than a typical aglet. However, some aglets have a greater diameter. In this case, the structure is gently squeezed to enlarge the through-hole. The material has a durometer that allows the structure to conform to different sized aglets with the adjacent cavity that is sized and shaped to accept and retain an aglet. Cavity 14 may have a diameter of about 0.13 inches.

(8) FIGS. 2A-2D illustrate an ornamental structure 50 (in cross-section) being coupled to the end of a shoelace, drawstring, or other cord 60 comprising cord portion 62 and terminal aglet 64. Structure 50 has through-hole 54 that is wider than aglet 64, and adjacent aglet-receiving cavity 56 that has a width about equal to the diameter of aglet 64. To couple structure 50 to cord 60, aglet 64 is pushed into hole 54 and fed through the entire length of the hole, as shown in FIG. 2B. The aglet can then be grasped and pulled, to pull more of cord portion 62 thorough hole 54, enough to allow the aglet to be pushed into cavity 56, FIG. 2C, and ideally pushed all the way or almost all the way to cavity end wall 58. Any slack in cord portion 62 is then preferably but not necessarily pulled back through hole 54 such that cord portion 62 projects as little as possible from hole 54 and cavity 56, and cord portion 62 lies close to the surface of structure 50 between hole 54 and cavity 56 as shown in FIG. 2D. After structure 50 has been installed as shown and described, if structure 50 is pulled down, the friction of aglet 64 in cavity 56, together with the bend 63 in cord portion 62 where it runs out of hole 54 and into cavity 56, provides a resistive force that helps to keep structure 50 in place. If there is no aglet, the end of the cord is fitted into cavity 56.

(9) FIGS. 3A and 3B are front and side views of a coupling device 80 that allows an ornamental structure of the types described above to be coupled to the puller of a zipper. Device 80 has a shape similar to that of a cotter pin, with enlarged head 82 with a central opening and depending flexible legs 84 and 86, each with slightly enlarged ends 85 and 87. The legs are slightly apart in the relaxed state (shown in FIGS. 3A and 3B), and can be squeezed together to fit through the through-hole of a decorative structure. When the legs are relaxed, the leg ends are farther apart than the diameter of the through-hole so that the legs cannot be removed from the ornamental structure unless the legs are squeezed together and pulled out of the through-hole. Device 80 can be molded using polypropylene.

(10) FIGS. 4A-4C illustrate an ornamental structure being coupled to the puller of a zipper by the coupling device of FIGS. 3A and 3B. FIG. 4A shows zipper 100 with slider 104 that rides along teeth or chain 102, as is well known. Slider 104 has puller 106 with opening 108. Coupling device 80 is hung from puller 106 by pushing puller end 106a between legs 84 and 86. See FIG. 4B. Legs 84 and 86 are then squeezed together. The width of the side-by-side hook ends 85 and 87 when pushed together is slightly less than the diameter of through-hole 54 of ornamental structure 50. This allows structure 50 to be pushed over legs 84 and 86 until ends 85 and 87 project through the end of opening 54. Legs 85 and 87 will then naturally spring back to their normal rest positions shown in FIG. 4C, where the overall width of ends 85 and 87 is greater than the diameter of hole 54, so that the structure 50 can't be pulled off of coupling device 80 unless legs 84 and 86 are pushed back together. Structure 50 thus retains the ornamental structure on the zipper pull.

(11) A number of implementations have been described. Nevertheless, it will be understood that additional modifications may be made without departing from the scope of the inventive concepts described herein, and, accordingly, other examples are within the scope of the following claims.