This invention discloses fasteners characterized by the use of barbs to secure a primary object in place. More particularly, the barbs which are used are critically shaped barbs resulting in considerable increase of the holding force without sacrificing the flexibility of the barbs, the force needed
This invention discloses fasteners characterized by the use of barbs to secure a primary object in place. More particularly, the barbs which are used are critically shaped barbs resulting in considerable increase of the holding force without sacrificing the flexibility of the barbs, the force needed to insert part of the primary object into the fastener, and without sacrificing the broad acceptability of various thicknesses of the primary object to be fastened. The distance between the front point of a barb and the respective opposite side structure may preferably be smaller than the thickness of said material, such as sheet metal for example, that the fastener is made from. The fasteners of this invention may also be provided with spring members of intricate and critical structure, which despite easy insertion of the fastener into a slot of a secondary object, the removal force is greatly increased.
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This invention discloses fasteners characterized by the use of barbs to secure a primary object in place. More particularly, the barbs which are used are critically shaped barbs resulting in considerable increase of the holding force without sacrificing the flexibility of the barbs, the force needed
This invention discloses fasteners characterized by the use of barbs to secure a primary object in place. More particularly, the barbs which are used are critically shaped barbs resulting in considerable increase of the holding force without sacrificing the flexibility of the barbs, the force needed to insert part of the primary object into the fastener, and without sacrificing the broad acceptability of various thicknesses of the primary object to be fastened. The distance between the front point of a barb and the respective opposite side structure may preferably be smaller than the thickness of said material, such as sheet metal for example, that the fastener is made from. The fasteners of this invention may also be provided with spring members of intricate and critical structure, which despite easy insertion of the fastener into a slot of a secondary object, the removal force is greatly increased. is, said vertical Z axis being perpendicular to said longitudinal X axis, said vertical Z axis being perpendicular to said transverse Y axis, said slider comprising a housing having a separator facilitating the deocclusion of said fastening strips, said separator penetrating said occluded length of said fastening strips during attachment of said slider onto said fastening strips in said vertical Z axis. 2. The invention as in claim 1 wherein said occluded length is a portion of said fastening strips. 3. The invention as in claim 1 wherein said occluded length is the entire length of said fastening strips. 4. The invention as in claim 1, wherein said fastening strips comprise U-channel type fastening strips. 5. The invention as in claim 1, wherein said fastening strips comprise arrowhead type fastening strips. 6. The invention as in claim 1, wherein said fastening strips comprise profile type fastening strips. 7. The invention as in claim 1, wherein said separator has a first end and a second end, a portion of said separator angles downwardly relative to the longitudinal X axis from said first end to said second end. 8. The invention as in claim 7 wherein a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 9. The invention as in claim 7 wherein said separator has a bottom surface and said bottom surface angles downwardly relative to the longitudinal X axis from said first end to said second end. 10. The invention as in claim 9 wherein said bottom surface angles inwardly relative to the longitudinal X axis from said first end to said second end. 11. The invention as in claim 7 wherein said separator has a bottom surface and said bottom surface angles inwardly relative to the longitudinal X axis from said first end to said second end. 12. The invention as in claim 7 wherein said separator has a first side wall and a second side wall, a bottom portion of said first side wall and a bottom portion of said second side wall angle downwardly relative to the longitudinal X axis from said first end to said second end. 13. The invention as in claim 12 wherein said bottom portions of said side walls angle inwardly relative to the longitudinal X axis. 14. The invention as in claim 1 wherein said separator has a first end and a second end, a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 15. The invention as in claim 14 wherein said separator has a first side wall, said first side wall angles inwardly relative to the longitudinal X axis. 16. The invention as in claim 14 wherein said separator has a first side wall and a second side wall, said first side wall and said second side wall angle inwardly relative to the longitudinal X axis from said first end to said second end. 17. The invention as in claim 1 wherein said separator has a first end, a second end, a first sidewall, a second sidewall and a bottom surface, said bottom surface angles downwardly relative to the longitudinal X axis from said first end to said second end, said first sidewall angles inwardly relative to the longitudinal X axis. 18. The invention as in claim 7 wherein said separator has a bottom surface and a portion of said bottom surface is parallel to said longitudinal X axis. 19. The invention as in claim 18 wherein said bottom surface includes a ridge. 20. The invention as in claim 18 wherein said bottom surface has a horizontal surface, a first side surface and a second side surface. 21. The invention as in claim 18 wherein said separator has a first side wall, said first side wall having a first bottom portion, said first bottom portion angles upwardly relative to the longitudinal X axis from said first end to said second end. 22. The invention as in claim 21 wherein said first side wall angles inwardly relative to the longitudinal X axis from said first end to said second end. 23. The invention as in claim 21 wherein said sepa rator has a second side wall, said second side wall has a second bottom portion, said second bottom portion angles upwardly relative to the longitudinal X axis from said first end of said second end. 24. The invention as in claim 23 wherein said second side wall angles inwardly relative to the longitudinal X axis from said first end to said second end. 25. The invention as in claim 24 wherein said first side wall angles inwardly relative to the longitudinal X axis from said first end to said second end. 26. The invention as in claim 18 wherein said bottom surface includes a first angled surface, said first angled surface has a first outside edge, said first angled surface angles downwardly relative to the vertical Z axis from said outside edge. 27. The invention as in claim 26 wherein said bottom surface includes a second angled surface, said second angled surface has a second outside edge, said second angled surface angles downwardly relative to the vertical Z axis from said outside edge. 28. The invention as in claim 27 wherein said bottom surface includes a ridge. 29. The invention as in claim 27 wherein said bottom surface includes a horizontal surface, a first side surface and a second side surface. 30. The invention as in claim 27 wherein said separator has a first side wall, said first side wall having a first bottom portion, said first bottom portion angles downwardly relative to the longitudinal X axis from said first end to said second end. 31. The invention as in claim 27 wherein said first side wall angles inwardly relative to the longitudinal X axis from said first end to said second end. 32. The invention as in claim 30 wherein said separator has a second side wall, said second side wall has a second bottom portion, said second bottom portion angles downwardly relative to the longitudinal X axis from said first end of said second end. 33. The invention as in claim 32 wherein said second side wall angles inwardly relative to the longitudinal X axis from said first end to said second end. 34. The invention as in claim 33 wherein said first side wall angles inwardly relative to the longitudinal X axis from said first end to said second end. 35. The invention as in claim 1, wherein said slider further comprises a flexible attachment means for facilitating the attachment of said slider onto said fastening strips in said vertical Z axis and preventing removal of said slider from said fastening strips in the vertical Z axis thereafter. 36. The invention as in claim 35, wherein said flexible attachment means deflects during attachment of said slider onto said fastening strips to permit passage of said fastening strips into said housing and retracts back to its original position once said fastening strips have passed into said housing. 37. The invention as in claim 36, wherein said flexible attachment means comprises a portion of said housing of said slider. 38. The invention as in claim 36, wherein said flexible attachment means comprises a pair of flexible legs operably attached to said housing of said slider. 39. A slider for slidable disposition on first and second fastening strips wherein a length of said first fastening strip is occluded to a corresponding length of said second fastening strip, said slider facilitating the occlusion of said fastening strips when moved towards a first end thereof and facilitating the deocclusion of said fastening strips when moved towards a second end thereof, said slider comprising: a longitudinal X axis and a transverse Y axis, said transverse Y axis being perpendicular to said longitudinal X axis, said fastening strips and said slider having a vertical Z axis, said vertical Z axis being perpendicular to said longitudinal X axis, said vertical Z axis being perpendicular to said transverse Y axis, said slider comprising a housing having a separator facilitating the deocclusion of said fastening strips, said separator penetrating said occluded length of said fastening strips durin g attachment of said slider onto said fastening strips in said vertical Z axis. 40. The invention as in claim 39 wherein said occluded length is a portion of said fastening strips. 41. The invention as in claim 39 wherein said occluded length is the entire length of said fastening strips. 42. The invention as in claim 39, wherein said separator has a first end and a second end, a portion of said separator angles downwardly relative to the longitudinal X axis from said first end to said second end. 43. The invention as in claim 42, wherein a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 44. The invention as in claim 39 wherein said separator has a first end and a second end, a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 45. A container comprising: first and second side walls, said first and second side walls including mating first and second fastening strips respectively, said first and second fastening strips comprising a closure device wherein a length of said first fastening strip is occluded to a corresponding length of said second fastening strip, a slider slidably disposed on said fastening strips and facilitating the occlusion of said fastening strips when moved towards a first end thereof and facilitating the deocclusion of said fastening strips when moved towards a second end thereof, said fastening strips and said slider having a longitudinal X axis and a transverse Y axis, said transverse Y axis being perpendicular to said longitudinal X axis, said fastening strips and said slider having a vertical Z axis, said vertical Z axis being perpendicular to said longitudinal X axis, said vertical Z axis being perpendicular to said transverse Y axis, said slider comprising a housing having a separator facilitating the deocclusion of said fastening strips, said separator penetrating said occluded length of said fastening strips during attachment of said slider onto said fastening strips in said vertical Z axis. 46. The invention as in claim 45 wherein said occluded length is a portion of said fastening strips. 47. The invention as in claim 45 wherein said occluded length is the entire length of said fastening strips. 48. The invention as in claim 45, wherein said separator has a first end and a second end, a portion of said separator angles downwardly relative to the longitudinal X axis from said first end to said second end. 49. The invention as in claim 48, wherein a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 50. The invention as in claim 45 wherein said separator has a first end and a second end, a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 51. A method of assembling a slider onto a closure device comprising the steps of: providing a first fastening strip, providing a second fastening strip wherein a length of said first fastening strip is occluded to a corresponding length of said second fastening strip to provide an occluded length, providing a slider for slidable disposition on said fastening strips and facilitating the occlusion of said fastening strips when moved towards a first end thereof and facilitating the deocclusion of said fastening strips when moved towards a second end thereof, said fastening strips and said slider having a longitudinal X axis and a transverse Y axis, said transverse Y axis being perpendicular to said longitudinal X axis, said fastening strips and said slider having a vertical Z axis, said vertical Z axis being perpendicular to said longitudinal X axis, said vertical Z axis being perpendicular to said transverse Y axis, said slider comprising a housing having a separator facilitating the deocclusion of said fastening strips, urging said slider onto said occluded length of said fastening s trips in said vertical Z axis whereby said separator penetrates a portion of said occluded length of said fastening strips. 52. The invention as in claim 51 wherein said occluded length is a portion of said fastening strips. 53. The invention as in claim 51 wherein said occluded length is the entire length of said fastening strips. 54. The invention as in claim 51, wherein said separator has a first end and a second end, a portion of said separator angles downwardly relative to the longitudinal X axis from said first end to said second end. 55. The invention as in claim 54, wherein a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 56. The invention as in claim 51 wherein said separator has a first end and a second end, a portion of said separator angles inwardly relative to the longitudinal X axis from said first end to said second end. 57. A closure device comprising first and second interlocking fastening strips arranged to be interlocked over a predetermined length, said fastening strips have a longitudinal X axis, said fastening strips have a transverse Y axis, said transverse Y axis is perpendicular to said longitudinal X axis said fastening strips have a vertical Z axis said vertical Z axis, is perpendicular to said longitudinal X axis, said vertical Z axis is perpendicular to said transverse Y axis, a slider which slidably engages said first and second fastening strips, said slider facilitates the occlusion of said fastening strips when moved towards a first end of said fastening strips and deocclusion of said fastening strips when moved toward a second end of said fastening strips, said fastening strips are deoccluded by moving said first fastening strip relative to said second fastening strip in the transverse Y axis and in the vertical Z axis; said first fastening strip comprises a first web, said first web extending from said first fastening strip, said first web terminating in a first closure portion, said second fastening strip comprises a second web, said second web extending from said second fastening strip, said second web terminating in a second closure portion which engages said first closure portion when said fastening strips are occluded; the first web and the first closure portion deflect during deocclusion of said fastening strips; said first fastening strip includes a third web, said third web spaced from said first web, said third web includes a third closure portion, said second fastening strip includes a fourth web, said fourth web spaced from said second web, and said fourth web includes a fourth closure portion which engages the third closure portion, said third closure portion and said fourth closure portion shear and deflect during deocclusion of said fastening strips; and wherein said first closure portion is a first hook, said third closure portion is a third hook facing toward said first hook, said second closure portion is a second hook, and said fourth closure portion is a fourth hook facing away from said second hook. 58. The invention as in claim 57 wherein said first and third hooks include guide surfaces to guide said first and third hooks with said second and fourth hooks. 59. The invention as in claim 57 wherein said second and fourth hooks include guide surfaces to guide said second and fourth hooks with said first and third hooks. 60. The invention as in claim 57 wherein during deocclusion of the fastening strips, said first closure portion and said second closure portion deflect to deocclude, then said third closure portion and said fourth closure portion shear and deflect to deocclude. 61. The invention as in claim 57 wherein said slider has a first shoulder to engage the first fastening strip. 62. The invention as in claim 61 wherein said shoulder facilitates moving the first fastening strip in the vertical Z axis. 63. The invention as in claim 57 wherein said slider has a second shear wing to engage th
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