METHOD OF FORMATION OF A PRODUCT HOLDING CONTACT, AND PRODUCT HOLDING CONTACT

专利摘要:
contact fixation. the present invention relates to a process of forming a contact fastening product, having a sheet-shaped base and an arrangement of distinctive fastening elements, all extending from the base, which includes: providing a sheet-shaped base and an array of preforms of distinct resin fastening elements, each preform extending from the base and including both a stem upward portion of the base and a head portion, both contiguous with a distal end of the stem portion and having a upper surface directed away from the base, the head part including at least one laterally directed extension of the base, in a primary lateral direction between the exposed sides of the fastener element preform and ending at a free, distal tip; and then forming the respective covers, of a covering material with a greater flexural modulus than the resin of the preforms, on the upper surfaces of at least some of the preforms of molded fastening elements, to form the distinct fastening elements.
公开号:BR112015008344B1
申请号:R112015008344-7
申请日:2013-10-14
公开日:2021-04-27
发明作者:Andrew Collins；Christopher M. Gallant
申请人:Velcro BVBA；
IPC主号:

专利说明:

Technical Field
[0001] The present invention relates, in general, to contact fasteners, such as those having arrangements of miniature structures, distinct for detachable coupling with an associated material, such as a clamp or a cooperative structural arrangement. Background
[0002] Various contact fastening systems, such as those found in personal care products and others, have different hook-up structures that extend from a common base. Many of these products are formed from resin, such as by molding the base and chipping structures of a unitary resin flow, or cutting the tracks of a plastic extrusion, or by molding the base with preformed structures (for example , straight rods), which are then deformed to create hooking structures. Some hooking structures are clamp-shaped, with tips that extend in a primary lateral direction to define a hook. Some hooking structures have multiple hooks, with one example being a "palm-like" structure, with spikes extending in two opposite directions. Some hooking structures are known as "mushroom type", and feature coupling heads that protrude from the entire base around a support rod.
[0003] Molding projected heads in cavities without openings requires the selection of a resin and a hooking element shape, which allows the molded elements to temporarily deform during removal from the mold, and which also provide a level resistance to detachment during use.
[0004] Improvements are continually sought to facilitate the manufacture of fastener products with desired properties, including shear and shear resistance and smoothness to the touch. summary
[0005] One or more aspects of the invention originate from the realization that by applying a structural material to the upper parts of elements already formed, under certain circumstances, improvements in the fixing performance of a contact fastening product can be obtained while also providing other desirable properties, such a desired feel to the touch.
[0006] In one aspect, the invention features a method of forming a contact fastening product, having a sheet-shaped base and an arrangement of distinctive fastening elements, all extending from the base. The method includes providing a sheet-shaped base and an array of preforms of distinct resin fastening elements, each preform extending from the base and including both an upward stem part of the base and a head part, both contiguous with a distal end of the stem part and having an upper surface directed away from the base, the head part including at least one laterally directed extension of the base, in a primary lateral direction between the exposed sides of the fastener element preform and ending at a free, distal tip; and then form the respective covers, of a covering material with a greater flexural modulus than the resin of the preforms, on the upper surfaces of at least some of the preforms of molded fastening elements, to form the different fastening elements .
[0007] In some examples, the head part of each fastener element preform has two extensions directed to opposite sides projecting separately from the base and ending at the respective distal ends.
[0008] In some applications, the covers are formed so that the ends of the head parts of the preforms of different fastening elements remain free of the covering material.
[0009] In some cases, the covers are formed so that the regions of the upper surfaces of the head parts of the preforms of fastening elements, adjacent to the tips, remain free of the covering material.
[00010] In some embodiments, the covers are formed so that the undersides of the extensions of the head part remain free of the covering material.
[00011] In some implementations, the covers are formed so that the stem parts of the preforming fastener elements remain free of the covering material.
[00012] In some applications, the covers are formed so that they extend laterally beyond the exposed sides of the preforms of fastening elements.
[00013] In some cases, the covers are formed so that they extend beyond the upper surfaces of the preforming fastener elements, to protrude from the base. In some instances, covers are formed so that they protrude from the base only in limited lateral directions.
[00014] In some embodiments, the upper surface of each head part defines a central recess, delimited on two opposite sides by the upper surface and laterally open on the sides of the fastener element preform, and in which the covers are shaped to fill the central recesses. In some applications, the covers are formed so that they have convex upper surfaces arranged over the recesses.
[00015] In some examples, the covers, as formed, extend further from the base than the upper surfaces of the preforming fastener elements.
[00016] In some cases, at least one of the exposed sides of each fastener element preform is flat.
[00017] In some applications, the covering material is a thermoplastic resin.
[00018] In some implementations, the formation of the covers includes contacting the upper surfaces of the fastening element preforms with a quantity of liquid covering material, conducted in a source of covering material, and then removing the element preforms. fasteners of the roofing material source, whereby a part of roofing material is removed from the roofing material source and remains in the preform of the fastening element. In some embodiments, the formation of the covers also includes allowing the covering material to form a freely exposed covering surface in the preforms of fastening elements, before solidifying. In some applications, the source of cover material includes an outer surface of a rotating drum, and where the formation of covers includes passing the preforms of molded fastening elements adjacent to the outer surface of the drum, so that the covering material , conducted on the external surfaces, contact the upper surfaces of the fastener elements preforms. In some examples, the drum is configured so that only some of the preforming fastener elements contact the liquid cover material, conducted on the outer surface of the drum.
[00019] In some cases, providing the molded sheet base and the arrangement of preforms of different fastening elements includes continuously shaping the shape base and the arrangement of preforms of different fastening elements of a contiguous resin stream .
[00020] In another aspect, the invention presents a method of forming a contact fastening product, having a leaf-shaped base and an arrangement of different fastening elements, all extending from the base. The method includes: providing a molded sheet shaped base and an array of preforms of distinct fastener elements, each preform extending from the base and having an upper surface directed away from the base; and then adding resin to the upper surfaces of the preforms to form the respective covers of the resin added on the upper surfaces, to form the distinctive fastening elements, the covers formed so that they extend laterally beyond the upper surfaces, to protrude from the base.
[00021] In some examples, the preforms of fastening elements include both a stem part rising from the base and a head part, both contiguous with a distal end of the stem part, the head part projecting laterally from the base. In some applications, the head part of each fastener element preform has two extensions directed in opposite directions projecting from the base and ending at the respective distal ends. In some implementations, the covers are formed so that the ends of the head parts of the different preforms of different elements remain free of the added resin. In some embodiments, the upper surface of each head part defines a central recess, bounded on two opposite sides by the upper surface and opened laterally on at least one side of the fastener element preform, and in which the covers are formed to fill the central recesses.
[00022] In some implementations, the covers are formed only on the preforms of fastening elements close to an edge of the preform arrangement of different fastening elements, leaving the preforms of fastening elements farther from the free edge of the added resin , and in which the resin added is softer than a material used to mold the preforms of fastening elements.
[00023] In some applications, the base is molded on a support substrate, which extends laterally beyond the base. In some embodiments, the substrate includes a fibrous sheet, the base shaped so that the resin encapsulates the surface fibers of the fibrous sheet. In some implementations, the substrate includes a film or a sheet of paper. In some examples, the base has an exposed surface adjacent to the edge of the support substrate. In some embodiments, the base forms a delimited strip, having two opposite edges extending along the support substrate. In some applications, the covers are formed so that the preforms of fastening elements, adjacent to the edge of the base, remain free of the added resin. In some applications, the base is bounded on all sides by the exposed surface of the support substrate.
[00024] In some examples, providing the molded sheet base and the preform arrangement of distinct fastener elements includes continuously shaping the shape base and the preform arrangement of different fastener elements from a contiguous resin stream .
[00025] In yet another aspect, the invention features a method of forming a contact fastening product, having a sheet-shaped base, and an arrangement of fastening elements, all extending from the base. The method includes: providing an array of preforms of distinct fastener elements, each preform including a rising stem part of the leaf-shaped base and a head part, contiguous with a distal end of the stem part, the projected head part of the base in at least one lateral direction; and then forming the respective covers on the head parts of at least some of the molded fastener preforms, to form the different fastening elements, the covers extending beyond the head parts to protrude from the base in at least one lateral direction.
[00026] In yet another aspect, the invention features a method of forming a contact fastening product, having a sheet-shaped base, and an arrangement of fastening elements, all extending from the base. The method includes: providing a molded arrangement of separate vertical rods, each rod rising from the leaf-shaped base, to terminate at a distal end having an upper surface directed away from the base; deforming the distal ends of the rods to form preforms of fastening elements, each preform including a rod part and a head part contiguous to the rod part, the projected head part of the base in at least one lateral direction; and then forming the respective covers of a covering material, having a different composition from the moldable resin, in the head parts of at least some of the preforming fastener elements, to form the different fastening elements.
[00027] In yet another aspect, the invention features a contact fastening product including: a sheet-shaped base; and an arrangement of fasteners, all extending from the base, at least one of the fasteners including: a fastener element preform including a vertical molded rod; and a cover crowning an upper surface of the fastener element preform, the projected cover of the base in at least one lateral direction, and being composed of a material that is more rigid than a material of which the fastener element preform is. composed.
[00028] In yet another aspect, the invention features a contact fastening product including: a sheet-shaped base; and an arrangement of fasteners, all extending from the base, at least one of the fasteners including: a fastener element preform including both a stem part, rising from the base, and a head part, contiguous with a distal end of the stem part and having an upper surface directed away from the base, the head part including at least one extension directed laterally projecting from the base, in a primary lateral direction between the exposed sides of the fastener element preform, and ending in a free, distal tip; and a cover crowning an upper surface of the fastener element preform, the cover being composed of a material that is more rigid than a material of which the fastener element preform is composed.
[00029] The details of one or more implementations of the present invention, described in the present specification, are presented in the attached drawings and in the description presented below. Other features, aspects and advantages of the present invention will be evident from the description, the drawings and the claims. Brief Description of Drawings
[00030] Figures 1A and 1B are side and end views, respectively, of a covered palm-shaped fastener.
[00031] Figure 1C is a diagram illustrating the structure of the preform in Figure 1A with different cover sizes.
[00032] Figures 2A and 2B are side and end views, respectively, of a covered J hook fastener element.
[00033] Figure 3 is a side view of a covered rod fastener.
[00034] Figure 4 is a side view of a covered mushroom fastener.
[00035] Figures 5A and 5B are seen from the top and side, respectively, of a covered trilobal male fastening element.
[00036] Figures 6A and 6B are seen from the top and side, respectively, of a covered quadrilobal male fastening element.
[00037] Figures 7A to 7C are side views of several male fastening elements, in which the covers entirely envelop the heads of the preform structures.
[00038] Figures 8A, 8B and 8C are schematic views of systems for forming preform structures using a molding cylinder.
[00039] Figure 8D is a schematic view of a system for forming preform structures using a stretch and cut technique.
[00040] Figure 9A is a schematic illustration of an apparatus and method for covering preformed fastener element structures by inverted cylinder liner.
[00041] Figure 9B is a photograph that provides an enlarged perspective view of a product corresponding to the area marked Figure 9B in Figure 9A.
[00042] Figure 9C is an enlarged view of the area marked Figure 9C in Figure 9A.
[00043] Figure 9D is a photograph that provides an enlarged perspective view of a product corresponding to the area marked Figure 9D in Figure 9A.
[00044] Figures 10A and 10B are schematic views of a second device for covering preform structures.
[00045] Figures 11A and 11B are schematic views of a third apparatus for covering preform structures.
[00046] Figure 12A is a side view of a preform structure having opposing heads, which extend both upwards and laterally outward from a wide rod.
[00047] Figure 12B is a cross-sectional side view of a covered fastener, including a deformed preform structure.
[00048] Figure 12C is an end view of the covered hook structure of Figure 12B.
[00049] Figure 13A is a side view of a preform structure formed using a stretching and cutting technique.
[00050] Figures 13B and 13C are front and side views, respectively, of the covered fastening element including the preform structure of Figure 13A.
[00051] Figures 14A and 14B are front and top views, respectively, of a fastening product showing an arrangement of covered fastening elements.
[00052] Figures 15A and 15B are front and top views, respectively, of a first fastening product featuring an arrangement of fastening elements including both covered and non-covered fastening elements.
[00053] Figures 15C and 15D are front and top views, respectively, of a second fastener product featuring an arrangement of fastener elements including both covered and non-covered fastener elements.
[00054] Figure 16 is a view from the top of a fastener product showing different regions of covered fastener elements, surrounded by non-covered fastener elements.
[00055] Figures 17A and 17B are photographs of a laminated contact fastening product with covered palm-shaped fastening elements.
[00056] Figures 18A and 18B are photographs of side views of individual contact fastening elements, showing pre-formed structures with rigid covers.
[00057] Figure 19 is a schematic view of a contact fastening product, with covered fastening elements being used in a foam molding application.
[00058] Similar numbers and reference indications indicate similar elements in the various drawings. Detailed Description
[00059] Figures 1A and 1B show a first example of a male fastening element 100. A set of these fastening elements can be guided on a sheet-shaped base (not shown), to provide a contact fastening product (see Figures 12A to 15B). The fastener element 100 has a preform structure 102 and a cover 104 crowning the top part of the structure. The preform structure and the cover can be formed from identical materials or not, to create a fastener element with desired structural and / or material characteristics. As an example, the preform structure and the cover can be formed from the same material, to provide a uniform fastener element having a unique shape that would not be possible using conventional manufacturing techniques. On the other hand, a non-uniform fastening element can be provided when the preform structure is formed of a particularly flexible resin material, while the cover material is particularly rigid (for example, at least more rigid than the material of the preform structure). In that case, the flexibility of the preform structure 102 can make the fastener element 100 "compatible with the skin", while the rigidity of the cover 104 reinforces the preform structure to enhance the performance of the fastener element. This combination of features can be particularly useful when applied to fastening systems for personal care items, such as diaper panties for teaching, panties linings and incontinence clothing, in which a secure fastening is required, but direct contact with a rigid fastening product can cause skin irritation.
[00060] In this example, the preform 102 has a palm-shaped profile with relatively flat side surfaces, so that it can be molded in a cavity formed between two adjacent mold plates in a molding cylinder, such as taught by Fischer in US patent 4,775,310. The preform structure 102 includes a wide stem (or a pedestal) 106, integrally formed and rising from the leaf-shaped base, and two opposite heads 108 contiguous with a distal end of the stem. The rod 106 is continuously tapered, defining an included angle between its front and rear edges. The heads 108 extend outwardly from the stem 106 to project from the base in opposite lateral directions. As shown, heads 108 define the respective concave hooks 110, for coupling an associated fastener product (e.g., loop fibers). All heads 108 terminate a distal reentrant tip 112.
[00061] The cover 104 rests on the preform structure 102, on the upper surface of the heads 108, and is connected to the preform structure so as to be located firmly on it. In this example, cover 104 is a free-form, bulbous structure (e.g., an unformed structure) having relatively smooth convex outer surfaces. The smooth outer surface of the cover can improve the feeling of compatibility with the skin of the fastening element for a user. As described in detail below, the cover 104 can be formed on the preform structure 102 by depositing an amount of liquid covering material on the structure, and allowing the liquid covering material to conform freely under atmospheric pressure. In this case, the shape of the roof can be deliberately defined by, for example, controlling the "mobility" of the preform structure by the liquid roofing material, as well as the viscosity of the roofing material when applied. The degree of wetting corresponds directly to the contact angle α, between the surface of the preform structure and the covering material. Generally, a high wettability corresponding to a low contact angle, and a low wettability corresponds to a high contact angle. In some implementations, it is advantageous to have a relatively high wettability of the preform structures by the liquid cover material, so that the contact angle α is low, providing a uniform transition between the two constituents of the fastener element. This effect can also contribute to the feeling of compatibility with the skin of the fastener element.
[00062] Wettability may depend on a number of factors, including the inherent surface tension of the liquid roofing material and the natural imbalance of the cohesive forces (ie, the thermolecular attraction forces of the liquid roofing material) and the adhesion (the forces of attraction between the liquid cover material and the solidified material of the preform structures). These variables can be adjusted by using material additives (in the liquid roofing material or in the material used to shape the preform structures) and / or by conditioning or modifying the materials during manufacture (for example, implementing surface treatments on the structures of preforms to modify the surface energy, or by controlling the temperatures of the liquid covering material, to modify the viscosity and surface tension).
[00063] The cover 104 fills a recess 114, defined between the diverging heads 108 of the preform structure 102, thereby extending through the gap between the heads. The cover is positioned close to the neck regions of the heads, in order to support or reinforce these against distension due to detachment loads. As shown, recess 114 is a vat, or channel, which is extended in the direction of the machine (that is, the maximum extension lateral direction of the fastening element), marked "MD", by the apex of each head 108. The recess it is completely loose or opened in the direction transverse to the machine (that is, the lateral direction perpendicular to the machine direction), marked "CMD". The cover can extend laterally outward, or overflow, from the recess formed by the upper surface of the preform structure. In this example, the cover 104 extends beyond the open sides of the recess 114, to project from the base in the direction transverse to the machine, offering an additional coupling item (for example, an item attachable to a clamp) to complement the hooks 110 ( as seen in Figure 1B) and also covers the upper edges of the hook, thereby improving the felt softness of the product. As shown, the cover 104 also extends above the apex of the heads 108, increasing the overall height of the clamping element 100. In the direction of the machine, the cover extends outward to a point close to the apex of each head of the pre- shape, so that at least part of the heads, hooks and reentrant tips are free of any covering material. Leaving the ends free of the covering material can, in some circumstances, avoid inhibiting the ability of the ends to break the fibers of the cleats. The rod of the preform structure is also generally free of cover material, allowing the fastener element to flex easily in response to bending loads.
[00064] The preform structure 102 can be formed of a moldable resin material, which includes a highly flexible polymer (or polymers), allowing the preform structure to easily bend and flex flexibly in response to degrees minimum pressure. When made of a highly flexible polymer, the heads of the preform structure are less likely to feel rough for a user. Polymers for molding particularly flexible preform structures can have a flexural modulus in a range from 48 MPa (7 kpsi) to 207 MPa (30 kpsi). Suitable flexible polymers can include, for example, common thermoplastic polymers, such as polyamide and polypropylene, which can optionally be modified with block copolymers, such as polyurethanes, copoly (ethers - esters), etc. U.S. patent 7,373,700, the entirety of which is incorporated by reference in this specification, describes various types of suitable polymers.
[00065] The cover 104 is formed from a material different from the material of the preform structure. The solidified cover material can be significantly more rigid than the material of the preform structure, as it can be presented by a bending module, which is larger than that of the material of the preform structure. In one example, the rigid roofing material has a bending modulus of about 456 MPa (66 kpsi). For some applications, the bending module of the cover material is at least about twice that of the material of the preform structure. Suitable rigid polymers can include, for example, acrylate or methacrylate resins (commonly referred to as acrylate or methacrylate plastics), and linear low density polyethylene. In some instances, the cover material is curable in ultraviolet light or by electronic beam radiation.
[00066] The customization of the characteristics of the fastener element can be obtained by selecting the materials used to produce the preform structure and the cover. This type of customization can prove to be especially advantageous, when it is not feasible or convenient to mold the preform structures into a desired final shape, or when the tooling for this molding is going to be so expensive or with a very long processing time. The size of the cover provides another adjustment parameter to customize the characteristics of the fastening elements, which can be changed relatively easily. Figure 1C provides a diagram showing how the covers of different sizes can be applied to the preform structure 102. All covers 104a ad provide a different degree of flexural reinforcement to the heads 108, and therefore provide a respective fastener element 100 designed to provide a different degree of resistance to detachment. In this example, when all covers 104a to d are formed from the same material, the largest cover 104a provides the highest degree of reinforcement and the smallest cover 104d provides the lowest degree. Because the covers are freely formed structures, the size of the cover can be controlled by applying more or less liquid covering material to the head.
[00067] With reference to Figures 2A and 2B, the fastener element 200 includes a flexible preform structure 202 and a rigid cover 204 crowning the top part of the preform structure. In this example, the preform structure has a J-shaped profile. Consequently, preform structure 202 has a single head 208, which extends integrally from a tapered vertical rod 206. Head 208 extends laterally to outside the stem 206, to extend from the base in the form of a support sheet (not shown). Head 208 defines a hook 210 for coupling the items of an associated fastener product and terminates at a distal reentrant tip 212.
[00068] The cover 204 is situated on the preform structure 202 and directly connected to the upper curved surface of the head 208. As shown, the cover extends both upwards and behind the upper surface of the preform structure shape, but in this particular example, it does not extend beyond the flat sides of the preform structure and does not protrude from the base sheet, from which the stem 206 extends. The cover 204 is positioned close to the neck region of the head 208, on the side opposite the hook 210, in order to support the head against distension due to the loosening loads. The cover is a free-form structure with a smooth convex outer surface. In another J-shaped example (not shown), the cover material extends beyond the edges of the hook to protrude from the base sheet.
[00069] With reference to Figure 3, the fastener element 300 includes a flexible preform structure 302 and a rigid cover 304 crowning the top part of the preform structure. In this example, the preform structure is a molded vertical rod, having a substantially constant circular or rectangular cross section. This type of structure can be formed by using a molding cylinder with rod-shaped mold cavities. The cover 304 is located on the preform structure 302 and directly connected to the upper surface of the stem. the cover is a free-form structure with a smooth convex outer surface, forming a bulbous crown on the stem. As shown, the cover extends both upwards and laterally beyond the upper surface of the head of the preform structure, to extend from the support base. The projection regions of the 304 cover provide fastening items, which can break the fibers of the brackets, at least to withstand shear loads.
[00070] With reference to Figure 4, the fastener element 400 includes a flexible preform structure 402 and a rigid cover 404 crowning the top part of the preform structure. In this example, the preform is a fastening component of the mushroom type, featuring a straight vertical rod 406 supporting a larger head 408. Head 408 is a generally circular disc, such as that which can be formed by heating an upper part of the molded stem, to soften the distal end of the stem, and then pass the softened stem end under a molding cylinder, to cause the resin to flow out radially. The formation of the head can be done alternatively by passing the stem under a heated cylinder, which applies both heat and pressure. The cover 404 is located on the preform structure 402 and directly connected to the flat top surface of the head 408. The cover is a free-form structure with a smooth convex outer surface, forming a bulbous crown on the stem. Further, as shown, the cover extends both upward and laterally outward beyond the upper surface of the preform structure's head, to protrude from the support base at least on one side, if not all the way around the head.
[00071] With reference to Figures 5A and 5B, the fastener element 500 includes a flexible preform structure 502 and a rigid cover 504 crowning the top part of the preform structure. In this example, the preform structure is a trilobal hook or molded trident shaped component. As such, the preform structure 502 has three diverging heads 508, which extend integrally from a common vertical rod 506 at 120 degree intervals. The heads 508 extend outwardly from the stem 506 to protrude from the base in the form of a support sheet in diverging lateral directions. Each of the heads 508 defines a respective hook 510, for coupling the items of an associated fastener product, and ends at a distal reentrant tip 512.
[00072] The cover 504 is located on the preform structure 502 and directly connected to the upper curved surfaces of the heads 508. In particular, the cover 504 is arranged, at least partially, in a defined recess between the diverging heads 508 of the preform 502, so as to cover a gap between the heads. The cover is a free-form structure with a smooth convex outer surface, forming a bulbous crown at the top of the preform structure. As shown, the cover extends upwards to form the uppermost part of the fastening element 500, and parts of the cover extending between adjacent heads protruding from the base between the heads. As in the examples described above, the cover 504 resists the distension, or disengagement, of each head under load from a coupled clamp, thereby increasing the resistance to the total effective detachment of a field of these fastening elements.
[00073] With reference to Figures 6A and 6B, the fastener element 600 includes a flexible preform structure 602 and a rigid cover crowning the top part of the preform structure. In this example, the preform structure is a molded quadrilateral hook component. As such, the preform structure 602 has four diverging heads 608, which extend integrally from a common vertical rod 606 at 90 degree intervals. The heads 608 extend laterally out of the stem 606, to project from the base in the form of a support sheet in orthogonal lateral directions. Each of the heads 608 defines a respective hook 610, for coupling items from an associated fastening product, and ends at a distal reentrant tip 612.
[00074] The cover 604 is located above the preform structure 602 and directly connected to the upper curved surfaces of the heads 608. In particular, the cover 604 is arranged, at least partially, in a defined recess between the diverging heads 608 of the preform structure 602, so as to traverse a gap between the heads directed in opposite directions, and also to traverse the adjacent heads so as to form an additional protruding surface. The cover is a free-form structure with a smooth convex outer surface, forming a bulbous crown at the top of the head of the preform structure. As shown, the cover extends both upwardly and laterally beyond the upper surfaces of the heads of the preform structure to traverse the lower part of the stem and the base.
[00075] Both contact fastening elements 500 and 600 have preform structures with tapered heads, which extend in multiple lateral directions. These types of preform structures can be molded using a molding cylinder, including several precisely aligned molding plates, where each molding plate defines an established cavity to form a respective part of the items in the direction transverse to the machine, as taught in US patent 6,163,939, all of which are incorporated by reference in this specification.
[00076] Figures 7A to 7C show, for example, male contact fastening elements 700a to c, in which covers 704a to c essentially cover heads 708a to c of preform structures 702a to c. In this case, the rigid covering material covers, at least partially, the recessed tips of the heads, leaving the support rods free of covering material and flexible in response to bending loads.
[00077] The capping method can be controlled to limit the amount of material deposited on the preform structure, and the degree to which the material seeps below the surfaces of the heads to envelop the particular items. This can be advantageously changed by selecting material affinities and milling properties, as discussed above, and also by surface finish and structure geometry.
[00078] Many of the preform structures described above can be molded into the illustrated shapes. Figure 8A illustrates an exemplary first apparatus 800a, and the method for molding preforms of fastening elements together with a sheet-shaped base, as a mass of contiguous resin. As shown, apparatus 800a includes an extruder 802a, which provides a continuous sheet of melting thermoplastic resin 804a at a nip 806a, formed between a pressure cylinder 808a and a counter-rotating molding cylinder 810a. The surface of the molding cylinder defines cavities with miniature blind termination, which can be molded appropriately to form the preform structures. The pressure in the narrow causes the thermoplastic resin 804a to enter the cavities of the molding cylinder 810a, to form the preform structures, while the excess resin remains around the periphery of the molding cylinder and is molded between the cylinders. , to form the base in the form of a support sheet. The thermoplastic resin is cooled as it moves along the periphery of the molding cylinder, solidifying the preform structures, until it is removed by the extractor cylinder 812a. The product is a continuous preform strip 820a, featuring an array of preform structures formed integrally on a flexible resin sheet base. When forming hook-shaped preform structures (for example, palm-shaped, J-shaped, trilobal or quadrilobal preforms), molded heads may stretch during demoulding, but tend to recover. substantially in their shapes as molded. Further details regarding the molding of preforms are described by U.S. Patents 4,774,310, 6,802,260 and 6,163,939, the full descriptions of which are incorporated by reference in this specification.
[00079] In some embodiments, the molding cylinder 810a comprises a face-to-face assembly of thin, circular rings or plates (not shown), which are, for example, from about 0.0762 mm to about 6 mm thick. .35 mm (0.003 - 0.250 in.), Some having cuts in their peripheries defining mold cavities and others having solid circumferences, serving to close the open sides of the mold cavities and serve as spacers, defining the spacing between the adjacent lines in a provision of preform structures. A fully "embedded" molding cylinder may include stacks of rings, which are, for example, from about 1.91 cm to about 15.24 cm (0.75 - 6 in) or more in width and may contain, for example, about 50 to 1,000 or more individual rings. Further details regarding the molding tooling are described by Fischer, U.S. patent 4,775,310. Other embodiments of tools will also be described below.
[00080] Figure 8B illustrates a second exemplary apparatus 800b, designed for molding preforms of fastening elements together with a sheet-shaped base, as a mass of contiguous resin. The apparatus 800b includes an extruder 802b, designed to conform to the periphery of a molding cylinder 810b. As shown, a gap 814b is formed between the extruder 802b and the molding cylinder 810b. The extruder 802b provides a stream of melting thermoplastic resin 804b, under pressure, directly into the gap 814b, forcing the resin to enter the mold cylinder wells. The excess resin remains around the periphery of the molding cylinder, and is molded in the gap to form the base in the form of a support sheet. As described above, the thermoplastic resin is cooled as it advances along the periphery of the molding cylinder, solidifying the preform structures, until it is extracted by the extractor cylinder 812b. The product is a continuous preform strip 820b, featuring an array of preform structures formed integrally on a flexible resin sheet-shaped base. Further details regarding this method are described by Akeno, U.S. patents 5,781,969 and 5,913,482, the descriptions of which are incorporated entirely by reference in this specification.
[00081] Figure 8C illustrates a third exemplary apparatus 800c, designed for molding preforms of fastening elements, while simultaneously linking the preforms to a flexible substrate. Similar to the first example, the apparatus 800c includes an extruder 802c, in which a continuous sheet of melting thermoplastic resin 804c is provided at a nip 806c, formed between a pressure cylinder 808c and a counter-molding cylinder 810c. In this example, the substrate material 816c is provided for the narrowing 806c simultaneously with the thermoplastic resin 804c. The heat and pressure in the narrowing 806c causes the substrate material 816c to be laminated and bonded to the thermoplastic resin, as the preform structures are molded. The result can be a contiguous molded structure, with no weld lines, extending from the ends of the preform structures to the substrate material, where the resin can bond closely with, or encapsulate, the items or fibers of the material to form a permanent, strong bond. The product is an 820c continuous preform strip having an array of preform structures formed integrally on a flexible substrate. Further details regarding this method are described by Kennedy et al., U.S. patent 5,260,015, the description of which is incorporated in its entirety by reference in the present specification. Other suitable techniques are described in U.S. patents 7,048,818, 6,205,623 and 8,079,995, the descriptions of which are incorporated entirely by reference in this specification.
[00082] Figure 8D illustrates a fourth exemplary 800d apparatus, designed to form preforms of fastening elements using a stretching and cutting technique. The apparatus 800d includes an extruder 850, which forms the thermoplastic resin by a matrix 852, which has an opening formed to form an elongated strip 854, having a thin base supporting multiple ribs in the form of fastening elements. The ribs extend parallel along the longitudinal direction of the strip. The strip 854 is pulled by a quenching tank 856 by cylinders 858. After quenching, the strip 854 is fed to a cutter 860, designed to break or transversally cut the ribs at regular longitudinal intervals along the length of the ribs. The support base is not marked by the cutter. After the ribs have been cut, strip 854 is individually stretched by the narrowing cylinders 862a and 862b, which are arranged in pairs of cylinders driven at different surface speeds. Similar to the previous examples, the product is an 820d continuous preform strip, featuring an array of preform structures formed integrally on a flexible substrate. Further details regarding this method are described by Nestegard, U.S. patent 4,894,060, the description of which is incorporated entirely by reference in this specification.
[00083] In some cases, the preform structures are not molded into their final shapes. Consequently, any of the apparatus described above can include a processing station 818, to finalize the shape of the preform structures. Such subsequent processing may include "top leveling" hook-type preform structures, as described by Provost in US patent 5,953,797 and by Akeno in US patent 5,781,969, the full descriptions of which are incorporated by reference in the present descriptive report. In some cases, even straight molded rods can be further processed to result in suitable fastening elements. In all of the methods discussed above, the preform product can immediately advance from the preform processing apparatus to a station, in which covers are formed on the preform structures, thereby producing the finished product in a single continuous method.
[00084] Of course, other suitable techniques and devices can be used for molding continuous strips leading to preform structures.
[00085] With reference to Figure 9A, a continuous preform strip 920, such as that which can be formed using any of the apparatus and techniques described above, is conducted in a feed direction along a guide cylinder 924. The guide cylinder 924 is arranged to carry a preform strip 920 towards an applicator drum 922. The preform strip is mounted so that its flexible base moves along the outer surface of the guide cylinder, while the preform structures extend outward to face the applicator drum. The applicator drum is designed to provide an open source of cover material for transferring it to at least some of the preform structures on the strip. As described in detail below, an exposed part of the applicator drum surface conducts a thin film of covering material, so that it is deposited on the heads of the preform structures. The apparatus 900 is designed in such a way that, as the preform strip 920 passes from the outer surface through the applicator drum 922, at least part of the covering material is removed from the outer surface of the drum and placed on the pre- shapes (see Figure 9C).
[00086] As shown, the applicator drum 922 is partially submerged in a bath of liquid cover material 926, contained in a relatively large vat 929. As the applicator drum rotates through the bath, the liquid cover material is guided to out of the tub on the outer surface of the drum. In some embodiments, the outer surface of the drum is modified to improve the ability of the applicator drum to "grasp" the cover material. For example, the outer surface of the applicator drum may be marked or slightly stamped to provide surface roughness. A spreader blade 929 can be used to remove excess cover material from the periphery of applicator drum 922, leaving a thin, uniform liquid coating of cover material to coat the exposed outer surface of the drum. The positioning of the spreading blade in relation to the applicator drum is used to control the thickness of the coating.
[00087] The thickness of the coating is one of several method parameters that can affect the size and shape of the covering on the preform structures. For example, with all other variables being equal, a smaller coating thickness will transfer less material to the preforms than a larger coating thickness. The thickness of the coating can vary in different embodiments, based, for example, on the size and shape of the preform structures. In some implementations, the coating thickness is between about 0.0127 and about 0.0254 cm (0.005 - 0.01 in). In one example, the thickness of the coating is about 0.00762 cm (0.003 in). In another example, the thickness of the coating is about 0.1016 cm (0.04 in). In this example, the entire periphery of cylinder 924 is coated. In other examples, the periphery of the cylinder has protruding regions, which harvest the cover material to deposit in the desired areas (for example, to form islands of capped rods, as shown in Figure 16).
[00088] As mentioned above, the liquid cover material can be a melting thermoplastic resin. In some embodiments, a heater 930 (for example, a resistive heater) is used to maintain the liquid cover material at a specific desired temperature or within a desired temperature range. The desired temperature can, for example, be determined in order to keep the cover material in liquid form. That is, the desired temperature can be at least above the melting temperature of the cover material. As another example, the desired temperature can be determined in order to maintain certain properties of the liquid coating material (for example, viscosity, surface tension, etc.) In some embodiments, the applicator drum itself can be heated to maintain the temperature of the liquid cover material, when it is carried through the bowl on the outer surface of the drum.
[00089] Additives can be incorporated into the liquid coating material to improve its workability. For example, a thixotropic agent can be added to the liquid cover material to control its viscosity. In that case, the liquid cover material is thinner (ie, having a low viscosity), when agitated in the vat by the applicator drum, and thicker (ie, having a relatively high viscosity), when resting on the surface of the drum applicator and deposited on the preform structures.
[00090] Figure 9C shows the span interface 832 between the applicator drum 922 and the guide cylinder 924. The span is dimensioned appropriately to receive the molded preform structures, placing the structures in contact with the thin film of material cover, as the preform strip passes adjacent to the outer surface of the applicator drum. In particular, as the heads of the preform structures briefly contact the film of covering material, a small amount of the substance is removed from the applicator drum and placed on the preforms. Furthermore, because there is little or no pressure exerted during the application method, the cover material is allowed to form freely on the outer surface of the preform structures, to form the 950 contact fastening product (see Figure 9D ).
[00091] With reference back to Figure 9A, one or more pre- or post-processing techniques can be implemented to complement the technique described above for capping preform structures. For example, a preprocessing station 934 can be provided upstream of the applicator drum - guide cylinder interface. The pre-processing station 934 can implement a surface preparation technique on the preform structures, to improve adhesion with the covering material. For example, the pre-processing station can implement a corona discharge or an abrasive blasting technique to modify the surface energy of the preform structures. In some examples, a post-processing station 936 may be provided downstream of the applicator drum - guide cylinder interface. The post-processing station 936 can be provided to cure the applied cover material, for example, by using controlled ultraviolet radiation.
[00092] Figures 10A and 10B show an apparatus 1000 to implement a wave or immersion welding technique to cover preform structures. As shown, a continuous preform strip 1020 is conducted in a feed direction, along the guide cylinder 1024. The guide cylinder 1024 is arranged to carry a strip of preform 1020 in the direction of a bath of material. liquid cover 1026, contained in a large vat 1028. The vat may include a heater 1030 to control the temperatures of the liquid cover material 1026. Similar to the previous example, the preform strip is assembled so that its flexible base is move against the outer surface of the guide cylinder, while the preform structures extend outward to face the bowl and the liquid bath. Apparatus 1000 is suitably designed to allow the guide cylinder 1024 to enter the structures extending out of the preform strip 1020 so that they enter the vat 1028 and are at least partially submerged in the bath of liquid cover material 1026. As mentioned above, suitable pre- and post-processing stations 1034 and 1036 can be provided to complement this technique.
[00093] Figure 10A shows an example in which a wave pump 1038 is connected to bowl 1028. The wave pump is designed to induce a substantially consistent wave of liquid cover material, so that it extends upwardly from the resting surface of the bath. The pump can be controlled to maintain the wave height at an appropriate level. As shown, the structures of the preform strip 1020 pass through the wave of liquid cover material 1026 and remove a portion of the cover material on their projected heads. The cover material is allowed to form freely on the outer surface of the preform structures, to form the fasteners.
[00094] Figure 10B shows an alternative example in which the bath of liquid cover material 1026 is calm in vat 1028. In this case, the heads of the preform structures in the continuous strip are simply immersed in the bath of uniform level of material. coverage. The preform structures emerge from the immersion method, with a part of the covering material deposited on the heads. The cover material is allowed to form freely on the outer surface of the preform structures, to form the fasteners.
[00095] Figures 11A and 11B show an apparatus 1100 for implementing a pin transfer technique for capping preform structures. As shown, a continuous preform strip 1120 is conveyed in a feed direction by an applicator plate 1140. The applicator plate includes a substantially flat substrate, on which a thin film or coating of covering material 1126 is held. The preform strip is positioned so that the preform structures extending outwards are facing downwards, towards the face of the applicator plate. As shown, apparatus 1100 includes a plunger 1142, positioned above the preform strip 1120 and aligned with the applicator plate 1140. As the preform passes through the applicator plate, the plunger slightly compresses the strip to force the preform structures on the strip to come into contact with the thin film of covering material (see Figure 11B). When the pressure applied by the plunger is released, the preform strip is removed from the applicator plate, with the heads of the preform structures carrying part of the cover material on its external surfaces. The cover material is allowed to form freely on the outer surface of the preform structures. As mentioned above, suitable pre- and post-processing stations 1134 and 1136 can be provided to complement this technique.
[00096] Of course, other embodiments are also considered. For example, any of the techniques and devices described above can be modified to selectively apply the liquid roofing material to the preform structures, so that at least some of the preforms are "capped", while others remain " uncapped ".
[00097] Figure 12A shows yet another example of a molded preform structure 1202, which can be used in conjunction with one or more implementations of the present invention. As shown, the preform structure 1202 includes a wide stem 1206, and two heads extending outwardly 1208, contiguous with a distal end of the stem (similar to the preform structure 102 shown in Figures 1A and 1B). In this example, the heads are relatively straight (without a recessed tip), extending both upward and laterally out of the stem. This particular type of preform structure can be particularly easy to remove from the cavities of a molding cylinder, due to the shape and direction of the heads.
[00098] Figures 12B and 12C show a male contact fastener element 1200, which can be produced by using the preform structure 1202. As an example, the fastener element 1200 can be manufactured by depositing a quantity of material liquid cover 1204 in the recess area 1214 between the heads 1208, while simultaneously applying a downward force to deform the heads. This type of capping operation can be achieved, for example, by using a suitably configured applicator (for example, a drum or applicator plunger, as shown in Figures 9A, 11A and 11B).
[00099] Figure 13A shows an example of a preform 1302 structure, formed using a stretching and cutting technique, as described above with respect to Figure 8D. Figure 13A can also be mentioned as illustrating an extrusion die form, by which a continuous resin sheet is extruded. Similar to some previous examples, the preform structure 1302 includes a stem 1306, and two heads extending outwardly 1308, contiguous with a distal end of the stem. The heads 1308 extend from the base of the strip (not shown) in the direction transverse to the machine, defining the respective concave hooks 1310. In this example, due to the shape of the extrusion die, each of the heads 1308 ends at an upward facing end 1312 (as opposed to reentrant tips, for example). As shown in Figure 13B, the facing ends and the opposing top surface of the head provide support for the cover 1304. As shown more clearly in Figure 13C, the cover 1304 extends beyond the top surface of the heads 1308 to traverse the base in the machine direction, to provide an additional coupling item.
[000100] Figures 14A and 14B show a male contact fastener product 1400, designed to have a feeling of compatibility with the skin for a user, while providing a strong coupling with a contact fastener (for example, interlaced or non-woven materials) ). This fastening product can be manufactured using, for example, the techniques and devices described above. Consequently, the contact clamp 1400 includes a field of distinct male clamping elements 100, featuring flexible, soft, hook-shaped preforms and rigid, smooth covers. The field of fastening elements extends considerably over the entire length and width of the leaf-shaped base. The fastening elements 100 extend out of a sheet-shaped base 1444, and, together with the base, form a contiguous mass of resin.
[000101] Figures 15A and 15B show another 1500 male contact fastener product, which is designed to be highly functional, while providing a feeling of compatibility with the skin. In this example, the contact fastening product 1500 includes a flexible substrate 1546, and an arrangement of fastening elements 100, arranged in a continuous strip along the length of the substrate. The width of the strip of fastening elements is less than that of the substrate, providing external sheaths, which are free of any fastening elements. The fastening elements 100 extend from a solidified base layer 1544 of moldable resin, which is intimately bonded to the substrate 1546. Together, the fastening elements and the base layer are a contiguous mass of flexible, soft resin. As shown, the arrangement includes an internal region of fasteners 100a, each of which includes a rigid cover, conducted on an upper surface, and two regions outside the edge of fasteners 100b, which are not capped. Uncapped regions outside the board are on either side of the inner capped region.
[000102] This arrangement can provide a feeling of compatibility with the particular skin, because the uncapped fastening elements at the edges of the arrangement, which appear significantly softer to a user, are more likely to contact the user's skin during use. In this case, the capped fastening elements the bulk of the fastening resistance, while the uncapped fastening elements increase the feeling of compatibility with the skin. This arrangement can also produce a fastening product, which is particularly malleable, because the base layer, from which the fastening elements extend, is formed of a flexible, soft resin.
[000103] Figures 15C and 15D show yet another example of a 1500 'male contact fastener product. In this example, the fastening elements together are arranged with covers as opposed to the example shown in Figures 15A and 15B. That is, in that case, the arrangement of fastening elements includes an internal region of fastening elements 100a ', which are not capped, and two regions outside the edge of fastening elements 100b', which include the rigid covers on their upper surfaces. In this example, to provide a skin-compatible feeling, the cover material is softer than the material used to form the preforming fastener elements.
[000104] Figure 16 shows another male contact clamping product 1600, which is similar to contact clamping product 1200. For example, contact clamping product 1600 includes a flexible substrate 1646 and an arrangement of clamping elements 100 arranged in a continuous strip longitudinally along the substrate. The clamping elements 100 extend integrally from a solidified base layer 1644. In this embodiment, there are several internal regions of capped clamping elements 100a, which form "islands" surrounded by a continuous outer region of uncapped clamping elements 100b. In another product (not shown), the preforms themselves are arranged only in separate regions, with all the preforms capped. This arrangement allows the use, for example, of a cylindrical coating cylinder and provides regions between the capped rods, which are empty of preform elements.
[000105] Figures 17A and 17B illustrate an exemplary 1700 contact fastening product, which can be manufactured using one or more of the techniques described. In particular, the contact fastening product 1700 is similar to the diagram shown in Figures 15A to 15D and 16, in which a field of fastening elements (in the form of capped preform structures) is supported on a flexible substrate. As in several other examples, the resin base layer and the preform structures are molded from a soft flexible resin, while the covers are relatively rigid. This configuration allows the flexibility of the support substrate to be maintained, without sacrificing fixation performance. Also illustrated in this example is the use of a colored additive in the roofing material, to provide a visual differentiation between the roofs and the molded rods.
[000106] Figures 18A and 18B illustrate exemplary male contact fastening elements, which can be manufactured using one or more of the techniques described above. In particular, Figure 18A shows a fastener element 1800a, which was formed according to the diagram shown in Figures 1A and 1B, in which the preform structure is a palm-shaped gain component and the rigid cover is located in a recess between the diverging heads of the preform. As shown, at least part of the heads, hooks and recessed tips of the preform structure are free of any covering material. Figure 18B, on the other hand, shows a fastener element 1800b, which is more similar to the diagram shown in Figure 7A, in which the rigid covering material covers, at least partially, the recessed tips of the heads of the preform structure in palm tree shape. With all other variables being constant, the fastener element 1800b will also exhibit greater resistance to detachment than the fastener element 1800a, due to the greater stiffness provided by the greater coverage. On the other hand, the fastening element 1800a should provide a feeling of greater compatibility with the skin, because the tips of the heads, which are formed of a particularly soft material, remain exposed for contact with the skin.
[000107] The contact fastening products described above can be used in various fastening applications. Figure 19 shows an example in which a 1900 contact fastener product is adapted for use in a conventional injection molding or foam molding application. As shown, the contact clamping product 1900 is inserted into a 1980 mold cavity and placed against the base of a 1982 groove. The capped clamping elements of the product are turned towards the base of the groove. The 1900 contact fastener product is held against the 1982 groove base by a built-in 1984 magnet, which attracts the contact fastener product. In this example, the covers of the fastening elements contain a substrate of magnetic attraction (for example, an iron powder), which causes the contact fastening product to be attracted by the magnet. In a particular example, the covers of the fastening elements are formed from a thermoplastic based resin, such as EVA, in which particles of iron have been suspended, so that the iron forms, for example, between 60 and 80 weight percent of the iron. cover material. This configuration is particularly cost-effective (for example, compared to other techniques in which the magnetic attraction material is incorporated with the product base), because the covers are closer to the magnet, thereby optimizing the attraction to the magnet at a relatively low material cost.
[000108] The use of terminology, such as "front", "rear", "top", "bottom", "over", "above" and "below" throughout the specification and in the claims, is for describe the relative positions of the various components of the system and other elements described in this specification. Similarly, the use of any horizontal or vertical terms to describe the elements is to describe the relative orientations of the various components of the system and other elements described in this specification. Unless explicitly stated otherwise, the use of this terminology does not imply a particular position or orientation of any component relative to the direction of the earth's gravitational force, or the earth's surface of the earth, or of any particular position or orientation than the system and other elements can be placed during operation, manufacture and transportation.
[000109] Various embodiments of the invention have been described. However, it must be understood that several modifications can be made without departing from the spirit and scope of the inventions.

权利要求:
Claims (13)
[0001]
1. Method of forming a contact fastening product (950, 1400, 1500, 1500 ', 1600, 1700, 1900), having a leaf-shaped base and an arrangement of different fastening elements, all extending from the base, the method comprising the step of: providing a sheet-shaped base (1444, 1544, 1644) and an array of preforms of distinct fastener elements (102, 202, 502, 602, 702a, 702b, 702c, 920, 1202 , 1302) of resin, each preform extending from the base and including both a stem part (106, 206, 506, 606, 706a, 706b, 706c, 1306) rising from the base and a head part (108 , 208, 508, 608, 708a, 708b, 708c, 1208, 1308), both contiguous with a distal end of the stem part and having an upper surface directed away from the base, the head part including at least one laterally directed extension of the stem. base, in a primary lateral direction between the exposed sides of the fastener element preform and ending at a free, distal end (112, 212, 512, 612); and characterized by the fact that it also comprises: forming the respective covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 704a, 704b, 704c, 1204, 1304), of a covering material of a larger module of flexing that the resin of the preforms, on the upper surfaces of at least some of the preforms of fastening elements, to form the different fastening elements (100, 200, 500, 600, 700a, 700b, 700c, 1200, 1700, 1800a, 1800b).
[0002]
2. Contact fastening product (950, 1400, 1500, 1500 ', 1600, 1700, 1900), which comprises: a leaf-shaped base (1444, 1544, 1644); and an arrangement of fastening elements (100, 200, 500, 600, 700a, 700b, 700c, 1200, 1700, 1800a, 1800b), each extending from the base, at least one of the fastening elements comprising: a fastener element preform (102, 202, 502, 602, 702a, 702b, 702c, 920, 1202, 1302) comprising both a stem part (106, 206, 506, 606, 706a, 706b, 706c, 1306) ascending from the base and a head part (108, 208, 508, 608, 708a, 708b, 708c, 1208, 1308), both contiguous with a distal end of the stem part and having an upper surface directed away from the base, the part head including at least one laterally directed extension projecting from the base in a primary lateral direction, between opposite sides of the fastener element preform, and ending at a free, distal tip (112, 212, 512, 612); and characterized by the fact that at least one fastener element still comprises a cover (104, 104a, 104b, 104c, 104d, 204, 504, 604, 704a, 704b, 704c, 1204, 1304) formed on an upper surface of the pre- fastener element form, the cover being composed of a material, which is more rigid than a material of which the fastener element preform is composed.
[0003]
3. Method according to claim 1, or product according to claim 2, characterized by the fact that the head part (108, 208, 508, 608, 708a, 708b, 708c, 1208, 1308) of each fastener element preform (102, 602, 702a, 702b, 702c, 920, 1202, 1302) has two extensions directed in opposite directions projecting separately from the base and ending at the respective distal ends.
[0004]
4. Method or product according to any one of the preceding claims, characterized in that the covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 1204) are formed so that the tips (112 , 212, 512, 612) of the head parts (108, 208, 508, 608, 1208) of the different preform elements (102, 202, 502, 602, 1202) remain free of the covering material.
[0005]
5. Method or product according to any one of the preceding claims, characterized by the fact that the covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 1204) are formed so that the regions of the surfaces upper parts of the head parts (108, 208, 508, 608, 1208) of the preforming fastener elements, adjacent to the tips (112, 212, 512, 612), remain free of the covering material, and / or so that the lower sides of the extensions of the head parts remain free of the covering material, and / or so that the stem parts (106, 206, 506, 606) of the preforming fastening elements remain free of the covering material.
[0006]
6. Method or product according to any one of the preceding claims, characterized by the fact that the covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 704a, 704b, 704c, 1204, 1304) are formed so that they extend laterally beyond the exposed sides of the fastener element preforms (102, 502, 602, 702a, 702b, 702c, 1202, 1302) and / or laterally beyond the upper surfaces of the fastener element preforms ( 102, 502, 602, 702a, 702b, 702c, 1202, 1302), to protrude from the base (1444, 1544, 1644).
[0007]
7. Method or product according to any one of the preceding claims, characterized by the fact that the upper surface of each head part (108, 708a, 1208, 1308) defines a central recess (114) connected to two opposite sides by the surface upper and laterally open at the sides of the fastener element preform (102, 702a, 1202, 1302), and where the covers (104, 104a, 104b, 104c, 104d, 704a, 1204, 1304) are formed to fill the central recesses.
[0008]
8. Method or product according to claim 6, characterized by the fact that the covers (104, 104a, 104b, 104c, 104d, 1204, 1304) are formed to have convex upper surfaces arranged over the recesses (114 ).
[0009]
9. Method or product according to any one of the preceding claims, characterized by the fact that the covers (104, 104a, 104b, 204, 504, 604, 704a, 704b, 704c, 1204, 1304), as formed, if extend further from the base (1444, 1544, 1644) than the upper surfaces of the preforming fastener elements.
[0010]
10. Method according to any one of the preceding claims, characterized by the fact that forming the covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 704a, 704b, 704c, 1204, 1304) comprises contacting the upper surfaces of the fastener element preforms (102, 202, 502, 602, 702a, 702b, 702c, 920, 1202, 1302) with a quantity of liquid covering material, conducted in a source of covering material (922 , 1206, 1126), and then removing the preforms of fastening elements from the source of covering material, whereby a part of the amount of covering material is removed from the source of covering material and remains in the element preform. fastener.
[0011]
11. Method according to claim 10, characterized by the fact that forming the covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 704a, 704b, 704c, 1204, 1304) further comprises allowing the roofing material forms a freely exposed roofing surface in the preforms of fastening elements (102, 202, 502, 602, 702a, 702b, 702c, 920, 1202, 1302), before solidification.
[0012]
12. Method according to claim 10 or 11, characterized by the fact that the source of cover material comprises an external surface of a rotating drum (922), in which to form the covers (104, 104a, 104b, 104c, 104d, 204, 504, 604, 704a, 704b, 704c, 1204, 1304) comprises passing the preforms of fastening elements (102, 202, 502, 602, 702a, 702b, 702c, 920, 1202, 1302) adjacent to the outer surface of the drum, so that the covering material, conducted on the outer surfaces, contacts the upper surfaces of the preforming fastener elements.
[0013]
13. Method according to any one of the preceding claims, characterized by the fact that it provides the molded sheet-shaped base (1444, 1544, 1644) and the arrangement of preforms of different fastening elements (102, 202, 502 , 602, 702a, 702b, 702c, 920, 1202) comprises continuously shaping the sheet-shaped base and the arrangement of preforms of fastening elements other than a contiguous resin stream.

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同族专利:

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公开号 | 公开日

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WO2014060368A2|2014-04-24|

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BR112015008344A2|2017-07-04|

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CN104853637B|2018-04-20|

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CN104853637A|2015-08-19|

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US9210970B2|2015-12-15|

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WO2014060368A3|2014-07-10|

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EP2906070A2|2015-08-19|

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EP2906070B1|2016-06-29|

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US20140103567A1|2014-04-17|

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法律状态:
2018-03-27| B25A| Requested transfer of rights approved|Owner name: VELCRO BVBA (BE) |

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2018-11-21| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

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2019-12-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

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2021-02-09| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

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2021-04-27| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 14/10/2013, OBSERVADAS AS CONDICOES LEGAIS. |

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2021-06-08| B25A| Requested transfer of rights approved|Owner name: VELCRO IP HOLDINGS LLC (US) |

优先权:

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申请号 | 申请日 | 专利标题

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US201261713962P| true| 2012-10-15|2012-10-15|

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US61/713,962|2012-10-15|

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PCT/EP2013/071450|WO2014060368A2|2012-10-15|2013-10-14|Touch fastening|

---