Touch fastener products (10) are made by distributing a multiplicity of discrete fastening bits (14, 14a, 14b) over a support surface (12) and fixing the distributed bits (14, 14a, 14b) to the support surface (12), such as by an adhesive (32). Each bit (14, 14a, 14b) has opposite side surfaces (24,
Touch fastener products (10) are made by distributing a multiplicity of discrete fastening bits (14, 14a, 14b) over a support surface (12) and fixing the distributed bits (14, 14a, 14b) to the support surface (12), such as by an adhesive (32). Each bit (14, 14a, 14b) has opposite side surfaces (24, 24b, 26, 26b) forming boundaries of surfaces defining projections (16) extending in different directions from the fastening bits (14, 14a, 14b), at least one of the opposite side surfaces (24, 24b, 26, 26b) being non-planar, and each projection (16) has an overhanging head (18). As fixed, each bit (14, 14a, 14b) is oriented with at least one of its projection heads (18) raised from the support surface (12) to releasably engage fibers (30). Bits (14, 14a, 14b) are made by pelletizing shaped rails (36). Applications include securing floor coverings (150).
대표청구항▼
1. A method of making a touch fastener product, the method comprising distributing a multiplicity of discrete fastening bits over a support surface, each bit having opposite side surfaces forming boundaries of surfaces defining projections extending in different directions from the fastening bits, a
1. A method of making a touch fastener product, the method comprising distributing a multiplicity of discrete fastening bits over a support surface, each bit having opposite side surfaces forming boundaries of surfaces defining projections extending in different directions from the fastening bits, at least one of the opposite side surfaces being non-planar, and each projection having an overhanging head; andfixing the distributed bits to the support surface, at least some of the fixed bits each supported on at least two of its projection heads adhered to the support surface and spaced laterally across the support surface, and with another of its projection heads raised from the support surface to releasably engage fibers. 2. The method of claim 1, wherein distributing the bits causes them to orient with at least one projection head raised from the support surface. 3. The method of claim 1, wherein distributing the bits comprises distributing a liquid onto the support surface, the liquid containing the bits in suspension. 4. The method of claim 1, wherein distributing the bits comprises distributing the bits in a foam carrier that collapses on the support surface. 5. The method of claim 1, wherein the support surface comprises both adhesive regions and non-adhesive regions, and wherein distributing the bits comprises: distributing the bits over both the adhesive and non-adhesive regions; and thenremoving distributed bits from the non-adhesive regions. 6. The method of claim 1, wherein fixing the distributed bits comprises heating the bits to cause a portion of each bit to melt and bond to the support surface. 7. The method of claim 1, wherein the bits are porous and fixing the distributed bits involves adhesive being drawn from the surface into pores of the bits. 8. The method of claim 1, wherein both of the opposite sides are non-planar. 9. A method of making a fastening bit, the method comprising cutting completely through a longitudinal rail defining a longitudinal axis and having multiple ribs defining undercuts and extending in different directions, the cutting occurring at discrete intervals along the longitudinal axis of the rail to form discrete and separate fastening bits, the cutting forming opposite side surfaces of each bit, at least one of which opposite side surfaces is non-planar, such that each bit is in the form of a solid body defined between the opposite side surfaces, each side surface bounded by a respective peripheral edge of the bit, the bit having a peripheral surface extending between the peripheral edges and defining projections extending in different directions, each projection having an overhanging head defining a crook for engaging fibers and at least one of the opposite side surfaces being non-planar; andcollecting the fastening bits. 10. The method of claim 9, wherein cutting through the rail comprises moving a cutter along a substantially linear path through the rail. 11. The method of claim 9, wherein the cutter is mounted at an outer edge of a wheel and moves along a circular path that has a radius at least 40 times a distance that the cutter cuts through the rail. 12. The method of claim 9, wherein cutting through the rail causes material being severed from the rail to curl away from the cutter to form a non-planar one of the opposite side surfaces of one of the fastening bits. 13. The method of claim 9, wherein each cut through the rail forms a similar cut shape, such that both of the opposing side surfaces are non-planar and of complementary topography. 14. A fastening bit in the form of a solid body defined between two opposite side surfaces each side surface bounded by a respective peripheral edge of the bit, the bit having a peripheral surface extending between the peripheral edges and defining projections extending in different directions, each projection having an overhanging head defining a crook for engaging fibers and at least one of the opposite side surfaces being non-planar. 15. The bit of claim 14, wherein the bit has an overall thickness, measured between the side surfaces, that is less than a maximum overall linear dimension of the bit. 16. A touch fastener product comprising a support surface; anda multiplicity of the fastening bits of claim 14 dispersed across and fixed to the support surface in various orientations;wherein each fixed bit is oriented with at least one of its projections extending away from the support surface for releasable engagement of fibers. 17. A container of bits, the container comprising: a housing defining an interior volume; anda bulk quantity of the fastening bits of claim 14 contained within the volume. 18. The container of claim 17, wherein the bits are loosely disposed within the volume. 19. A method of installing a floor covering, the method comprising distributing a multiplicity of the fastening bits of claim 14 over a floor;fixing the distributed bits to the floor with adhesive, with each bit oriented with at least one of its projection heads raised from the floor to releasably engage fibers; andplacing a floor covering over the floor, the floor covering having exposed fibers on a surface of the floor covering facing the floor, such that the fixed bits engage and retain the exposed fibers of the floor covering to releasably secure the floor covering to the floor. 20. The method of claim 1, wherein as fixed to the support surface, each bit is oriented with at least one projection head extending away from the support surface. 21. The method of claim 8, wherein the opposite sides are of complementary topography. 22. The method of claim 10, wherein the cutter comprises a solid cutting edge that forms an acute cutting angle. 23. The hit of claim 14, wherein both of the opposite side surfaces are non-planar. 24. The bit of claim 14, wherein both of the opposite side surfaces are of complementary topography. 25. The bit of claim 14, wherein the projections extend in more than two different directions. 26. The bit of claim 14, wherein all linear dimensions of the bit are less than about 1.2 millimeters. 27. The container of claim 17, wherein the bits are suspended in a flowable carrier. 28. The container of claim 17, wherein the bits are of an average bit size of less than three millimeters across. 29. A method of making a touch fastener product, the method comprising distributing a multiplicity of discrete fastening bits over a support surface, each bit having opposite side surfaces forming boundaries of surfaces defining projections extending in different directions from the fastening bits, at least one of the opposite side surfaces being non-planar, and each projection having an overhanging head; andfixing the distributed bits to the support surface, with each bit oriented with at least one of its projection heads raised from the support surface to releasably engage fibers;wherein distributing the bits comprises distributing a liquid onto the support surface, the liquid containing the bits in suspension. 30. A method of making a touch fastener product, the method comprising distributing a multiplicity of discrete fastening bits over a support surface, each bit having opposite side surfaces forming boundaries of surfaces defining projections extending in different directions from the fastening bits, at least one of the opposite side surfaces being non-planar, and each projection having an overhanging head; andfixing the distributed bits to the support surface, with each bit oriented with at least one of its projection heads raised from the support surface to releasably engage fibers;wherein distributing the bits comprises distributing the bits in a foam carrier that collapses on the support surface. 31. A method of making a touch fastener product, the method comprising distributing a multiplicity of discrete fastening bits over a support surface, each bit having opposite side surfaces forming boundaries of surfaces defining projections extending in different directions from the fastening bits, at least one of the opposite side surfaces being non-planar, and each projection having an overhanging head; andfixing the distributed bits to the support surface, with each bit oriented with at least one of its projection heads raised from the support surface to releasably engage fibers;wherein the support surface comprises both adhesive regions and non-adhesive regions, and wherein distributing the bits comprises: distributing the bits over both the adhesive and non-adhesive regions; and thenremoving distributed bits from the non-adhesive regions. 32. A method of making a touch fastener product, the method comprising distributing a multiplicity of discrete fastening bits over a support surface, each bit having opposite side surfaces forming boundaries of surfaces defining projections extending in different directions from the fastening bits, at least one of the opposite side surfaces being non-planar, and each projection having an overhanging head; andfixing the distributed bits to the support surface, with each bit oriented with at least one of its projection heads raised from the support surface to releasably engage fibers;wherein the bits are porous and fixing the distributed bits involves adhesive being drawn from the surface into pores of the bits.
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이 특허에 인용된 특허 (14)
Stern,Donald J.; Tryon,James A., Aerosol assemblies for spray texturing.
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