Patent application number | Description | Published |
20080257341 | Nasal dilator with means to direct resilient properties - A nasal dilator comprises a laminate of vertical layers each consisting of one or more members or components. The laminated layers form a unitary, or single body, truss featuring horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. When in use the dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. The dilator includes means to direct its resilient properties comprising one or more interior or exterior material separations, or discontinuity of shape of material, formed in at least one region of the truss and extending through at least one layer of the dilator. Said material separation or discontinuity of shape may comprise an opening, relief cut, slit or notch, and which may be configured to separate or vertically protrude, in part, from the truss when the dilator is in use on the nose of a wearer. Said separation or vertical protrusion changes the angle of focused delaminating spring biasing forces generated by the resilient layer, transforming said forces, at least in part, from primarily peel forces into primarily shear forces, and further redistributing or imparting said transformed forces to tissue engaging surface areas extending outward and beyond said material separation. | 10-23-2008 |
20110093004 | Nasal Dilator and Methods of Fabricating Medical Devices - Methods are disclosed for converting on a mass scale elongated material webs into finished parts or devices. Slits form strands in a web, the strands comprising interconnected objects which correspond to parts of finished devices. Strands are combined with additional webs to form a material laminate from which finished devices are die cut. The methods are suitable for a range of converting applications including medical devices, particularly the external nasal dilator. Complex dilator devices produced from the methods are formed as a single body truss having horizontal regions adapted to engage outer wall tissues of first and second nasal passages of a nose. When in use the dilator stabilizes or expands nasal outer wall tissues and prevents the outer wall tissues from drawing inward during breathing. Methods of manufacture comprise separate steps for fabricating and assembling the elements and layers of finished dilator devices and for packaging finished devices individually or in groups. Waste material is incorporated into subsequent fabrication processes to produce the same or complementary devices. | 04-21-2011 |
20130104882 | Overlapping Resilient Member Structures in Nasal Dilator Devices | 05-02-2013 |
20150012035 | Nasal Dilator and Method of Manufacture - A nasal dilator comprises a laminate of vertically stacked layers forming a unitary, or single body, truss where each layer includes at least one member. The truss features horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. When in use the dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. Manufacturing methods produce dilator layers and/or finished nasal dilator devices efficiently at the same or lower cost as traditional methods by fabricating dilator elements in whole or part along common lines or edges. Said common lines define peripheral dimensions and form spaced apart relationships between dilator layers, members and finished dilator devices without sacrificing usable material to do so. Manufacturing steps include cutting through a fabrication laminate along lines defining at least portions of one or more layers, members, and the truss's peripheral edges. Manufacturing methods further maximize material usage by incorporating waste material into a subsequent fabrication process. Dilator embodiments further include means for providing disparate dilating force to opposing nasal passages, and means for incorporating promotional printing into the dilator fabrication process. | 01-08-2015 |
20150090398 | Economical Nasal Dilator and Method of Manufacture - A nasal dilator comprises a laminate of vertically stacked layers each comprising at least one member or component. The layers form a unitary, or single body, truss. The truss features horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. The dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. Dilator members, including components thereof, are configured to dimensional criteria suitable to engage and provide effective dilation to nasal passages, that create lateral and longitudinal registration of dilator members or components during manufacture, and that facilitate manufacture with minimal material waste. Methods of manufacture further include progressive steps that fabricate and assemble components into finished devices, including user assembly thereof. Embodiments further include a user-adjustable truss length, a truss which features a resilient member with divergent extensions and/or enlarged terminal ends, and a plurality of resilient members joined together at their end portions. | 04-02-2015 |
20150090399 | Economical Nasal Dilator and Method of Manufacture - A nasal dilator comprises a laminate of vertically stacked layers each comprising at least one member or component. The layers form a unitary, or single body, truss. The truss features horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. The dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. Dilator members, including components thereof, are configured to dimensional criteria suitable to engage and provide effective dilation to nasal passages, that create lateral and longitudinal registration of dilator members or components during manufacture, and that facilitate manufacture with minimal material waste. Methods of manufacture further include progressive steps that fabricate and assemble components into finished devices, including user assembly thereof. Embodiments further include a user-adjustable truss length, a truss which features a resilient member with divergent extensions and/or enlarged terminal ends, and a plurality of resilient members joined together at their end portions. | 04-02-2015 |
20150094757 | Economical Nasal Dilator and Method of Manufacture - A nasal dilator comprises a laminate of vertically stacked layers each comprising at least one member or component. The layers form a unitary, or single body, truss. The truss features horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. The dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. Dilator members, including components thereof, are configured to dimensional criteria suitable to engage and provide effective dilation to nasal passages, that create lateral and longitudinal registration of dilator members or components during manufacture, and that facilitate manufacture with minimal material waste. Methods of manufacture further include progressive steps that fabricate and assemble components into finished devices, including user assembly thereof. Embodiments further include a user-adjustable truss length, a truss which features a resilient member with divergent extensions and/or enlarged terminal ends, and a plurality of resilient members joined together at their end portions. | 04-02-2015 |
20150094758 | Economical Nasal Dilator and Method of Manufacture - A nasal dilator comprises a laminate of vertically stacked layers each comprising at least one member or component. The layers form a unitary, or single body, truss. The truss features horizontal regions adapted to engage outer wall tissues of first and second nasal passages and to traverse the bridge of a nose therebetween. The dilator acts to stabilize and/or expand the nasal outer wall tissues and prevent said tissues from drawing inward during breathing. Dilator members, including components thereof, are configured to dimensional criteria suitable to engage and provide effective dilation to nasal passages, that create lateral and longitudinal registration of dilator members or components during manufacture, and that facilitate manufacture with minimal material waste. Methods of manufacture further include progressive steps that fabricate and assemble components into finished devices, including user assembly thereof. Embodiments further include a user-adjustable truss length, a truss which features a resilient member with divergent extensions and/or enlarged terminal ends, and a plurality of resilient members joined together at their end portions. | 04-02-2015 |