Patent application number | Description | Published |
20110184356 | BIOMOLECULAR WEARABLE APPARATUS - This invention relates to an apparatus that regulates thermodynamic energy-flow within a human body for producing beneficial effects such as, for example, improvement in strength, improvement in stamina, pain relief, etc. According to one embodiment, the invention provides a wearable apparatus that may include biomolecular components for building-up of a thermomagnetic energy within the human body. According to another embodiment, the invention provides a wearable apparatus that may include biomolecular components for dilution of a thermomagnetic energy within the human body. According to yet another embodiment, the invention provides a wearable apparatus that may include biomolecular components having orthomolecular and/or non-orthomolecular organic materials which are capable of thermomagnetic levororotary action and/or thermomagnetic dextrorotatory action. | 07-28-2011 |
20140276480 | BIOMOLECULAR WEARABLE APPARATUS - This invention relates to an apparatus that regulates thermodynamic energy-flow within a human body for producing beneficial effects such as, for example, improvement in strength, improvement in stamina, pain relief, etc. According to one embodiment, the invention provides a wearable apparatus that may include biomolecular components for building-up of a thermomagnetic energy within the human body. According to another embodiment, the invention provides a wearable apparatus that may include biomolecular components for dilution of a thermomagnetic energy within the human body. According to yet another embodiment, the invention provides a wearable apparatus that may include biomolecular components having orthomolecular and/or non-orthomolecular organic materials which are capable of thermomagnetic levororotary action and/or thermomagnetic dextrorotatory action. | 09-18-2014 |
Patent application number | Description | Published |
20090233049 | Coform Nonwoven Web Formed from Propylene/Alpha-Olefin Meltblown Fibers - A coform nonwoven web that contains a matrix of meltblown fibers and an absorbent material is provided. The meltblown fibers are formed from a thermoplastic composition that contains at least one propylene/α-olefin copolymer of a certain monomer content, density, melt flow rate, etc. The selection of a specific type of propylene/α-olefin copolymer provides the resulting composition with improved thermal properties for forming a coform web. For example, the thermoplastic composition crystallizes at a relatively slow rate, thereby allowing the fibers to remain slightly tacky during formation. This tackiness may provide a variety of benefits, such as enhancing the ability of the meltblown fibers to adhere to the absorbent material during formation of the coform web. In certain embodiments, the coform web may also be imparted with texture using a three-dimensional forming surface. In such embodiments, the slow crystallization rate of the meltblown fibers may increase their ability to conform to the contours of the three-dimensional forming surface. Once the fibers crystallize, however, the meltblown fibers may achieve a degree of stiffness similar to conventional polypropylene, thereby allowing them to retain their three-dimensional shape and form a highly textured surface on the coform web. | 09-17-2009 |
20090286437 | WIPES WITH RUPTURABLE BEADS - The present disclosure generally relates to wipes comprising a fibrous sheet material and beads embedded within the interior of the fibrous sheet material. The beads comprise an active agent and an encapsulation material that surrounds the active agent. The beads are incorporated into the fibrous sheet material as dehydrated beads. Upon hydration of the beads, such as by contact of the wipe with an aqueous solution, such as water or a wetting solution, the dehydrated beads gradually hydrate, becoming soft and rupturable. Also disclosed are methods for producing the wipes. | 11-19-2009 |
20100203291 | TREATED NONWOVEN WEBS CONTAINING SYNTHETIC AND PULP FIBERS - Sheet-like products are disclosed containing an additive composition that enhances various properties of the product. The additive composition, for instance, comprises an aqueous dispersion containing an alpha-olefin polymer, an ethylene-carboxylic acid copolymer, or mixtures thereof. The alpha-olefin polymer may comprise an interpolymer of ethylene and octene, while the ethylene-carboxylic acid copolymer may comprise ethylene-acrylic acid copolymer. The additive composition may also contain a dispersing agent, such as a fatty acid. In one embodiment, the sheet-like product comprises a coform web containing synthetic fibers and pulp fibers. | 08-12-2010 |
20110151196 | Flexible Coform Nonwoven Web - A flexible coform nonwoven web that contains a matrix of meltblown fibers and an absorbent material is provided. The meltblown fibers may constitute from about 2 wt % to about 40 wt % of the coform web. The absorbent material may constitute from about 60 wt % to about 98 wt % of the coform web. The Cup Crush Energy/Thickness ratio of the nonwoven structure is desirably less than about 600. The coform web may be imparted with a three-dimensional texture by, for example, using a three-dimensional forming surface. The coform web is suitable for forming absorbent articles such as wipers and personal care absorbent products. | 06-23-2011 |
20120066855 | COFORM NONWOVEN WEB HAVING MULTIPLE TEXTURES - A textured coform nonwoven web is provided that includes a matrix of meltblown fibers and an absorbent material. The coform nonwoven web is textured in that it includes first offsets that extend from the coform web. Further, the first offsets are themselves textured in that upper surfaces of the first offsets include a foundation texture. A continuous region from which the offsets extend further includes a secondary texture that may or may not be different from the foundation texture. The offsets may further include side walls that include a side wall texture. The side wall texture may or may not be different than both the foundation texture and the secondary texture. | 03-22-2012 |
20120171919 | COFORM NONWOVEN WEB FORMED FROM MELTBLOWN FIBERS INCLUDING PROPYLENE/ALPHA-OLEFIN - A coform nonwoven web that contains a matrix of meltblown fibers and an absorbent material is provided. The meltblown fibers are formed from a thermoplastic composition that contains at least one propylene/α-olefin copolymer of a certain monomer content, density, melt flow rate, etc. The selection of a specific type of propylene/α-olefin copolymer provides the resulting composition with improved thermal properties for forming a coform web. For example, the thermoplastic composition crystallizes at a relatively slow rate, thereby allowing the fibers to remain slightly tacky during formation. This tackiness may provide a variety of benefits, such as enhancing the ability of the meltblown fibers to adhere to the absorbent material during formation of the coform web. In certain embodiments, the coform web may also be imparted with texture using a three-dimensional forming surface. In such embodiments, the slow crystallization rate of the meltblown fibers may increase their ability to conform to the contours of the three-dimensional forming surface. Once the fibers crystallize, however, the meltblown fibers may achieve a degree of stiffness similar to conventional polypropylene, thereby allowing them to retain their three-dimensional shape and form a highly textured surface on the coform web. | 07-05-2012 |
20130309439 | Fibrous Nonwoven Web with Uniform, Directionally-Oriented Projections and a Process and Apparatus for Making the Same - A process and apparatus is used for making a fibrous nonwoven web with uniform, directionally-oriented projections by depositing fibrous material onto a first forming surface with holes positioned above a second forming surface with both forming surfaces traveling at different speeds to one another. As the fibers are deposited onto the first forming surface, a portion of the fibers are drawn down into the holes of the first forming surface forming the projections which contact the second forming surface. Due to the speed differential between the two forming surfaces the projections are uniformly skewed in the same direction. The resultant material is particularly suited for use as a wiping material which can be more abrasive in one direction but which is softer to the touch when wiped in the opposite direction thus making it a dual purpose material. | 11-21-2013 |
20140323966 | GASTRIC JEJUNAL TUBE WITH AN ENLARGED JEJUNAL LUMEN - The present disclosure describes a gastric jejunal tube having a gastric lumen and a jejunal lumen that run the length of the tube. The cross-sectional sizes of the lumens change from above to below the most distal gastric port. A method of making the gastric jejunal tube is also described. | 10-30-2014 |
Patent application number | Description | Published |
20090207603 | Retrofit Light Assembly - Retrofit systems for replacing the outdated components of an existing light fixture. The retrofit systems may utilize the previously installed housing of the existing light fixture. The retrofit systems include brackets that are positioned on the ends of the housing. The positioning of the brackets is based off of the ceiling, t-grid, or the bottom of the housing. Lamp sockets with associated lamps, an optional ballast tray with associated ballast, reflector(s), lamps, and a shielding mechanism are all mounted on, and their position in the housing dictated by, the mounting brackets. Thus, regardless of the depth of the housing, the lamps are positioned a uniform distance from the ceiling opening to create consistent light distribution. Moreover, because these components are not directly attached to the housing, their dimensions need not precisely match those of the housing. Rather, the retrofit system can be installed in housings of varying sizes and shapes. | 08-20-2009 |
20090244908 | Louver for Light Assembly - A louver to distribute light emitted by a light fixture. A frame is formed integrally with the exterior housing of the louver. The integral frame eliminates the need for a separate louver door frame which has traditionally been used to mount a louver within a light fixture. The exterior housing may be formed from end blades and side stringers. A flange may provide additional support for the integral frame of the louver. Mounting means may be positioned and oriented on the end blades of the exterior of the housing. The mounting means may include hinges that interact with the light fixture housing or other mounting apparatuses. Additional securing means may be associated with the end blades of the louver for securing the louver in the proper orientation relative to the light fixture housing. | 10-01-2009 |
20090244912 | Mounting System - A mounting system for a member to a support structure. The member includes ends and sides. A hinge may be attached to one of the ends of the member. Hinges may be attached to both ends along the same side of the member. The hinge may include an arm from which a tab extends. The ends may include securing means. The support structure includes a mounting aperture that is configured to interact with the hinge of the member. In some embodiments, the support structure may have multiple mounting apertures. The mounting aperture is configured to prevent the hinge of the member from disengaging from the support structure. In some embodiments, the mounting aperture is configured to pivotally retain the hinge of the member. | 10-01-2009 |
20100309658 | Strip Lighting Fixture - Embodiments of the invention provide strip lighting fixtures, where the strip fixture includes a channel defined by a base plate and two side walls, end plates located at each end of the channel, and a channel cover that snap-fits onto the channel. In one embodiment, the channel side walls include at least one gripper indentation that releasably engages with at least one tong hanger hook via a snap-fit connection to attach the strip fixture to a support structure. In some embodiments, tong hangers include hooker clips that connect the tong hanger to a support structure. In some embodiments, the channel cover is contoured to provide additional spacing or relief areas to avoid pinched wires when the channel cover is connected to the channel. A lamp reflector may be used in conjunction with, or in place of, the channel cover. In some embodiments, multiple strip fixtures may be secured end-to-end by removing an end plate from one end of each strip fixture and positioning the open ends of each strip fixture adjacent one another to form a seam. A channel aligner may then be used to span the seam and connect the adjacent open ends of the two strip fixtures via base plate and side wall connections for additional lateral stability. | 12-09-2010 |