Patent application number | Description | Published |
20080264661 | Dual-character shock isolation structure and methodology - Dual-character shock-isolation structure, and associated methodology, for minimizing the transmission of shock through a connective interface existing between a pair of interconnected structures, such as between the handle of an impact-delivering tool and a user's hand and arm. The proposed structure includes kinetic-energy-to-heat cushioning structure, and twin-layer, facially releasably, interengaged shear-lock structure operatively joined to, and positioned in shock-transmission series with, the cushioning structure. | 10-30-2008 |
20090031481 | Protective helmet pad interface structure - A shock-absorbing, protective interface pad structure usable between the shell of a helmet and the head of a helmet wearer including (a) an acceleration-rate-sensitive, viscoelastic core structure made of a product having substantially the same characteristics as at least one of Confor CF-42 or Confor CF-45 manufactured by EAR Specialty Composites in Indianapolis, Ind., and (b) a water-moisture-blocking, bidirectionally gas-permeable barrier layer spray-applied to and fully enclosing the core structure, made of the a product having substantially the same characteristics as the product manufactured, and designated V-2000, by Russell Products Company, Inc. in Akron, Ohio. | 02-05-2009 |
20100083423 | Helmet liner with improved, seam-position-enhanced, rear-sector load management - A cushioning and head-protecting liner insert for the inside of the shell in a helmet includes fore and aft cushioning elements each formed of an expanse of a non-springy, acceleration-rate-sensitive, viscoelastic material, with each element possessing, throughout, a uniform thickness which is the same as that possessed by the other element, and with the two elements having edges which are disposed edge-to-edge, but slightly spaced, adjacent one another along a single, continuous, arcuate, reverse-bend line which sweeps from one lateral side of the rear of the insert, at a location spaced laterally from the insert's fore-and-aft extending, laterally central plane, through and over the crown of the insert, to a mirror-image, spaced location on the opposite lateral side of the rear of the insert. | 04-08-2010 |
20100108234 | Dual-character shock isolation methodology - A shock-mitigating method which is practiceable in a connective interface existing between a pair of interconnected structures, wherein the fundamental practice steps include (a) on one side of that interface, engaging any shock-transmission event with a cushioning material which is characterized by kinetic-energy-to-heat conversion behavior, and (b), on the other side of the interface, engaging such an event with a material which is in shock communication with the cushioning material, and which is characterized by shear-lock behavior. | 05-06-2010 |
20100186172 | Anatomical, pressure-evenizing mattress overlay - A method and structure for furnishing pressure-evenized, dynamic-reaction anatomical support. The method includes (a) supporting the anatomy with a 100% open cell viscoelastic foam, and (b) thereafter, and within the foam, reacting to both static and dynamic, anatomically-produced foam indentations to expand and contract cell-openness size, whereby deeper/sharper indentations result in greater-size cell-openness. Such reacting includes laterally stretching and flowing regions of the foam adjacent such an indentation The overlay structure features (1) a dynamic-response core expanse formed of a 100% open-cell, compressible and flowable, polyurethane, viscoelastic foam possessing a compressed, relaxed-state volume and (2) an elastomeric, moisture-resistant coating, load-transmissively, interfacially bonded to the entirety of the outside surface of the core expanse to function as a dynamically-responsive unit with the expanse. The coating possesses a relaxed-state prestressed tension condition which is responsible for the expanse's compressed condition. | 07-29-2010 |
20100191163 | Dynamic-response, anatomical bandaging system and methodology - A dynamic-response anatomical bandaging system and methodology utilizing a limb-wrappable, layered, dynamic-response, bandaging expanse which includes a dynamic-response, pressure-applying layer displaying a compressive-load versus compression-deflection behavior which is characterized by a curve having a substantially linear region in which a major change in compression deflection relates to an anatomically insignificant change in compressive load. The system and methodology also feature, relative to use of the bandaging expanse, freely attachable and detachable, dynamic-response (a) splinting structure, and (b) expanse-edge-overlap wrap-closure tensioning structure. | 07-29-2010 |
20100192306 | Anatomical, pressure-evenizing mattress overlay and associated methodology - A method and structure for furnishing pressure-evenized, dynamic-reaction anatomical support. The method includes (a) supporting the anatomy with a 100% open cell viscoelastic foam, and (b) within the foam, reacting to both static and dynamic, anatomically-produced foam indentations to expand and contract cell-openness size, whereby deeper/sharper indentations result in greater-size cell-openness. Such reacting includes laterally stretching and flowing regions of the foam adjacent such an indentation The overlay structure features (1) a dynamic-response core expanse formed of a 100% open-cell, compressible and flowable, polyurethane, viscoelastic foam possessing a compressed, relaxed-state volume, and (2) an elastomeric, moisture- and gas-flow-managing coating, load-transmissively, bonded to the entirety of the core expanse's outside surface to function as a dynamically-responsive unit with the expanse. The coating possesses a relaxed-state, prestressed tension condition which is responsible for the expanse's compressed condition. | 08-05-2010 |
20110072589 | ANATOMICAL, PRESSURE-EVENIZING MATTRESS OVERLAY WITH PRESTRESSED CORE, AND BAFFLED, LATERAL-EDGE CORE RESPIRATION - An anatomical pressure-evenizing mattress overlay including a dynamic-response core having spaced, upper and lower, surfaces and an intermediate, perimetral edge. The core is formed including a 100% open-cell, compressible and flowable, viscoelastic foam expanse, and possesses a relaxed-state volume which resides in about an 8-10% nominally compressed condition. Load-transmissively bonded to the entire outside of the core, so as to function as a dynamically-responsive unit with it, and possessing a relaxed-state, internal, prestressed, tension condition, is an elastomeric, moisture- and gas-flow-managing coating, including fluid-flow-controlling, baffled, respiration window structure which exposes a portion of the core's edge to accommodate respiration of and for the interior of the core. | 03-31-2011 |
20130237890 | MIGRAINE HEADACHE MITIGATION - Apparatuses for reducing migraine headache pain comprising head-contacting expanses of compressible material having pressure-versus-deflection characteristics possessing plateau conditions defined by ranges of compressive material deflections associated throughout with substantially constant material compression produced by an applied, material-compressing pressure which is slightly less than that pressure which, when applied to the anatomy, occludes anatomical, venous-return blood flow, and shells substantially surrounding, and contacting, the compressible-material expanses, appropriately sized, and operable, with the apparatuses in place on a wearers' heads, to place the compressible material in the expanse in its characteristic “plateau” condition of compression, wherein such compression, at every location, is a non-adjustable value dependent entirely upon the fit-spacing at that location between a wearer's head and the inside of the shell. This disclosure additionally or alternatively discusses methods of reducing migraine headache pain by fitting apparatuses to wearers' heads for appropriate time expanses and other methods of reducing migraine pain. | 09-12-2013 |