Patent application number | Description | Published |
20130263356 | FLEXIBLE SUPPORTED GLOVE STRUCTURES - Glove structures may include front and back portions. A knuckle support assembly may be attached to the back portion. The knuckle support assembly may include a knuckle support member having at least one cutout coincident with at least one metacarpalphalangeal joint and a flexible member extending across the at least one cutout. The knuckle support member may have a greater flexural stiffness than the back portion. The material of the knuckle support member may be more elastically stretchable than the material of the back portion. The material of the flexible member may be more elastically stretchable than the material of the back portion. The knuckle support member may be molded to the flexible member. Alternatively, the knuckle support member and the flexible member may be fuse bonded to one another. Methods for making such glove structures are also provided. | 10-10-2013 |
20130276205 | Securing Systems for Gloves or Other Objects - Apparel, sporting equipment, and other items include magnetic securing systems (e.g., for holding a ball marker on a golf glove. Housings for such systems include a mount area defining a base surface that includes a magnet or is made from a magnetic material. At least two retaining walls extend from the mount area and together with the base surface define a receptacle for receiving another component (e.g., a golf ball marker) to be held by magnetic force. In such housings, a combined total perimeter length of interior surfaces of the retaining walls around the receptacle may be less than 50% of a total length around the perimeter of the component being held. | 10-24-2013 |
20130276206 | Securing Systems for Gloves or Other Objects - Apparel, sporting equipment, and other items include magnetic securing systems (e.g., for holding a ball marker on a golf glove. Housings for such systems include a mount area defining a base surface that includes a magnet or is made from a magnetic material. At least two retaining walls extend from the mount area and together with the base surface define a receptacle for receiving another component (e.g., a golf ball marker) to be held by magnetic force. In such housings, a combined total perimeter length of interior surfaces of the retaining walls around the receptacle may be less than 50% of a total length around the perimeter of the component being held. | 10-24-2013 |
20130276207 | Lightweight and Breathable Glove Structures - Gloves, including athletic gloves, may include: (a) a front member, e.g., made from leather; (b) a rear member made from a mesh material (e.g., stretchable mesh) engaged with the front member for covering a back of a hand, wherein the rear member includes at least one support member fused to the mesh material of the rear member, wherein the support member is formed from a material (e.g., a TPU) that is less stretchable than the mesh material to which it is fused; (c) a thumb element engaged at least in part with the front member; (d) a closure system; and/or (e) one or more elastic components extending along a wrist area. The support member(s) may form at least one continuous, unbroken path across the rear member. When multiple support members are present, they may partially overlap. Also, methods for making such gloves are described. | 10-24-2013 |
20140215729 | CLEATS, CLEATED SOLE STRUCTURES, MOLDS, AND MOLDING METHODS FOR IN-MOLDING ARTICLES - Cleat structures, e.g., for golf shoes, may include a flat and flexible interior surface and/or a generally disk-shaped perimeter area that includes features to promote in-molding of the cleat to a footwear sole component (e.g., to permanently engage the cleat with an outsole member). Such cleats may provide a flexible and comfortable base, including a low profile, e.g., to enable formation relatively thin and/or flexible footwear sole components. Footwear sole components and articles of footwear that include one or more in-molded cleat structures of this type also are described. Molds used for in-molding procedures and methods of using the molds to make articles with in-molded components (e.g., for making footwear sole structures including one or more in-molded cleats) also are described. | 08-07-2014 |
20140215857 | CLEATS, CLEATED SOLE STRUCTURES, MOLDS, AND MOLDING METHODS FOR IN-MOLDING ARTICLES - Cleat structures, e.g., for golf shoes, may include a flat and flexible interior surface and/or a generally disk-shaped perimeter area that includes features to promote in-molding of the cleat to a footwear sole component (e.g., to permanently engage the cleat with an outsole member). Such cleats may provide a flexible and comfortable base, including a low profile, e.g., to enable formation relatively thin and/or flexible footwear sole components. Footwear sole components and articles of footwear that include one or more in-molded cleat structures of this type also are described. Molds used for in-molding procedures and methods of using the molds to make articles with in-molded components (e.g., for making footwear sole structures including one or more in-molded cleats) also are described. | 08-07-2014 |
20140215862 | CLEATS, CLEATED SOLE STRUCTURES, MOLDS, AND MOLDING METHODS FOR IN-MOLDING ARTICLES - Cleat structures, e.g., for golf shoes, may include a flat and flexible interior surface and/or a generally disk-shaped perimeter area that includes features to promote in-molding of the cleat to a footwear sole component (e.g., to permanently engage the cleat with an outsole member). Such cleats may provide a flexible and comfortable base, including a low profile, e.g., to enable formation relatively thin and/or flexible footwear sole components. Footwear sole components and articles of footwear that include one or more in-molded cleat structures of this type also are described. Molds used for in-molding procedures and methods of using the molds to make articles with in-molded components (e.g., for making footwear sole structures including one or more in-molded cleats) also are described. | 08-07-2014 |
Patent application number | Description | Published |
20090282371 | INTEGRATION SYSTEM FOR MEDICAL INSTRUMENTS WITH REMOTE CONTROL - An integration system for medical instruments is described. In various embodiments, the integration system is useful for managing information from, and controlling, multiple medical instruments in a medical facility, as well as providing high fidelity audio communications between members of a clinical team. The system can be operated remotely in a sterile environment using gesture-based control and/or voice-recognition control. The system can record combined data instrument data, clinical data, system data, video and audio signals from a surgical procedure synchronously, as the data would be perceived during the procedure, in a central database. The recorded data can be retrieved and reviewed for instructional, diagnostic or analytical purposes. | 11-12-2009 |
20110157480 | INTEGRATION SYSTEM FOR MEDICAL INSTRUMENTS WITH REMOTE CONTROL - An integration system for medical instruments is described. In various embodiments, the integration system is useful for managing information from, and controlling, multiple medical instruments in a medical facility, as well as providing high fidelity audio communications between members of a clinical team. The system can be operated remotely in a sterile environment using gesture-based control and/or voice-recognition control. The system can record combined data—instrument data, clinical data, system date, video and audio signals—from a surgical procedure synchronously, as the data would be perceived during the procedure, in a central database. The recorded data can be retrieved and reviewed for instructional, diagnostic or analytical purposes. | 06-30-2011 |
20120278759 | INTEGRATION SYSTEM FOR MEDICAL INSTRUMENTS WITH REMOTE CONTROL - In some aspects, the present disclosure is directed to a method. The method may include receiving, by a first computing device, a wireless signal associated with a second computing device. The method may include determining, by the first computing device, an identifier of the second computing device based at least in part on information in the wireless signal. The method may include determining, by the first computing device, based at least in part on the identifier of the second computing device, a window in a display configuration, the window configured to display data from the second computing device. The method may include receiving, by the first computing device, the data from the second computing device. The method may include displaying, by the first computing device, the data in the window in the display configuration. | 11-01-2012 |
Patent application number | Description | Published |
20090156429 | PULSED-MULTILINE EXCITATION FOR COLOR-BLIND FLUORESCENCE DETECTION - The present invention provides a technology called Pulse-Multiline Excitation or PME. This technology provides a novel approach to fluorescence detection with application for high-throughput identification of informative SNPs, which could lead to more accurate diagnosis of inherited disease, better prognosis of risk susceptibilities, or identification of sporadic mutations. The PME technology has two main advantages that significantly increase fluorescence sensitivity: (1) optimal excitation of all fluorophores in the genomic assay and (2) “color-blind” detection, which collects considerably more light than standard wavelength resolved detection. Successful implementation of the PME technology will have broad application for routine usage in clinical diagnostics, forensics, and general sequencing methodologies and will have the capability, flexibility, and portability of targeted sequence variation assays for a large majority of the population. | 06-18-2009 |
20090303476 | Modulation cancellation method in laser spectroscopy - Novel methods and laser spectroscopic systems for accurately measuring the concentration of compounds are disclosed herein. The disclosed methods utilize a modulation cancellation technique resulting in a significantly increase in the sensitivity and accuracy of laser spectroscopic measurements. In general, the methods and systems utilize modulation phase-shifting and amplitude attenuation to cancel the signals detected from at least two modulated light beams. Thus, any signal detected will be directly proportional to the concentration measurement. | 12-10-2009 |
20120219029 | Pulsed-Multiline Excitation for Color-Blind Fluorescence Detection - The present invention provides a technology called Pulse-Multiline Excitation or PME. This technology provides a novel approach to fluorescence detection with application for high-throughput identification of informative SNPs, which could lead to more accurate diagnosis of inherited disease, better prognosis of risk susceptibilities, or identification of sporadic mutations. The PME technology has two main advantages that significantly increase fluorescence sensitivity: (1) optimal excitation of all fluorophores in the genomic assay and (2) “color-blind” detection, which collects considerably more light than standard wavelength resolved detection. Successful implementation of the PME technology will have broad application for routine usage in clinical diagnostics, forensics, and general sequencing methodologies and will have the capability, flexibility, and portability of targeted sequence variation assays for a large majority of the population. | 08-30-2012 |