Patent application number | Description | Published |
20090275516 | COMPOUNDS AND METHOD FOR MODULATING INFLAMMATORY REACTIONS - The present invention relates to compounds and methods for modulating, reducing or inhibiting, inflammatory reactions in a patient. Particularly, inflammatory reactions that are targeted by the present invention are cell migration, secretion of toxic products and proteolysis at a site of inflammation. Reduction of inflammation manifestations and reactions occurs by using an anti-S100 polynucleotide or polypeptide inhibitor or antagonist, which is essentially targeted against S100A8, S100A9 or S100A12, alone or in combination with other inhibitors of chemokines or immune modulating products. | 11-05-2009 |
20130273075 | Compounds and Method for Modulating Inflammatory Reactions - The present invention relates to compounds and methods for modulating, reducing or inhibiting, inflammatory reactions in a patient. Particularly, inflammatory reactions that are targeted by the present invention are cell migration, secretion of toxic products and proteolysis at a site of inflammation. Reduction of inflammation manifestations and reactions occurs by using an anti-S100 polynucleotide or polypeptide inhibitor or antagonist, which is essentially targeted against S100A8, S100A9 or S100A12, alone or in combination with other inhibitors of chemokines or immune modulating products. | 10-17-2013 |
20140348849 | Compounds and Method for Modulating Inflammatory Reactions - The present invention relates to compounds and methods for modulating, reducing or inhibiting, inflammatory reactions in a patient. Particularly, inflammatory reactions that are targeted by the present invention are cell migration, secretion of toxic products and proteolysis at a site of inflammation. Reduction of inflammation manifestations and reactions occurs by using an anti-S100 polynucleotide or polypeptide inhibitor or antagonist, which is essentially targeted against S100A8, S100A9 or S100A12, alone or in combination with other inhibitors of chemokines or immune modulating products. | 11-27-2014 |
20150110774 | S100 PROTEIN INHIBITORS FOR TREATING LEUKEMIA - The present invention relates to a compound, composition and method for reducing or inhibiting the differentiation or development of progenitor blood cells into malignant cells, leukemia cells or physiologically pathological cells. Particularly, the invention describes the use of inhibitors of S100 proteins, including myeloid related proteins. Inhibition of the activity or synthesis of S100 proteins results into reduction or inhibition of the production or proliferation of aberrant and cancer blood cells. | 04-23-2015 |
Patent application number | Description | Published |
20100001521 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET - Methods, gaskets, and couplings for connecting two pipes are disclosed. One embodiment of the method includes the steps of placing the assembled coupling over one end of a pipe, aligning the second pipe with the first pipe, sliding the coupling off the end of the first pipe so that a portion of the coupling is around each pipe, and securing the coupling. | 01-07-2010 |
20120124804 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET - Methods, gaskets, and couplings for connecting two pipes are disclosed. One embodiment of the method includes the steps of placing the assembled coupling over one end of a pipe, aligning the second pipe with the first pipe, sliding the coupling off the end of the first pipe so that a portion of the coupling is around each pipe, and securing the coupling. | 05-24-2012 |
20120280494 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET - Couplings and gaskets are disclosed. Couplings may include an upper housing, a lower housing, at least one fastening device coupling the upper housing to the lower housing, and a gasket positioned within the upper and lower housings, the gasket including two primary seals and a rib protruding from an inner surface of the gasket and between the two primary seals. | 11-08-2012 |
20140001753 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET | 01-02-2014 |
20140076413 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET - Methods, gaskets, and couplings for connecting two pipes are disclosed. One embodiment of the method includes the steps of placing the assembled coupling over one end of a pipe, aligning the second pipe with the first pipe, sliding the coupling off the end of the first pipe so that a portion of the coupling is around each pipe, and securing the coupling. | 03-20-2014 |
20150209919 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET - Methods, gaskets, and couplings for connecting two pipes are disclosed. One embodiment of the method includes the steps of placing the assembled coupling over one end of a pipe, aligning the second pipe with the first pipe, sliding the coupling off the end of the first pipe so that a portion of the coupling is around each pipe, and securing the coupling. | 07-30-2015 |
20150211664 | SLIP ON GROOVE COUPLING WITH MULTIPLE SEALING GASKET - Couplings and gaskets are disclosed. Couplings may include an upper housing, a lower housing, at least one fastening device coupling the upper housing to the lower housing, and a gasket positioned within the upper and lower housings, the gasket including two primary seals and a rib protruding from an inner surface of the gasket and between the two primary seals. | 07-30-2015 |
Patent application number | Description | Published |
20090101208 | Stiffening members for reflectors used in concentrating solar power apparatus, and method of making same - In certain example embodiments, a solar collector system including a plurality of reflectors is provided. Each reflector has a stiffening rib associated therewith and is attached thereto on a side facing away from the sun. At least one area on each stiffening rib is suitable for accommodating a polymer-based adhesive for bonding the rib to a side of the associated reflector facing away from the sun. Each stiffening rib is formed so as to substantially match a contour of the associated reflector. At least two of each rib, the associated reflector, and the adhesive have respective coefficients of thermal expansion within about 50% of one another. Each stiffening rib is sized and positioned on the associated reflector so as to increase an EI value thereof at least about 10 times or to at least about 9,180 pascal meters | 04-23-2009 |
20100229853 | Mounting brackets for mirrors, and associated methods - In certain example embodiments, a solar collector system including a plurality of reflectors is provided. In certain example embodiments, a bracket or pad is bonded to a reflecting panel. The bracket has at least one fastening element protruding therefrom. The fastening element cooperates with at least a hole formed in a mounting frame for securing the panel to a frame, e.g., in mounting the panel. In certain example embodiments, the at least one fastening element comprises two deformable tabs. In certain example embodiments, the at least one fastening element is a shoulder screw that cooperates with a keyhole and slot arrangement provided to the mounting frame, with the shoulder screw being held in place by an optional spring clip. | 09-16-2010 |
20110085257 | Parabolic trough or dish reflector for use in concentrating solar power apparatus and method of making same - A reflector (e.g., mirror) for use in a solar collector or the like is provided. In certain example embodiments of this invention, a reflector is made by (a) forming a reflective coating on a thin substantially flat glass substrate (the thin glass substrate may or may not be pre-bent prior to the coating being applied thereto), (b) optionally, if the glass substrate in (a) was not prebent, then cold-bending the glass substrate with the reflective coating thereon; and (c) applying a plate or frame member to the thin bent glass substrate with the coating thereon from (a) and/or (b), the plate or frame member (which may be another thicker pre-bent glass sheet, for example) for maintaining the thin glass substrate and coating thereon in a desired bent orientation in a final product which may be used as parabolic trough or dish type reflector in a concentrating solar power apparatus or the like. | 04-14-2011 |
20120087029 | Mirrors for concentrating solar power (CSP) or concentrating photovoltaic (CPV) applications, and/or methods of making the same - Certain example embodiments relate to techniques for creating flat laminated mirrors, e.g., for use in concentrating solar power (CSP) applications. In certain example embodiments, the first substrate is a low iron glass substrate, and the second substrate (which may be thicker than the first substrate) is has a higher iron content than the firsts substrate. A reflective coating is provided between the first and second substrates. The first and second substrates are laminated together with the reflective coating between the substrates. In certain example embodiments a reflective article has a reflectivity above 90%, more preferably about 94.5%. | 04-12-2012 |
20120097218 | Photovoltaic modules, and/or methods of making the same - Certain example embodiments relate to techniques for creating improved photovoltaic (PV) modules. In certain example embodiments and first and second glass substrate are provided. A PV array is provided between the first and second glass substrates. The first and second substrates are laminated together with the PV array between the glass substrates. In certain example embodiments the PV module is dimensioned to be similar to an existing roof system (e.g., a sunroof) in a vehicle. | 04-26-2012 |
20120255665 | Techniques for mounting brackets to glass substrates for automotive applications - Certain example embodiments relate to techniques for bonding automotive brackets for sensors, rear view mirrors, and/or other components to an interior surface of the glass. The adhesive films of certain example embodiments may be film-based adhesives that may be die-cut and pre-applied to the brackets or components. They may have a good initial adhesion or green strength immediately upon contact with the glass. In certain example instances, the films may be applied and successfully bond to the glass at near ambient temperature conditions to a strength level adequate to meet operational specifications for the component in under 72 hours. | 10-11-2012 |
20120260974 | PHOTOVOLTAIC MODULES FOR USE IN VEHICLE ROOFS, AND/OR METHODS OF MAKING THE SAME - Certain example embodiments relate to techniques for creating improved photovoltaic (PV) modules. In certain example embodiments and first and second glass substrate are provided. A PV array is provided between the first and second glass substrates. The first and second substrates are laminated together with the PV array between the glass substrates. In certain example embodiments the PV module is dimensioned to be similar to an existing roof system (e.g., a sunroof) in a vehicle. In certain example embodiments, holes are provided in a PV module sandwiched between two substrates, the holes being shaped and arranged within the PV module so as to allow light transmission into the vehicle at desired level while still being substantially filled by the laminate or adhesive material used to secure the PV module to the two surrounding substrates. | 10-18-2012 |
20120298177 | CONCENTRATING PHOTOVOLTAIC SYSTEMS WITH OFFSET PHOTOVOLTAIC DEVICES AND/OR ASSOCIATED METHODS - Certain example embodiments relate to improved concentrating photovoltaic (CPV) systems and/or methods of making the same. Certain example embodiments relate to positing a photovoltaic array at a distance that is offset from a calculated theoretical focus of a reflector. In certain example embodiments, the distance is determined by performing a ray trace against the reflector such a distribution of the rays may be determined. In certain example embodiments, the offset is determined by selecting a range where at least 95% of the rays are included in the range. In certain example embodiments, a CPV system includes a reflector that reflects solar energy to a PV array that is located at a distance that is offset from a theoretical focus distance of the reflector. | 11-29-2012 |
20130027794 | PARABOLIC TROUGH OR DISH REFLECTOR FOR USE IN CONCENTRATING SOLAR POWER APPARATUS AND METHOD OF MAKING SAME - A reflector (e.g., mirror) for use in a solar collector or the like is provided. In certain example embodiments of this invention, a reflector is made by (a) forming reflective coating on a thin substantially flat glass substrate (the thin glass substrate may or may not be pre-bent prior to the coating being applied thereto), (b) optionally, if the glass substrate in (a) was not prebent, then cold-bending the glass substrate with the reflective coating thereon; and (c) applying a plate or frame member to the thin bent glass substrate with the coating thereon from (a) and/or (b), the plate or frame member (which may be another thicker pre-bent glass sheet, for example) for maintaining the thin glass substrate and coating thereon in a desired bent orientation in a final product which may be used as parabolic trough or dish type reflector in a concentrating solar power apparatus or the like. | 01-31-2013 |
20130306813 | TECHNIQUES FOR MOUNTING BRACKETS TO GLASS SUBSTRATES FOR AUTOMOTIVE APPLICATIONS - Certain example embodiments relate to techniques for bonding automotive brackets for sensors, rear view mirrors, and/or other components to an interior surface of the glass. The adhesive films of certain example embodiments may be film-based adhesives that may be die-cut and pre-applied to the brackets or components. They may have a good initial adhesion or green strength immediately upon contact with the glass. In certain example instances, the films may be applied and successfully bond to the glass at near ambient temperature conditions to a strength level adequate to meet operational specifications for the component in under 72 hours. | 11-21-2013 |
20140098553 | EMBEDDED LED ASSEMBLY WITH OPTIONAL BEAM STEERING OPTICAL ELEMENT, AND ASSOCIATED PRODUCTS, AND/OR METHODS - Certain example embodiments of this invention relate to laminated LED arrays, products including such laminated LED arrays, and/or methods of making the same. In certain example embodiments, LEDs may be disposed on a flexible sheet and chained together in an array. An optional beam steering optical element may be used to help redirect the light, even when the LED arrays are disposed on a curved surface and/or at an angle that is not parallel to the intended observer's line of sight. Doing so advantageously makes it possible to ensure that a substantial portion of the axis of the light produced by embedded LEDs coincides with the front-to-rear axis of a vehicle, while still allowing for different angles of the back light for different implementations. Such techniques advantageously may be used in connection with Center High Mount Stop Lamps (CHMSLs); tail lights for cars, trucks, and other vehicles; and/or the like. | 04-10-2014 |
20140176836 | SWITCHABLE WINDOW HAVING LOW EMISSIVITY (LOW-E) COATING AS CONDUCTIVE LAYER AND/OR METHOD OF MAKING THE SAME - A switchable window includes: first and second substrates (e.g., glass substrates); a liquid crystal inclusive layer (e.g., PDLC layer) disposed between at least the first and the second substrates; and a low-E coating provided between at least the liquid crystal inclusive layer and the first substrate. Voltage is applied to the liquid crystal inclusive layer via the low-E coating and a substantially transparent conductive coating which are on opposite sides of the liquid crystal inclusive layer. By adjusting voltage applied to at least part of the liquid crystal inclusive layer, the window is selectively switchable between at least first and second states with different visible light transmissions. | 06-26-2014 |
20140272338 | METHOD OF MAKING A COATED ARTICLE AND/OR GLAZING FOR AUTOMOBILES AND/OR THE LIKE - Certain example embodiments relate to a method of making a coated article and/or glazing (e.g., for automobile, window, and/or other applications). An opaque paint that is not technically a frit is used to form a desired opaque pattern. The paint is screen printed on a substrate. Screen printing parameters are selected, e.g., so that the mesh has a high threads per inch count; the paint is pushed through the screen using hydraulic forces that account for a sheer thinning property of the paint by balancing squeegee speed, squeegee angle relative to the screen, and hardness of the squeegee; and/or relative humidity above and/or near the screen is at least about 80%. Preferably, the paint is substantially fully curable at 400 degrees C. or less. The substrate with the pattern thereon may be bent using a high temperature process, optionally with another substrate to which it may be laminated. | 09-18-2014 |
20150219938 | SWITCHABLE WINDOW HAVING LOW EMISSIVITY (LOW-E) COATING AS CONDUCTIVE LAYER AND/OR METHOD OF MAKING THE SAME - A switchable window includes: first and second substrates (e.g., glass substrates); a liquid crystal inclusive layer (e.g., PDLC layer) disposed between at least the first and the second substrates; and a low-E coating provided between at least the liquid crystal inclusive layer and the first substrate. Voltage is applied to the liquid crystal inclusive layer via the low-E coating and a substantially transparent conductive coating which are on opposite sides of the liquid crystal inclusive layer. By adjusting voltage applied to at least part of the liquid crystal inclusive layer, the window is selectively switchable between at least first and second states with different visible light transmissions. | 08-06-2015 |