Patent application number | Description | Published |
20110126591 | Method and Apparatus for Pressure Control of Glass-Making Thickness-Control Zone - Managing pressure within a thickness-control-zone (muffle door) housing ( | 06-02-2011 |
20110209502 | METHODS AND APPARATUS FOR REDUCING HEAT LOSS FROM AN EDGE DIRECTOR - An apparatus for making a glass sheet includes a forming wedge with a pair of inclined forming surface portions converging along a downstream direction to form a root. The apparatus further includes an edge director intersecting with at least one of the pair of downwardly inclined forming surface portions, and a thermal shield configured to reduce heat loss from the edge director. Methods are also provided for reducing heat loss from the edge director with a thermal shield. | 09-01-2011 |
20120131956 | GLASS MANUFACTURING APPARATUSES WITH PARTICULATE REMOVAL DEVICES AND METHODS OF USING THE SAME - Glass manufacturing apparatuses with particulate removal devices and methods for using the same are disclosed. In one embodiment, a fusion draw machine for forming a glass web from molten glass includes an enclosure and a first pull roll and a second pull roll rotatably positioned in an interior of an enclosure. The first pull roll and the second pull roll cooperate to draw a glass web in a draw direction. A particulate removal device for removing particulate matter from the interior of the enclosure is fluidly coupled to the enclosure and includes a vacuum nozzle disposed in the interior of the enclosure and fluidly coupled to a vacuum source with a vacuum line. A particulate filter is fluidly coupled to the vacuum nozzle and the vacuum source and traps particulate matter exhausted from the interior of the enclosure through the vacuum nozzle. | 05-31-2012 |
20120216575 | METHOD AND APPARATUS FOR REMOVING VOLATILIZED MATERIALS FROM AN ENCLOSED SPACE IN A GLASS MAKING PROCESS - An apparatus and method for removing volatilized chemical compounds from within enclosed or partially enclosed spaces containing molten glass. One or more condensing devices are positioned within the enclosure to produce preferential condensation of the vapor on condensing elements of the condensing devices, thereby facilitating easy removal of the condensates from the enclosure. The condensing elements may have a variety of shapes and sizes depending on the design of the enclosure. | 08-30-2012 |
20120318020 | APPARATUS AND METHODS FOR PRODUCING A GLASS RIBBON - Apparatus for producing glass ribbon comprises a plurality of cooling coils positioned along a cooling axis of the apparatus extending transverse to a draw direction. The cooling coils are configured to control a transverse temperature profile of the glass ribbon along a cooling axis. Each cooling coil can be fabricated from at least one tube and configured to circulate fluid to remove heat from the cooling coil. In further examples, methods of producing a glass ribbon include the step of controlling a transverse temperature profile of the glass ribbon along a width of the glass ribbon. The step of controlling the temperature profile includes selectively removing heat from at least one of a plurality of cooling coils positioned along the cooling axis. | 12-20-2012 |
20130283859 | METHOD AND APPARATUS FOR REMOVING VOLATILIZED MATERIALS FROM AN ENCLOSED SPACE IN A GLASS MAKING PROCESS - An apparatus and method for removing volatilized chemical compounds from within enclosed or partially enclosed spaces containing molten glass. One or more condensing devices are positioned within the enclosure to produce preferential condensation of the vapor on condensing elements of the condensing devices, thereby facilitating easy removal of the condensates from the enclosure. The condensing elements may have a variety of shapes and sizes depending on the design of the enclosure. | 10-31-2013 |
20130298607 | GLASS MANUFACTURING APPARATUSES WITH PARTICULATE REMOVAL DEVICES AND METHODS OF USING THE SAME - Glass manufacturing apparatuses with particulate removal devices and methods for using the same are disclosed. In one embodiment, a fusion draw machine for forming a glass web from molten glass includes an enclosure and a first pull roll and a second pull roll rotatably positioned in an interior of an enclosure. The first pull roll and the second pull roll cooperate to draw a glass web in a draw direction. A particulate removal device for removing particulate matter from the interior of the enclosure is fluidly coupled to the enclosure and includes a vacuum nozzle disposed in the interior of the enclosure and fluidly coupled to a vacuum source with a vacuum line. A particulate filter is fluidly coupled to the vacuum nozzle and the vacuum source and traps particulate matter exhausted from the interior of the enclosure through the vacuum nozzle. | 11-14-2013 |
20130319049 | APPARATUS FOR FORMING GLASS WITH EDGE DIRECTORS AND METHODS - An apparatus for downwardly drawing glass ribbon comprises edge directors, wherein an outer portion defining a first pair of surfaces and a second pair of surfaces. In one example, the first and second pair of surfaces of each edge director includes a glass wettability with a static contact angle within a range of from about 30° to about 60°. In another example, the outer portion comprises a platinum alloy including from about 0.05 weight % tin to about 5 weight % tin. Methods for forming glass include the step of providing the edge director with a desired glass wettability and/or a desired platinum alloy. | 12-05-2013 |
20140190213 | METHOD AND APPARATUS FOR PRESSURE CONTROL OF GLASS-MAKING THICKNESS-CONTROL ZONE - Managing pressure within a thickness-control-zone (muffle door) housing ( | 07-10-2014 |
20140298861 | APPARATUS FOR FORMING GLASS WITH EDGE DIRECTORS AND METHODS - An apparatus for downwardly drawing glass ribbon comprises edge directors, wherein an outer portion defining a first pair of surfaces and a second pair of surfaces. In one example, the first and second pair of surfaces of each edge director includes a glass wettability with a static contact angle within a range of from about 30° to about 60°. In another example, the outer portion comprises a platinum alloy including from about 0.05 weight % tin to about 5 weight % tin. Methods for forming glass include the step of providing the edge director with a desired glass wettability and/or a desired platinum alloy. | 10-09-2014 |