| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 065348000 | PRODUCT COOLING MEANS (E.G., TEMPERING) | 16 |
| 20090199596 | Setting Plate Arrangement - In order to permit more effective cooling in comparison to the prior art, in particular in its floor area, of a hollow glass article ( | 08-13-2009 |
| 20100162767 | FLUID-COOLED MOLD - A fluid-cooled mold for the production of a quartz crucible provided in its interior with a space for flowing of cooling fluid comprises an outer mold section made from a heat-conductive metal or alloy material and an inner mold section closely arranged to an inner surface of the outer mold section and made from a heat-resistant material. | 07-01-2010 |
| 20110259054 | Glassware Mold Cooling Air Supply - A glassware forming machine includes a machine section box having a cooling air outlet opening, at least one mold-carrying arm disposed above the section box and movable between mold-open and mold-closed positions, and means for delivering cooling air from the outlet opening to the mold arms. The machine in accordance with this aspect of the disclosure is characterized in that the means for delivering cooling air includes a valve plate mounted on the section box to pivot around an axis and having a valve plate opening that registers with the outlet opening in the section box. A pressure plate is mounted on the mold-carrying arm overlying the valve plate and has a pressure plate opening that registers with the valve plate opening. A coupling between the valve plate and the pressure plate pivots the valve plate on the section box as a function of motion of the mold-carrying arm between the mold-open and mold-closed positions such that cooling air is continuously fed to the mold-carrying arm through the valve plate and the pressure plate. The coupling preferably is a lost motion coupling such that motion of the mold arm is not imparted to the valve plate during initial motion in either the opening or the closing direction. | 10-27-2011 |
| 20120042695 | APPARATUS FOR QUENCHING FORMED GLASS SHEETS - Apparatus ( | 02-23-2012 |
| 20130055765 | HETEROGENEOUS FABRIC FOR QUENCHING RING | 03-07-2013 |
| 20140202213 | LASER ANNEALING APPARATUS - A laser annealing apparatus includes a lens unit configured to transmit a laser beam to be irradiated onto an irradiation target; a lens unit housing accommodating the lens unit and having an opening configured to allow the laser beam to pass through the opening; a blocking plate configured to block at least a portion of the laser beam reflected by the irradiation target after being transmitted through the lens unit to the irradiation target; and a cooling unit between the blocking plate and the lens unit housing. | 07-24-2014 |
| 20150329402 | MOLD ASSEMBLIES FOR FORMING SHAPED GLASS ARTICLES - Mold assemblies for forming shaped glass articles are disclosed herein. According to one embodiment, a mold assembly may include a mold body including a mold cavity, a support base, and a plenum body extending between the mold body and the support base. When the mold assembly is heated to an average temperature of greater than or equal to about 650° C. by an overhead heating source, the temperature at the center of the mold cavity may be less than at the perimeter of the mold cavity. The difference between the temperature at the center of the mold cavity and the temperature at the perimeter of the mold cavity may be at least about 12° C. | 11-19-2015 |
| 20160096766 | GLASS QUENCH APPARATUS - A glass quench apparatus according to the present disclosure includes lower and upper quench heads configured to supply upward and downward gas flows to a heated glass sheet, and each quench head has multiple quench fins for distributing gas. For each quench head, adjacent quench fins are spaced apart center to center by a distance in the range of 0.87 to 1.15 inches, and each quench fin has multiple outlet openings that each have a diameter in the range of 0.25 to 0.36 inches. Furthermore, for each quench fin, the outlet openings are configured to provide spaced apart impingement points on the glass sheet such that adjacent impingement points are spaced apart by a distance in the range of 0.82 to 1.15 inches. | 04-07-2016 |
| 20160145144 | APPARATUS FOR TEMPERING GLASS SHEETS - An apparatus for tempering glass sheets. A glass sheet is heated to a tempering temperature and quenching is conducted by blasting cooling air to both surfaces of the glass sheet. The quenching of a top surface and a bottom surface of the glass sheet's both side lanes is commenced earlier or is performed at the early stage of quenching more effectively than the quenching of a top surface and a bottom surface of the glass sheet's middle lane. As a result, the compressive stress required for a desired tempering degree is established on both surfaces of the side lanes earlier than on both surfaces of the middle lane. In order to achieve this, the cooling air enclosures above and below a glass sheet are provided with a subarea of weakened cooling effect. | 05-26-2016 |
| 065349000 | With preceding reheater | 7 |
| 20110289974 | Cooling Tube Nozzle for a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a cooling tube nozzle in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the cooling tube nozzles being used to cool the inner surfaces of the glass containers. | 12-01-2011 |
| 20110289975 | Cooling Shroud for a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a cooling shroud in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the cooling shrouds being used to cool the outer surfaces of the glass containers. | 12-01-2011 |
| 20110289976 | Base Cooling Nozzle for a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a base cooling nozzle in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I.S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the base cooling nozzles being used to cool the bottoms of the glass containers. | 12-01-2011 |
| 20130025324 | KILN FOR ANNEALING GLASS SLABS | 01-31-2013 |
| 20160107921 | Cooling Tube Assembly for Cooling of the Interior of a Container - A cooling tube assembly is provided. The assembly includes a cylindrical cooling tube extending from a first end to a second end. The cooling tube has an inner surface, an outer surface, an inner diameter, and an outer diameter. The cooling tube includes a first plurality of throughbores and a second plurality of throughbores located axially between the first plurality of throughbores and the second end of the cooling tube. Each of the second plurality of throughbores is circumferentially offset from each of the first plurality of throughbores. The assembly includes a nozzle extending from a first end to a second end. The first end of the nozzle is located inside the cooling tube. The first plurality of throughbores is located axially between the second end of the cooling tube and the first end of the nozzle. | 04-21-2016 |
| 065351000 | Plural spaced cooling means | 2 |
| 20110289977 | Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers. | 12-01-2011 |
| 20110289978 | Cooling Tube Mechanism Operation in a Post-Manufacture Glass Container Thermal Strengthening Station - An apparatus for manufacturing strengthened glass containers, and more particularly the construction and operation of a cooling tube mechanism in an apparatus for thermally strengthening glass containers in a glass container manufacturing line at a location intermediate the hot end and the cold end. Glass containers formed at an I. S. machine are conveyed through a special tempering Lehr that heats them uniformly to a high temperature that is short of temperatures at which they may become deformed. Subsequently, the glass containers are rapidly thermally strengthened in a cooling station in which the outer and inner surfaces including all areas of the glass containers are simultaneously cooled to a temperature below the Strain Point of the glass used in the glass containers, with the cooling tube mechanism being used to cool the inner surfaces of the glass containers. | 12-01-2011 |
