Class / Patent application number | Description | Number of patent applications / Date published |
065103000 | Utilizing heat shield or heat-sink | 8 |
20120131961 | METHOD AND APPARATUS FOR BENDING A SHEET OF MATERIAL INTO A SHAPED ARTICLE - A method for bending a sheet of material into a shaped article includes providing the sheet of material. A reformable area and a non-reformable area of the sheet of material are heated to a first temperature range corresponding to a first viscosity range. The reformable area of the sheet of material is subsequently heated to a second temperature range corresponding to a second viscosity range. The reformable area of the sheet of material is reformed into a selected shape by at least one of sagging the reformable area of the sheet of material and applying a force to the sheet of material outside of or near a boundary of the reformable area. | 05-31-2012 |
20120279257 | Methods and Apparatus for Reforming a Glass Sheet - A deformation apparatus for reforming a glass sheet comprises a central portion, a first edge mold movably coupled to a first end of the central portion and configured to be linearly translated along a linear mold axis in a first direction toward the central portion. The deformation apparatus further includes a second edge mold movably coupled to the second end of the central portion and configured to be linearly translated along the linear mold axis in a second direction opposite the first direction and toward the central portion. Methods are also provided including the step of cooling a reformed glass sheet, wherein a greater shrinkage of the reformed glass sheet relative to a shrinkage of the deformation apparatus is accommodated by a movement of at least the first edge mold in a first direction toward the central portion of the deformation apparatus. | 11-08-2012 |
20130125588 | METHOD AND SYSTEM FOR MAKING GLASS ARTICLES - A glass sheet is placed on a mold and heated to a first temperature. The glass sheet is then formed into a glass article having a three-dimensional shape using the mold. An isothermal heat transfer device comprising at least one heat pipe is provided in thermal contact with the mold. With the glass article on the mold and the isothermal heat transfer device in thermal contact with the mold, the glass article, mold, and isothermal heat transfer device are transported along a thermally-graded channel to cool the glass article to a second temperature. During the transporting, the isothermal heat transfer device transfers heat from a relatively hot region of the mold to a relatively cold region of the mold. | 05-23-2013 |
20130139553 | FURNACE HAVING A THERMAL BARRIER - A furnace for heating an object in a space, including a refractory ceramic wall, a heat source, at least one metal plate coated with an adherent layer of ceramic material on one of its principal faces, the coated plate being placed between the wall and the source, the adherent layer being situated facing the source. The coated metal plate acts as a thermal barrier and improves heating efficiency of the heat source. The furnace may for example serve to bend by gravity glass sheets placed on a bending frame. | 06-06-2013 |
20130298608 | METHOD FOR MANUFACTURING MOLDED GLASS ARTICLES, AND USE OF THE GLASS ARTICLES MANUFACTURED ACCORDING TO THE METHOD - Processes for producing shaped glass articles with a defined geometry are provided. In some embodiment, the process includes arranging a glass pane on a mould, heating the glass pane by infrared radiation, deforming the heated glass pane over the mould by gravity, negative pressure, and/or positive pressure, and cooling the shaped glass pane to obtain the shaped glass article with a defined geometry. | 11-14-2013 |
20130305787 | HEAT-REGULATING GLASS BENDING APPARATUS AND METHOD - A sag-bending system is disclosed. The sag-bending system comprises a sag-bending glass support mold and a perimeter thermal manager. The sag-bending glass support mold has a quadrilateral shape, a collective upper surface, and a periphery. The support mold comprises a plurality of rib members extending in a first direction, each of the plurality of rib members having a curved upper surface shaped to form the collective upper surface having a position and shape to support a quadrilateral-shaped sag-bent glass sheet into a desired contour, each of the rib members further having a lower surface, and a plurality of support members extending in a second direction between at least two of the plurality of rib members, the second direction traverse to the first direction. | 11-21-2013 |
20140144182 | APPARATUS AND METHOD FOR SHAPING A GLASS SUBSTRATE - An apparatus and method for shaping a substantially planar glass substrate are disclosed. The glass substrate is supported on a shaping body having a substantially planar central portion and arcuate edge portions. The substrate is heated by a suitable radiant heat source wherein a thermal shield is used to shield a centrally located surface of the glass substrate so that only edge portions of the glass substrate are heated and softened. Gravity causes the glass substrate edge portions to sag and conform to the shape of the shaping body. In some embodiments, shaping members are pressed against the glass substrate edge portions to aid in the conforming. In certain other embodiments, a plurality of glass substrates are sequentially deformed by a shaping die. | 05-29-2014 |
20140157828 | METHOD AND SYSTEM FOR MAKING A GLASS ARTICLE WITH UNIFORM MOLD TEMPERATURE - A glass sheet is formed on a mold into a glass article having a three-dimensional shape. The mold, with the glass article thereon, is arranged within an interior space of a radiation shield such that the mold is between a leading end barrier and a trailing end barrier of the radiation shield. The mold, glass article, and radiation shield are translated through a sequence of cooling stations while maintaining the mold between the leading and trailing end barriers, wherein the leading and trailing end barriers inhibit radiation heat transfer at leading and trailing ends of the mold. | 06-12-2014 |