Patents Assigned to New Visual Media Group, L.L.C.
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Patent number: 11714316Abstract: A reflective display tile can be used in connection with a static or video display. The tile includes a transparent substrate having a front surface, a rear surface, and a peripheral edge surrounding the front and rear surfaces, an electrostatic shutter array disposed at the front surface of said substrate, a reflective medium disposed at the rear surface of the substrate, and drive electronics disposed rearward of the reflective medium. The shutter array and drive electronics are configured so that the tile is tileable and can be abutted at any of its peripheral edges against identical tiles to form a display with substantially no perceived optical interface between adjacent tiles. Another embodiment includes an opaque substrate such as a circuit board. A further embodiment has a polymeric film coated on one side with a metal film and on another side with ink or blackening material.Type: GrantFiled: September 20, 2017Date of Patent: August 1, 2023Assignee: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Joshua S. Finch, Jeffrey P. Koskulics
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Patent number: 11210972Abstract: A shutter system includes a substrate having a front surface with a length and a width, and a conductive layer on a portion of the front surface of the substrate; a dielectric layer disposed on the conductive layer; and an electrostatic shutter having a proximal end attached to the dielectric layer such that a portion of the shutter is in direct physical contact with the dielectric layer at a point at or adjacent the attached proximal end. The shutter is configured to transition between extended and retracted configurations. In the same or an alternative embodiment, the system includes a reinforcement configured such that when the shutter is in the extended configuration, an edge at a distal end of the shutter opposite the proximal end remains substantially parallel to the proximal end of the shutter as the shutter transitions from the extended configuration to the retracted configuration.Type: GrantFiled: December 23, 2020Date of Patent: December 28, 2021Assignee: New Visual Media Group, L.L.C.Inventor: Elliott Schlam
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Publication number: 20190086731Abstract: A reflective display tile can be used in connection with a static or video display. The tile includes a transparent substrate having a front surface, a rear surface, and a peripheral edge surrounding the front and rear surfaces, an electrostatic shutter array disposed at the front surface of said substrate, a reflective medium disposed at the rear surface of the substrate, and drive electronics disposed rearward of the reflective medium. The shutter array and drive electronics are configured so that the tile is tileable and can be abutted at any of its peripheral edges against identical tiles to form a display with substantially no perceived optical interface between adjacent tiles. Another embodiment includes an opaque substrate such as a circuit board. A further embodiment has a polymeric film coated on one side with a metal film and on another side with ink or blackening material.Type: ApplicationFiled: September 20, 2017Publication date: March 21, 2019Applicant: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Joshua S. Finch, Jeffrey P. Koskulics
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Patent number: 8982441Abstract: An insulated glazing unit includes a spacer defining a framed area, first and second glazing panes attached to the spacer, a pane conductive layer on an inner surface of the first glazing pane, and a dielectric layer disposed on the pane conductive layer. A shade for use with the insulated glazing unit is affixed to the first glazing pane. The shade includes one or more layers selected from a resilient layer, a substantially transparent shade conductive layer, and an opaque shade conductive layer. When an electric drive is applied between the pane conductive layer and the shade conductive layer, a potential difference between the pane conductive layer and the shade conductive layer causes the shade to extend from a retracted configuration to an extended configuration. The shade can further include at least one ink coating layer including pigments that selectively reflect or absorb certain visible colors and infrared.Type: GrantFiled: May 15, 2014Date of Patent: March 17, 2015Assignee: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater, Jeffrey P. Koskulics, Joshua S. Finch
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Publication number: 20140268296Abstract: An insulated glazing unit includes a spacer defining a framed area, first and second glazing panes attached to the spacer, a pane conductive layer on an inner surface of the first glazing pane, and a dielectric layer disposed on the pane conductive layer. A shade for use with the insulated glazing unit is affixed to the first glazing pane. The shade includes one or more layers selected from a resilient layer, a substantially transparent shade conductive layer, and an opaque shade conductive layer. When an electric drive is applied between the pane conductive layer and the shade conductive layer, a potential difference between the pane conductive layer and the shade conductive layer causes the shade to extend from a retracted configuration to an extended configuration. The shade can further include at least one ink coating layer including pigments that selectively reflect or absorb certain visible colors and infrared.Type: ApplicationFiled: May 15, 2014Publication date: September 18, 2014Applicant: NEW VISUAL MEDIA GROUP, L.L.C.Inventors: Elliott Schlam, Mark S. Slater, Jeffrey P. Koskulics, Joshua S. Finch
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Patent number: 8736938Abstract: An insulated glazing unit includes a spacer defining a framed area, first and second glazing panes attached to the spacer, a pane conductive layer on an inner surface of the first glazing pane, and a dielectric layer disposed on the pane conductive layer. A shade for use with the insulated glazing unit is affixed to the first glazing pane. The shade includes one or more layers selected from a resilient layer, a substantially transparent shade conductive layer, and an opaque shade conductive layer. When an electric drive is applied between the pane conductive layer and the shade conductive layer, a potential difference between the pane conductive layer and the shade conductive layer causes the shade to extend from a retracted configuration to an extended configuration. The shade can further include at least one ink coating layer including pigments that selectively reflect or absorb certain visible colors and infrared.Type: GrantFiled: March 14, 2013Date of Patent: May 27, 2014Assignee: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater, Jeffrey P. Koskulics, Joshua S. Finch
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Patent number: 8134112Abstract: An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation.Type: GrantFiled: December 23, 2009Date of Patent: March 13, 2012Assignee: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater
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Patent number: 8035075Abstract: An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation.Type: GrantFiled: January 11, 2010Date of Patent: October 11, 2011Assignee: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater
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Publication number: 20100170623Abstract: An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation.Type: ApplicationFiled: December 23, 2009Publication date: July 8, 2010Applicant: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater
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Publication number: 20100172007Abstract: An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation.Type: ApplicationFiled: January 11, 2010Publication date: July 8, 2010Applicant: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater
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Patent number: 7705826Abstract: A flat panel display has a linear array of switchable light emitting diodes (“LEDs”) to emit bands of light across the display, providing a light pattern programmable at video frequencies and a two-dimensional electropolymeric shutter array to convert the light pattern into a video image. The light pattern can be varied or controlled spatially, with respect to both hue and intensity, by suitable drive signals, at points along the array determined by the location of individual LEDs, or groups of LEDs, and temporally as the shutters in the array are opened and closed to provide a pleasing full color gamut for every pixel in the display. Closed shutters, displaying a reflective appearance, can be employed for background or other effects. The shutter array can be flexibly constructed and supported on a flexible substrate to provide a flexible display.Type: GrantFiled: February 10, 2003Date of Patent: April 27, 2010Assignee: New Visual Media Group, L.L.C.Inventors: Charles G. Kalt, Thomas F. Kalt, Robert Miller, William G. Seeley, Mark S. Slater
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Patent number: 7645977Abstract: An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation.Type: GrantFiled: July 6, 2007Date of Patent: January 12, 2010Assignee: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater
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Publication number: 20080115428Abstract: An insulated glazing unit has controllable radiation transmittance. Peripheries of first and second glazing panes are attached and spaced apart facing each other and then attached to a supporting structure. A conductive layer is atop the first glazing pane inner surface as a fixed position electrode. A dielectric is atop the conductive layer. A coiled spiral roll, variable position electrode is between the first and second glazing panes, a width of its outer edge attached to the dielectric. A first electrical lead is connected to the variable position electrode's conductive layer. A second electrical lead is connected to the conductive layer atop the first glazing pane. Applied voltage between the first and second electrical leads creates a predetermined potential difference between the electrodes, and the variable position electrode unwinds and rolls out to at least partially cover the first glazing pane, at least reducing the intensity of passing radiation.Type: ApplicationFiled: July 6, 2007Publication date: May 22, 2008Applicant: New Visual Media Group, L.L.C.Inventors: Elliott Schlam, Mark S. Slater