Patents by Inventor Antonio Cabal
Antonio Cabal has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6953240Abstract: A snap-through thermal actuator for a micro-electromechanical device, for example, a liquid drop emitter or a fluid control microvalve, is disclosed. The snap-through actuator includes a base element formed with a depression having opposing anchor edges which define a central plane. A deformable element, attached to the base element at the opposing anchor edges, is constructed as a planar lamination including a first layer of a first material having a low coefficient of thermal expansion and a second layer of a second material having a high coefficient of thermal expansion. The deformable element is formed to have a residual shape bowing outward from the central plane in a first direction away from the second layer. The snap-through thermal actuator further includes apparatus adapted to apply a heat pulse to the deformable element which causes a sudden rise in the temperature of the deformable element.Type: GrantFiled: December 18, 2004Date of Patent: October 11, 2005Assignee: Eastman Kodak CompanyInventors: Antonio Cabal, John A. Lebens, David P. Trauernicht, David S. Ross
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Patent number: 6948800Abstract: A snap-through thermal actuator for a micro-electromechanical device such as a liquid drop emitter or a fluid control microvalve is disclosed. The snap-through actuator is comprised of a base element formed with a depression having opposing anchor edges which define a central plane. A deformable element, attached to the base element at the opposing anchor edges, is constructed as a planar lamination including a first layer of a first material having a low coefficient of thermal expansion and a second layer of a second material having a high coefficient of thermal expansion. The deformable element is formed to have a residual shape bowing outward from the central plane in a first direction away from the second layer. The snap-through thermal actuator further comprises apparatus adapted to apply a heat pulse to the deformable element which causes a sudden rise in the temperature of the deformable element.Type: GrantFiled: December 18, 2004Date of Patent: September 27, 2005Assignee: Eastman Kodak CompanyInventors: Antonio Cabal, John A. Lebens, David P. Trauernicht, David S. Ross
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Publication number: 20050099463Abstract: A snap-through thermal actuator for a micro-electromechanical device such as a liquid drop emitter or a fluid control microvalve is disclosed. The snap-through actuator is comprised of a base element formed with a depression having opposing anchor edges which define a central plane. A deformable element, attached to the base element at the opposing anchor edges, is constructed as a planar lamination including a first layer of a first material having a low coefficient of thermal expansion and a second layer of a second material having a high coefficient of thermal expansion. The deformable element is formed to have a residual shape bowing outward from the central plane in a first direction away from the second layer. The snap-through thermal actuator further comprises apparatus adapted to apply a heat pulse to the deformable element which causes a sudden rise in the temperature of the deformable element.Type: ApplicationFiled: December 18, 2004Publication date: May 12, 2005Inventors: Antonio Cabal, John Lebens, David Trauernicht, David Ross
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Publication number: 20050099462Abstract: A snap-through thermal actuator for a micro-electromechanical device such as a liquid drop emitter or a fluid control microvalve is disclosed. The snap-through actuator is comprised of a base element formed with a depression having opposing anchor edges which define a central plane. A deformable element, attached to the base element at the opposing anchor edges, is constructed as a planar lamination including a first layer of a first material having a low coefficient of thermal expansion and a second layer of a second material having a high coefficient of thermal expansion. The deformable element is formed to have a residual shape bowing outward from the central plane in a first direction away from the second layer. The snap-through thermal actuator further comprises apparatus adapted to apply a heat pulse to the deformable element which causes a sudden rise in the temperature of the deformable element.Type: ApplicationFiled: December 18, 2004Publication date: May 12, 2005Inventors: Antonio Cabal, John Lebens, David Trauernicht, David Ross
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Patent number: 6869169Abstract: A snap-through thermal actuator for a micro-electromechanical device is provided. The snap-through actuator includes a base element formed with a depression having opposing anchor edges which define a central plane. A deformable element, attached to the base element at the opposing anchor edges, is constructed as a planar lamination including a first layer of a first material having a low coefficient of thermal expansion and a second layer of a second material having a high coefficient of thermal expansion. The deformable element is formed to have a residual shape bowing outward from the central plane in a first direction away from the second layer. The snap-through thermal actuator further includes apparatus adapted to apply a heat pulse to the deformable element which causes a sudden rise in the temperature of the deformable element.Type: GrantFiled: May 15, 2002Date of Patent: March 22, 2005Assignee: Eastman Kodak CompanyInventors: Antonio Cabal, John A. Lebens, David P. Trauernicht, David S. Ross
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Publication number: 20050052498Abstract: An apparatus for and method of operating a thermal actuator for a micromechanical device, especially a liquid drop emitter such as an ink jet printhead, is disclosed. The disclosed thermal actuator comprises a base element and a cantilevered element including a thermo-mechanical bender portion extending from the base element to a free end tip. The thermo-mechanical bender portion includes a barrier layer constructed of a dielectric material having low thermal conductivity, a first deflector layer constructed of a first electrically resistive material having a large coefficient of thermal expansion, and a second deflector layer constructed of a second electrically resistive material having a large coefficient of thermal expansion wherein the barrier layer is bonded between the first and second deflector layers.Type: ApplicationFiled: September 29, 2004Publication date: March 10, 2005Inventors: Christopher Delametter, Edward Furlani, John Lebens, David Trauernicht, Antonio Cabal, David Ross, Stephen Pond
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Publication number: 20050052496Abstract: An apparatus for and method of operating a thermal actuator for a micromechanical device, especially a liquid drop emitter such as an ink jet printhead, is disclosed. The disclosed thermal actuator comprises a base element and a cantilevered element including a thermo-mechanical bender portion extending from the base element to a free end tip. The thermo-mechanical bender portion includes a barrier layer constructed of a dielectric material having low thermal conductivity, a first deflector layer constructed of a first electrically resistive material having a large coefficient of thermal expansion, and a second deflector layer constructed of a second electrically resistive material having a large coefficient of thermal expansion wherein the barrier layer is bonded between the first and second deflector layers.Type: ApplicationFiled: September 29, 2004Publication date: March 10, 2005Inventors: Christopher Delametter, Edward Furlani, John Lebens, David Trauernicht, Antonio Cabal, David Ross, Stephen Pond
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Publication number: 20050046671Abstract: An apparatus for a liquid drop emitter, especially for use in an ink jet printhead, is disclosed. A chamber filled with a liquid, a nozzle and a thermo-mechanical actuator, extending into the chamber from at least one wall of the chamber is disclosed. A movable element of the thermo-mechanical actuator is configured with a bending portion which bends when heated. The bending portion comprises a first layer having first and second sides, constructed of a first material having a high coefficient of thermal expansion, a second layer, attached to the second side of the first layer, and a third layer, attached to the first side of the first layer, constructed of a third material having a low thermal conductivity and a low Young's modulus. Apparatus is adapted to apply heat pulses to the bending portion resulting in rapid deflection of the movable element, ejection of a liquid drop, without degradation or vaporization of the liquid.Type: ApplicationFiled: August 28, 2003Publication date: March 3, 2005Inventors: Antonio Cabal, John Lebens, Stephen Pond
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Publication number: 20050046672Abstract: A thermal actuator for a micro-electromechanical device, especially a liquid drop emitter for ink jet printing, is disclosed. The thermal actuator comprises a base element and a movable element extending from the base element and residing at a first position. The movable element includes a barrier layer constructed of a barrier material having low thermal conductivity material, bonded between a first layer and a second layer; wherein the first layer is constructed of a first material having a high coefficient of thermal expansion and the second layer is constructed of a second material having a high thermal conductivity and a high Young's modulus. An apparatus is provided adapted to apply a heat pulse directly to the first layer, causing a thermal expansion of the first layer relative to the second layer and deflection of the movable element to a second position, followed by relaxation of the movable element towards the first position as heat diffuses through the barrier layer to the second layer.Type: ApplicationFiled: August 28, 2003Publication date: March 3, 2005Inventors: Antonio Cabal, John Lebens, Stephen Pond
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Patent number: 6848771Abstract: Methods of operating a thermal actuator, especially for use in a liquid drop emitter for ink jet printing, are disclosed. Methods are disclosed for operating a thermal actuator comprising a base element, a thermo-mechanical element extending from the base element, having a moveable portion residing in a first position and reliably operating at temperatures below a maximum temperature Tmax and including apparatus adapted to apply energy pulses to the thermo-mechanical element to cause a temperature increase therein and movement of the moveable portion to a second position. The methods for operating comprise determining a first energy pulse having a first energy, E1, and a first energy pulse time, t1, for suddenly increasing the temperature of the thermo-mechanical actuator, but not above Tmax.Type: GrantFiled: June 30, 2003Date of Patent: February 1, 2005Assignee: Eastman Kodak CompanyInventor: Antonio Cabal
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Publication number: 20040263546Abstract: Methods of operating a thermal actuator, especially for use in a liquid drop emitter for ink jet printing, are disclosed. Methods are disclosed for operating a thermal actuator comprising a base element, a thermo-mechanical element extending from the base element, having a moveable portion residing in a first position and reliably operating at temperatures below a maximum temperature Tmax and including apparatus adapted to apply energy pulses to the thermo-mechanical element to cause a temperature increase therein and movement of the moveable portion to a second position. The methods for operating comprise determining a first energy pulse having a first energy, E1, and a first energy pulse time, t1, for suddenly increasing the temperature of the thermo-mechanical actuator, but not above Tmax.Type: ApplicationFiled: June 30, 2003Publication date: December 30, 2004Applicant: Eastman Kodak CompanyInventor: Antonio Cabal
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Publication number: 20040263573Abstract: An apparatus for a liquid drop emitter, especially for use in an ink jet printhead, is disclosed. A chamber filled with a liquid, a nozzle and a thermo-mechanical actuator, extending into the chamber from at least one wall of the chamber is disclosed. A movable element of the thermo-mechanical actuator is configured with a bending portion which bends when heated, the bending portion having at least one actuator opening for passage of the liquid. Apparatus is adapted to apply heat pulses to the bending portion resulting in rapid deflection of the movable element, ejection of a liquid drop, and passage of liquid through the at least one actuator opening. A movable element configured as a cantilever or as a beam extending from anchor walls of the chamber is disclosed. The thermo-mechanical actuator may be formed as a laminate structure including a layer constructed of a deflector material having a high coefficient of thermal expansion and that is electrically resistive, for example, titanium aluminide.Type: ApplicationFiled: June 27, 2003Publication date: December 30, 2004Applicant: Eastman Kodak CompanyInventors: Antonio Cabal, John A. Lebens
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Patent number: 6817702Abstract: An apparatus for and method of operating a thermal actuator for a micromechanical device, especially a liquid drop emitter such as an ink jet printhead, is disclosed. The disclosed thermal actuator comprises a base element and a cantilevered element including a thermo-mechanical bender portion extending from the base element to a free end tip. The thermo-mechanical bender portion includes a barrier layer constructed of a dielectric material having low thermal conductivity, a first deflector layer constructed of a first electrically resistive material having a large coefficient of thermal expansion, and a second deflector layer constructed of a second electrically resistive material having a large coefficient of thermal expansion wherein the barrier layer is bonded between the first and second deflector layers.Type: GrantFiled: November 13, 2002Date of Patent: November 16, 2004Assignee: Eastman Kodak CompanyInventors: Christopher N. Delametter, Edward P. Furlani, John A. Lebens, David P. Trauernicht, Antonio Cabal, David S. Ross, Stephen F. Pond
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Publication number: 20040090495Abstract: An apparatus for and method of operating a thermal actuator for a micromechanical device, especially a liquid drop emitter such as an ink jet printhead, is disclosed. The disclosed thermal actuator comprises a base element and a cantilevered element including a thermo-mechanical bender portion extending from the base element to a free end tip. The thermo-mechanical bender portion includes a barrier layer constructed of a dielectric material having low thermal conductivity, a first deflector layer constructed of a first electrically resistive material having a large coefficient of thermal expansion, and a second deflector layer constructed of a second electrically resistive material having a large coefficient of thermal expansion wherein the barrier layer is bonded between the first and second deflector layers.Type: ApplicationFiled: November 13, 2002Publication date: May 13, 2004Applicant: Eastman Kodak CompanyInventors: Christopher N. Delametter, Edward P. Furlani, John A. Lebens, David P. Trauernicht, Antonio Cabal, David S. Ross, Stephen F. Pond
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Publication number: 20030214556Abstract: A snap-through thermal actuator for a micro-electromechanical device such as a liquid drop emitter or a fluid control microvalve is disclosed. The snap-through actuator is comprised of a base element formed with a depression having opposing anchor edges which define a central plane. A deformable element, attached to the base element at the opposing anchor edges, is constructed as a planar lamination including a first layer of a first material having a low coefficient of thermal expansion and a second layer of a second material having a high coefficient of thermal expansion. The deformable element is formed to have a residual shape bowing outward from the central plane in a first direction away from the second layer. The snap-through thermal actuator further comprises apparatus adapted to apply a heat pulse to the deformable element which causes a sudden rise in the temperature of the deformable element.Type: ApplicationFiled: May 15, 2002Publication date: November 20, 2003Applicant: Eastman Kodak CompanyInventors: Antonio Cabal, John A. Lebens, David P. Trauernicht, David S. Ross
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Patent number: 6631979Abstract: An apparatus for a thermal actuator for a micromechanical device, especially a liquid drop emitter is disclosed. The disclosed thermal actuator includes a base element and a cantilevered element extending from the base element a length L and normally residing at a first position before activation. The cantilevered element includes a layer constructed of an electrically resistive material, patterned to have a uniform resistor portion extending a length L, from the base element, wherein 0.3L≦LH≦0.7L. The cantilevered element includes a second layer constructed of a dielectric material having a low coefficient of thermal expansion attached to the first layer. A pair of electrodes connected to the uniform resistor portion to apply an electrical pulse to cause resistive heating, resulting in a thermal expansion of the uniform resistor portion of the first layer relative to the second layer and deflection of the cantilevered element.Type: GrantFiled: January 17, 2002Date of Patent: October 14, 2003Assignee: Eastman Kodak CompanyInventors: John A. Lebens, Antonio Cabal, David S. Ross
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Patent number: 6598960Abstract: An apparatus for and method of operating a thermal actuator for a micromechanical device, especially a liquid drop emitter such as an ink jet printhead, is disclosed. The disclosed thermal actuator comprises a base element and a cantilevered element extending a length L from a base element and normally residing at a first position before activation. The cantilevered element includes a barrier layer constructed of a dielectric material having low thermal conductivity, a first deflector layer constructed of a first electrically resistive material having a large coefficient of thermal expansion and patterned to have a first uniform resistor portion extending a length LH1 from the base element, wherein 0.3L≦LH1≦0.7L, and a second deflector layer constructed of a second electrically resistive material having a large coefficient of thermal expansion and patterned to have a second uniform resistor portion extending a length LH2 from the base element, wherein 0.3L≦LH2≦0.Type: GrantFiled: May 23, 2002Date of Patent: July 29, 2003Assignee: Eastman Kodak CompanyInventors: Antonio Cabal, Edward P. Furlani, John A. Lebens, David P. Trauernicht, David S. Ross
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Publication number: 20030137560Abstract: An apparatus for a thermal actuator for a micromechanical device, especially a liquid drop emitter such as an ink jet printhead, is disclosed. The disclosed thermal actuator comprises a base element and a cantilevered element extending from the base element a length L and normally residing at a first position before activation. The cantilevered element includes a layer constructed of an electrically resistive material, such as titanium aluminide, patterned to have a uniform resistor portion extending a length LH from the base element, wherein 0.3L≦LH≦0.7L. The cantilevered element includes a second layer constructed of a dielectric material having a low coefficient of thermal expansion attached to the first layer.Type: ApplicationFiled: January 17, 2002Publication date: July 24, 2003Applicant: Eastman Kodak CompanyInventors: John A. Lebens, Antonio Cabal, David S. Ross
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Patent number: 6572220Abstract: An ink jet printing apparatus and method for generating droplets of a printing liquid from a nozzle of an inkjet printhead features a temperature responsive vibrating beam constrained at both ends of the beam within or near a nozzle having an exit opening, the beam being continuously vibrated within the printing liquid in response to electrical pulsing applied to the beam so that the beam vibrates at a predetermined frequency and the beam is at a temperature that is characterized by frequency of vibration that is substantially at a local minimum point whereby minor excursions in temperature of the beam from the local minimum point temperature provides substantially minimal changes in frequency and amplitude of vibration of the beam. A heating element located at or near the exit outlet of the nozzle is selectively heated to provide a heat pulse to a meniscus of the printing liquid at the nozzle exit outlet to selectively control droplet formation and/or droplet direction leaving the printhead.Type: GrantFiled: May 21, 2002Date of Patent: June 3, 2003Assignee: Eastman Kodak CompanyInventors: David S. Ross, Antonio Cabal, Gilbert A. Hawkins, John A. Lebens, David P. Trauernicht
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Patent number: 6561616Abstract: For an inkjet printhead (10) with integral compensation for misdirection of ink drops (37) ejected through at least one nozzle (24) of the printhead (10), a system and method of modifying the nozzle cavity space (32a) so as to compensate for the effects of defects in the printhead (10) by altering the direction the ejected ink drops (37). The inkjet printhead (10) comprises at least one reservoir (28) integrated within the membrane (30). The inkjet printhead (10) also comprises a channel (38) extending from the reservoir (28) and terminating in the nozzle cavity (32). A hardening substance (40) within the reservoir (28) and channel (38) is a plastic material having a high thermal expansion coefficient. An internal heater (48) within the reservoir (28) and adjacent the hardening substance (40) is adapted to cause the plastic material (40) to flow in order to form a protrusion (44) of plastic material (40) within the nozzle cavity space (32a).Type: GrantFiled: October 25, 2000Date of Patent: May 13, 2003Assignee: Eastman Kodak CompanyInventors: Gilbert A. Hawkins, Antonio Cabal, David L. Jeanmaire, Christopher N. Delametter