Patents by Inventor Jamie Kalb
Jamie Kalb 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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Publication number: 20230366093Abstract: Disclosed herein are techniques for transferring particles in a pattern. In one implementation, a particle-transferring system includes a first substrate comprising a first surface configured to support a plurality of particles in a non-uniform pattern, and a particle transfer unit configured to remove the plurality of particles from the first surface in response to the plurality of particles being within a first gap. The system also includes a second substrate configured to remove the plurality of particles from the particle transfer unit and secure the plurality of particles to the second surface in response to the plurality of particles being within a second gap. The particle transfer unit is configured to transfer the plurality of particles and maintain the non-uniform pattern regardless of the positions of the plurality of particles, which are not predefined to fit features of the particle transfer unit.Type: ApplicationFiled: July 12, 2023Publication date: November 16, 2023Inventors: Yunda Wang, Sourobh Raychaudhuri, JengPing Lu, Eugene M. Chow, Julie A. Bert, David Biegelsen, George A. Gibson, Jamie Kalb
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Patent number: 11806927Abstract: A method of providing high-speed three dimensional (3D) printing is described. The method includes producing at least one three dimensional (3D) printed part. Producing the 3D part includes continuously constructing to extend outwardly a diameter of a rotating cylindrical core via continuous deposition of a layer, and defining a first pattern in the continuously deposited layer corresponding to a cross-section of the at least one 3D printed part.Type: GrantFiled: January 4, 2022Date of Patent: November 7, 2023Assignee: Xerox CorporationInventors: Ashish V. Pattekar, Warren Jackson, Anne Plochowietz, Jengping Lu, Jamie Kalb, Christopher L. Chua, Carolyn Moorlag, Eugene Beh
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Patent number: 11806926Abstract: A printing system for producing at least one three dimensional (3D) printed part is described. The printing system includes a deposition system configured to continuously deposit a layer onto a cylinder to outwardly extend a diameter of the cylinder, wherein the layer comprises a first pattern. The printing system also includes a rotating system configured to rotate the cylinder, and a control system configured to synchronize the deposition system with the cylinder.Type: GrantFiled: January 4, 2022Date of Patent: November 7, 2023Assignee: Xerox CorporationInventors: Ashish V. Pattekar, Warren Jackson, Anne Plochowietz, Jengping Lu, Jamie Kalb, Christopher L. Chua, Carolyn Moorlag, Eugene Beh
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Patent number: 11781027Abstract: A composition of matter comprises at least 10 wt % epoxy functionalized two-dimensional shaped particles, carbon nanotubes in the range of 0.1 to 5 wt %, epoxy resin and a curing agent. A method of manufacturing a composition of matter includes mixing epoxy resin, carbon nanotubes and a solvent to produce a material, drying the material, and mixing the material with a curing agent to product the composition of matter. A method of printing a composition of matter includes producing the composition of matter by combining epoxy functionalized graphene, carbon nanotubes, epoxy base resin, and a curing agent, extrusion printing the composition of matter into a desired pattern, and curing the pattern.Type: GrantFiled: June 7, 2021Date of Patent: October 10, 2023Assignee: XEROX CORPORATIONInventors: Rahul Pandey, Junhua Wei, Gabriel Iftime, Jamie Kalb
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Patent number: 11732362Abstract: Disclosed herein are implementations of a particles-transferring system, particle transferring unit, and method of transferring particles in a pattern. In one implementation, a particles-transferring system includes a first substrate including a first surface to support particles in a pattern, particle transferring unit including an outer surface to be offset from the first surface by a first gap, and second substrate including a second surface to be offset from the outer surface by a second gap. The particle transferring unit removes the particles from the first surface in response to the particles being within the first gap, secures the particles in the pattern to the outer surface, and transports the particles in the pattern. The second substrate removes the particles in the pattern from the particle transferring unit in response to the particles being within the second gap. The particles are to be secured in the pattern to the second surface.Type: GrantFiled: February 4, 2020Date of Patent: August 22, 2023Assignees: Xerox Corporation, Palo Alto Research Center IncorporatedInventors: Yunda Wang, Sourobh Raychaudhuri, JengPing Lu, Eugene M. Chow, Julie A. Bert, David Biegelsen, George A. Gibson, Jamie Kalb
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Publication number: 20230234083Abstract: An apparatus includes a first belt having an external surface, a second belt having an external surface positioned with the external surface opposite to the external surface of the first belt, with a region in which the first belt and the second belt come in contact, a first set of guide devices arranged inside the first belt, a second set of guide devices inside the second belt, a first material dispenser positioned to allow a first material to be dispensed on the external surface at least one of the first and second belts, a second material dispenser positioned to allow a second material to be dispensed on the external surface at least one of the first and second belts, and a power source to cause at least one of the guide devices in at least one of the first set and the second set of guide devices to cause at least one of the first and second belts to move to cause the external surfaces of the first and second belts contact and then diverge away from each other so that at least one of the first material anType: ApplicationFiled: January 27, 2022Publication date: July 27, 2023Inventors: RAVI NEELAKANTAN, JAMIE KALB, DAVID MATHEW JOHNSON, JOERG MARTINI
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Publication number: 20220389247Abstract: A composition of matter comprises at least 10 wt % epoxy functionalized two-dimensional shaped particles, carbon nanotubes in the range of 0.1 to 5 wt %, epoxy resin and a curing agent. A method of manufacturing a composition of matter includes mixing epoxy resin, carbon nanotubes and a solvent to produce a material, drying the material, and mixing the material with a curing agent to product the composition of matter. A method of printing a composition of matter includes producing the composition of matter by combining epoxy functionalized graphene, carbon nanotubes, epoxy base resin, and a curing agent, extrusion printing the composition of matter into a desired pattern, and curing the pattern.Type: ApplicationFiled: June 7, 2021Publication date: December 8, 2022Inventors: Rahul Pandey, Junhua Wei, Gabriel Iftime, Jamie Kalb
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Publication number: 20220143329Abstract: A docking station for a hand-held filament extension atomizer device includes a receiver to receive the device, station electronics, a recharging point for the device arranged to connect with a power source of the device, a power connection to an alternating current power source, and a cleaning reservoir of cleaning solution. A method of operating hand-held dispenser to dispense fluid as a mist includes receiving a signal at a motor contained in a casing in response to a user triggering an actuator on the casing, activating the motor to provide fluid to a filament extension atomizer contained in the case from a reservoir contained in the casing, the motor to cause the filament extension atomizer to generate a mist, and using an air source contained in the casing arranged adjacent the filament extension atomizer to provide air flow to direct the mist to a nozzle that is arranged to allow the mist to exit the casing.Type: ApplicationFiled: January 20, 2022Publication date: May 12, 2022Inventors: MICHAEL BENEDICT, DAVID MATHEW JOHNSON, SCOTT E. SOLBERG, JAMIE KALB, RAVI NEELAKANTAN, JEROME UNIDAD, DAVID CHARLES TAYLOR, FRANCES YAN
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Publication number: 20220126509Abstract: A printing system for producing at least one three dimensional (3D) printed part is described. The printing system includes a deposition system configured to continuously deposit a layer onto a cylinder to outwardly extend a diameter of the cylinder, wherein the layer comprises a first pattern. The printing system also includes a rotating system configured to rotate the cylinder, and a control system configured to synchronize the deposition system with the cylinder.Type: ApplicationFiled: January 4, 2022Publication date: April 28, 2022Inventors: Ashish V. Pattekar, Warren Jackson, Anne Plochowietz, Jengping Lu, Jamie Kalb, Christopher L. Chua, Carolyn Moorlag, Eugene Beh
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Publication number: 20220126510Abstract: A method of providing high-speed three dimensional (3D) printing is described. The method includes producing at least one three dimensional (3D) printed part. Producing the 3D part includes continuously constructing to extend outwardly a diameter of a rotating cylindrical core via continuous deposition of a layer, and defining a first pattern in the continuously deposited layer corresponding to a cross-section of the at least one 3D printed part.Type: ApplicationFiled: January 4, 2022Publication date: April 28, 2022Inventors: Ashish V. Pattekar, Warren Jackson, Anne Plochowietz, Jengping Lu, Jamie Kalb, Christopher L. Chua, Carolyn Moorlag, Eugene Beh
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Patent number: 11279084Abstract: A method for providing high-speed three dimensional (3D) printing is provided. The method includes producing at least one three dimensional (3D) printed part. Producing the 3D part includes continuously constructing to extend outwardly a diameter of a rotating cylindrical core via continuous deposition of a layer, and defining a first pattern in the continuously deposited layer corresponding to a cross-section of the at least one 3D printed part.Type: GrantFiled: December 31, 2018Date of Patent: March 22, 2022Assignees: Xerox Corporation, Palo Alto Research Center IncorporatedInventors: Ashish V. Pattekar, Warren Jackson, Anne Plochowietz, Jengping Lu, Jamie Kalb, Christopher L. Chua, Carolyn Moorlag, Eugene Beh
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Patent number: 11246997Abstract: A hand-held dispenser to dispense fluid includes a casing to fit into a hand of a user, a nozzle in the casing to dispense a mist, a fluid reservoir contained in the casing to hold a fluid to be turned into the mist, a filament extension atomizer contained in the casing to generate the mist, an air source contained in the casing to provide air flow to direct the mist to the nozzle, a motor contained in the casing to operate the filament extension atomizer, an actuator positioned on the casing to activate the dispenser, a control circuit contained in the casing to receive a signal from the actuator and to send a signal to the motor to cause the motor to actuate, and a power source contained in the casing to provide power to the motor upon receive a signal from the control circuit.Type: GrantFiled: September 25, 2018Date of Patent: February 15, 2022Assignee: Palo Alto Research Center IncorporatedInventors: Michael Benedict, David Mathew Johnson, Scott E. Solberg, Jamie Kalb, Ravi Neelakantan, Jerome Unidad, David Charles Taylor, Frances Yan
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Patent number: 10953425Abstract: An aerosol creation system can include a pair of counter-rotating rollers configured to be positioned adjacent each other and define a nip between each other, a fluid source configured to provide a fluid to the nip, a driving element configured to drive the pair of counter-rotating rollers to rotate in counter rotation with respect to each other and cause the fluid to be drawn through the nip, and a collection shell configured to be positioned substantially around the pair of counter-rotating rollers, the collection shell having a nozzle configured to allow passage of the fluid from the nip.Type: GrantFiled: April 25, 2018Date of Patent: March 23, 2021Assignee: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Herwin Jerome Unidad, Ravi Neelakantan, Jamie Kalb, Elif Karatay
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Publication number: 20200207015Abstract: A method for providing high-speed three dimensional (3D) printing is provided. The method includes producing at least one three dimensional (3D) printed part. Producing the 3D part includes continuously constructing to extend outwardly a diameter of a rotating cylindrical core via continuous deposition of a layer, and defining a first pattern in the continuously deposited layer corresponding to a cross-section of the at least one 3D printed part.Type: ApplicationFiled: December 31, 2018Publication date: July 2, 2020Inventors: Ashish V. Pattekar, Warren Jackson, Anne Plochowietz, Jengping Lu, Jamie Kalb, Christopher L. Chua, Carolyn Moorlag, Eugene Beh
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Publication number: 20200173026Abstract: Disclosed herein are implementations of a particles-transferring system, particle transferring unit, and method of transferring particles in a pattern. In one implementation, a particles-transferring system includes a first substrate including a first surface to support particles in a pattern, particle transferring unit including an outer surface to be offset from the first surface by a first gap, and second substrate including a second surface to be offset from the outer surface by a second gap. The particle transferring unit removes the particles from the first surface in response to the particles being within the first gap, secures the particles in the pattern to the outer surface, and transports the particles in the pattern. The second substrate removes the particles in the pattern from the particle transferring unit in response to the particles being within the second gap. The particles are to be secured in the pattern to the second surface.Type: ApplicationFiled: February 4, 2020Publication date: June 4, 2020Inventors: Yunda Wang, Sourobh Raychaudhuri, JengPing Lu, Eugene M. Chow, Julie A. Bert, David Biegelsen, George A. Gibson, Jamie Kalb
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Patent number: 10604843Abstract: Disclosed herein are implementations of a particles-transferring system, particle transferring unit, and method of transferring particles in a pattern. In one implementation, a particles-transferring system includes a first substrate including a first surface to support particles in a pattern, particle transferring unit including an outer surface to be offset from the first surface by a first gap, and second substrate including a second surface to be offset from the outer surface by a second gap. The particle transferring unit removes the particles from the first surface in response to the particles being within the first gap, secures the particles in the pattern to the outer surface, and transports the particles in the pattern. The second substrate removes the particles in the pattern from the particle transferring unit in response to the particles being within the second gap. The particles are to be secured in the pattern to the second surface.Type: GrantFiled: May 10, 2017Date of Patent: March 31, 2020Assignees: XEROX CORPORATION, PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Yunda Wang, Sourobh Raychaudhuri, JengPing Lu, Eugene M. Chow, Julie A. Bert, David Biegelsen, George A. Gibson, Jamie Kalb
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Publication number: 20200093998Abstract: A hand-held dispenser to dispense fluid includes a casing to fit into a hand of a user, a nozzle in the casing to dispense a mist, a fluid reservoir contained in the casing to hold a fluid to be turned into the mist, a filament extension atomizer contained in the casing to generate the mist, an air source contained in the casing to provide air flow to direct the mist to the nozzle, a motor contained in the casing to operate the filament extension atomizer, an actuator positioned on the casing to activate the dispenser, a control circuit contained in the casing to receive a signal from the actuator and to send a signal to the motor to cause the motor to actuate, and a power source contained in the casing to provide power to the motor upon receive a signal from the control circuit.Type: ApplicationFiled: September 25, 2018Publication date: March 26, 2020Inventors: MICHAEL BENEDICT, DAVID MATHEW JOHNSON, SCOTT E. SOLBERG, JAMIE KALB, RAVI NEELAKANTAN, JEROME UNIDAD, DAVID CHARLES TAYLOR, FRANCES YAN
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Publication number: 20190329278Abstract: An aerosol creation system can include a pair of counter-rotating rollers configured to be positioned adjacent each other and define a nip between each other, a fluid source configured to provide a fluid to the nip, a driving element configured to drive the pair of counter-rotating rollers to rotate in counter rotation with respect to each other and cause the fluid to be drawn through the nip, and a collection shell configured to be positioned substantially around the pair of counter-rotating rollers, the collection shell having a nozzle configured to allow passage of the fluid from the nip.Type: ApplicationFiled: April 25, 2018Publication date: October 31, 2019Inventors: HERWIN JEROME UNIDAD, RAVI NEELAKANTAN, JAMIE KALB, ELIF KARATAY
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Publication number: 20180327905Abstract: Disclosed herein are implementations of a particles-transferring system, particle transferring unit, and method of transferring particles in a pattern. In one implementation, a particles-transferring system includes a first substrate including a first surface to support particles in a pattern, particle transferring unit including an outer surface to be offset from the first surface by a first gap, and second substrate including a second surface to be offset from the outer surface by a second gap. The particle transferring unit removes the particles from the first surface in response to the particles being within the first gap, secures the particles in the pattern to the outer surface, and transports the particles in the pattern. The second substrate removes the particles in the pattern from the particle transferring unit in response to the particles being within the second gap. The particles are to be secured in the pattern to the second surface.Type: ApplicationFiled: May 10, 2017Publication date: November 15, 2018Inventors: Yunda Wang, Sourobh Raychaudhuri, JengPing Lu, Eugene M. Chow, Julie A. Bert, David Biegelsen, George A. Gibson, Jamie Kalb