Abstract: Provided are systems and methods for the post-treatment of dry adhesive microstructures. The microstructures may be post-treated to comprise mushroom-like flaps at their tips to interface with the contact surface. In some aspects, a change in material composition of the microstructures in a dry adhesive may affect mechanical properties to enhance or diminish overall adhesive performance. For example, conductive additives can be added to the material to improve adhesive performance. In other aspects, microstructures comprising conductive material may allow for pre-load engagement sensing systems to be integrated into the microstructures.
Type:
Grant
Filed:
May 7, 2019
Date of Patent:
May 5, 2020
Assignee:
ONROBOT LOS ANGELES INC.
Inventors:
Mohammad Dadkhah Tehrani, Nicholas Wettels
Abstract: A disclosed image forming apparatus includes a recording head having a nozzle capable of ejecting inductive ink including water, a first intermediate transfer body having a conductive surface on which an ink image is to be formed by temporarily forming a liquid-column bridge between the conductive surface and the nozzle, the liquid-column bridge being made of the inductive ink, a voltage application unit applying a voltage between the inductive ink and the conductive surface so that water included in the liquid-column bridge is electrolyzed, and a transfer unit transferring an ink image formed on the first intermediate transfer body to a recording medium.
Type:
Grant
Filed:
November 5, 2009
Date of Patent:
June 10, 2014
Assignee:
Ricoh Company, Ltd.
Inventors:
Takeo Tsukamoto, Yuuma Usui, Manabu Seo, Aino Hasegawa, Takeshi Orito, Ryota Suzuki
Abstract: A compliant micro device transfer head and head array are disclosed. In an embodiment a micro device transfer head includes a spring portion that is deflectable into a space between a base substrate and the spring portion.
Type:
Application
Filed:
May 8, 2012
Publication date:
November 14, 2013
Inventors:
Andreas Bibl, John A. Higginson, Hsin-Hua Hu
Abstract: Systems and methods are described that facilitate using TFT control of electronic discharge for surface potential reduction and latent image formation on an imaging member. Corona charging is performed to first create a background surface potential, followed by selective discharge of individual pixels using an array of TFTs to supply free charge carriers to reduce the electrostatic surface potential to nearly zero. This is followed by discharged area development (DAD) to develop the latent image on a print medium (e.g., paper). The described systems and methods do not require a HVPS to drive the backplane; therefore, the TFT matrix is electrostatically decoupled from the developer and other system components in direct contact with the imaging member. Accordingly, known addressing systems may be used to address the TFT array.
Type:
Application
Filed:
February 6, 2009
Publication date:
August 12, 2010
Applicant:
XEROX CORPORATION
Inventors:
Vladislav Skorokhod, Gregory McGuire, Robert A. Street
Abstract: A flocked substrate that can be printed in non-impact printers and photocopiers, including bubble jet, piezoelectric and LaserJet printers, a method of printing on flocked substrate using that flocked substrate, and a jigsaw puzzle made using the printed flocked substrate, with an adhesive backing.
Abstract: Disclosed are an electrification apparatus and an image forming apparatus which reduce ozone generation, provide uniform electrification of a photosensitive body, and have high durability. This electrification apparatus comprises: a first magnet means composed of a magnetized base body obtained by magnetizing a base body of the photosensitive body drum or a magnet configured inside of the base body of the photosensitive body drum; a second magnet means magnetically levitated outside of the photosensitive body drum by the first magnet means; and a discharge electrode firmly attached to a face of the second magnet means opposed to the photosensitive body surface, the discharge electrode having a predetermined distance to the photosensitive body surface.
Abstract: In recording of information, a voltage is applied to between a probe and a recording medium. A capacitor stores charges from a DC power supply. A switch is provided so as to disconnect the capacitor and the DC power supply. When information is to be recorded, the capacitor and the DC power supply are disconnected from each other by the switch and the charges stored in the capacitor are output to the probe or recording medium.
Abstract: Disclosed is a recording apparatus comprising a recording member having a recording surface with a variably conductive surface. The recording member may also have a conductive layer under a dielectric layer. Print heads for recording electronic images on dielectric surfaces are also disclosed.
Abstract: A method and apparatus are provided for "field effect imaging" of moving substrates, such as webs of paper. Non-conductive, non-magnetic toner having approximately a 5-20 micron mean particle size is electrically charged to a level of at least about 8 micro Coulombs/gram and then a first roller with a conductive surface is brought into operative association with the electrically charged toner so that toner particles adhere to the surface. The toner particles are preferably maintained in an electrostatic fluidized bed, and charged by a corona element in the bed. An array of pin or stylus primary electrodes are selectively energized or de-energized to provide no-write or write condition, respectively using a computer to switch the electrodes into or out of operative connection to a source of electrical potential.
Abstract: A method, device and system for utilizing a pixelized ungated linear array of field emitters and an integrated electrode-media surface to either detect the presence of charge on the surface in a given two-dimensional pattern, or to deposit charge on the surface in a desired two-dimensional pattern. The methods, devices and systems disclosed are particularly useful in the arts of printing, scanning and copying. In one embodiment designed for printing, a pixelized surface may be utilized to receive a charge pattern from the ungated linear field emitter array. In one embodiment designed for scanning, a pixelized transfer sheet may be utilized to transfer a two-dimensional charge pattern from a photostatic surface thereto for sensing and detection by the ungated linear field emitter array.
Type:
Grant
Filed:
September 30, 1996
Date of Patent:
May 11, 1999
Assignees:
Science Applications International Corporation, Craig Jeffrey Mathias
Inventors:
Douglas Andrew Kirkpatrick, Craig Jeffrey Mathias, Adam Thomas Drobot
Abstract: A method and apparatus are provided for "field effect imaging" of moving substrates, such as webs of paper. Non-conductive, nonmagnetic toner having approximately a 5-20 micron mean particle size is electrically charged to a level of at least about 8 micro Coulombs/gram and then a first roller with a conductive surface is brought into operative association with the electrically charged toner so that toner particles adhere to the surface. The toner particles are preferably maintained in an electrostatic fluidized bed, and charged by a corona element in the bed. An array of pin or stylus primary electrodes are selectively energized or de-energized to provide no-write or write condition, respectively using a computer to switch the electrodes into or out of operative connection to a source of electrical potential.
Abstract: A print head having a plurality of voltage delivery points for recording electronic images on a dielectric recording surface is also disclosed, along with the recording member. The print head may write using alternating current sources.
Abstract: A method and apparatus are provided for "field effect imaging" of moving substrates, such as webs of paper. Non-conductive, non-magnetic toner having approximately a 5-20 micron mean particle size is electrically charged to a level of at least about 8 micro Coulombs/gram and then a first roller with a conductive surface is brought into operative association with the electrically charged toner so that toner particles adhere to the surface. The toner particles are preferably maintained in an electrostatic fluidized bed, and charged by a corona element in the bed. An array of pin or stylus primary electrodes are selectively energized or de-energized to provide no-write or write condition, respectively using a computer to switch the electrodes into or out of operative connection to a source of electrical potential.