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    • 41. 发明申请
    • Lifting substrate with air cushion while printing
    • 在印刷时用气垫提升基材
    • US20130104763A1
    • 2013-05-02
    • US13660307
    • 2012-10-25
    • Soenke DehnDetlef Schulze-Hagenest
    • Soenke DehnDetlef Schulze-Hagenest
    • B41F1/32
    • B41J11/04B41J11/005B41J15/04B41J25/312
    • A device for printing a substrate web moved in a direction of transport past a printing unit includes a substrate web suction device arranged opposite the printing unit. The substrate web suction device has gas inflow openings that are arranged on a jacket surface of the substrate web suction device opposite the printing unit. An underpressure device sucks in air through the gas inflow openings to achieve suction of the substrate web on the substrate web suction device. Printing can be accomplished by guiding the substrate web using the substrate web suction device. Suction is applied through the gas inflow openings to a first region of the substrate web. The first region of the substrate web is printed while the suction is applied.
    • 用于打印沿着运送方向移动经过印刷单元的基片的装置包括布置在印刷单元相对的基片网抽吸装置。 衬底腹板抽吸装置具有气体流入开口,其布置在与印刷单元相对的基板腹片抽吸装置的护套表面上。 负压装置通过气体流入口吸入空气,以实现衬底腹板抽吸装置上的基材腹板的抽吸。 可以通过使用基板腹板抽吸装置引导基底腹板来实现印刷。 通过气体流入开口将吸力施加到衬底腹板的第一区域。 在施加抽吸的同时打印衬底腹板的第一区域。
    • 42. 发明申请
    • DEVELOPING DEVICE AND METHOD
    • US20120155927A1
    • 2012-06-21
    • US13384847
    • 2010-07-08
    • Detlef Schulze-HagenestDomingo Rohde
    • Detlef Schulze-HagenestDomingo Rohde
    • G03G15/08
    • G03G15/0803G03G15/0935G03G2215/0621G03G2215/0634
    • A developing device for transferring toner particles to a photoconductor comprises a container for holding a developer of non-magnetic toner particles and hard magnetic carrier particles, a first developer roller which is at least partially arranged in said container and features a non-magnetic jacket tube and a magnetic core, the jacket tube and the magnetic core each being arranged so as to be rotatable about corresponding rotational axes, and at least a second developer roller which is arranged adjacent to the first developer roller in such a manner that carrier particles with toner particles adhering to them and being carried along by rotation of the first developer roller, contact the second developer roller in order to transfer the toner particles in a contacting manner to the second developer roller, said second developer roller being supported so as to be rotatable about a corresponding rotational axis. There are provided at least one drive unit for rotating the jacket tube, the magnetic core and the second developer roller, each about its respective rotational axis, as well as means for generating an alternating voltage field adjacent to the second developer roller in the region of an adjacent photoconductor. In a method for generating a toner image on a photoconductor, a charge image is first formed on the photoconductor and, subsequently, toner is applied, correspondingly to the charge image, to the photoconductor by way of a developing device. When the toner is being applied, the toner particles are triboelectrically charged in a developer of non-magnetic toner particles and hard magnetic carrier particles, the carrier particles with toner particles adhering to them are brought into contact with and transported by a first developer roller comprising a rotating non-magnetic jacket tube and a magnetic core rotating inside said jacket tube, the toner particles are transferred to a second developer roller arranged adjacent to the first developer roller and rotated in such a manner that carrier particles with the toner particles adhering to them contact the second developer roller, the photoconductor is moved at a prespecified distance along the rotating second developer roller, an alternating voltage field is generated in the region between the second developer roller and the photoconductor in order to generate via this means a cloud of toner particles in this region, and the toner particles are attracted to the photoconductor corresponding to the charge image.
    • 43. 发明申请
    • METHOD OF FIXING A HEAT CURABLE TONER TO A CARRIER
    • 将热固化色粉固定到载体上的方法
    • US20120020697A1
    • 2012-01-26
    • US13133389
    • 2008-12-09
    • Eric Carl StelterDinesh TyagiJames H. HurstDomingo RohdeKnut BehnkeDetlef Schulze-Hagenest
    • Eric Carl StelterDinesh TyagiJames H. HurstDomingo RohdeKnut BehnkeDetlef Schulze-Hagenest
    • G03G21/20G03G13/20G03G15/20
    • G03G15/2007G03G13/20
    • A method and an apparatus of fixing a heat curable toner to a carrier substrate are shown. In the method, a toner applied to a first surface of the carrier substrate is heated above the glass transition temperature of the toner by microwave radiation, using at least one microwave applicator as a first heat source, to thereby initiate thermal cross-linking of polymer chains of said toner. The temperature is kept above the glass transition temperature of the toner for a predetermined time of at least one second, by applying heat to the toner by means of at least one non-contact second heat source, to thereby allow the thermal cross-linking to proceed further and to thereby raise the glass transition temperature of the toner. The apparatus has at least one microwave applicator forming a first heat source, at least one second heat source for heating the toner and/or the carrier substrate, at least one transport mechanism for contacting the carrier substrate on a second side thereof and for transporting the carrier substrate in sequence along the first and second heat sources and at least one controller for controlling the first heat source, the second heat source and/or the transport mechanism such that toner on a first side of the carrier substrate is heated above its glass transition temperature and kept at a temperature above the glass transition temperature for at least one second.
    • 示出了将热固化性调色剂固定在载体基板上的方法和装置。 在该方法中,使用至少一个微波施加器作为第一热源,将通过微波辐射将施加到载体基板的第一表面的调色剂加热到调色剂的玻璃化转变温度以上,从而引发聚合物的热交联 所述调色剂的链。 通过至少一个非接触式第二热源向调色剂施加热量,使温度保持高于调色剂的玻璃化转变温度至少一秒的预定时间,从而允许热交联 进一步进行,从而提高调色剂的玻璃化转变温度。 该设备具有形成第一热源的至少一个微波施加器,用于加热调色剂和/或载体基底的至少一个第二热源,用于在其第二侧接触载体基板的至少一个传送机构, 载体衬底沿着第一和第二热源顺序排列,以及至少一个控制器,用于控制第一热源,第二热源和/或传送机构,使得载体衬底的第一侧上的调色剂被加热到高于其玻璃化转变点 并保持在高于玻璃化转变温度的温度至少一秒钟。
    • 46. 发明申请
    • Uv Impeded Toner
    • Uv阻塞的碳粉
    • US20080089725A1
    • 2008-04-17
    • US11572723
    • 2005-07-12
    • Jose M. Catala-CiveraFrank-Michael MorgenweckDomingo RohdeDetlef Schulze-Hagenest
    • Jose M. Catala-CiveraFrank-Michael MorgenweckDomingo RohdeDetlef Schulze-Hagenest
    • G03G15/20
    • G03G15/2007
    • The invention relates to a method and a heating device for heating at least one printing agent on a printing material (4), which is passed along a transport path through said heating device, comprising at least one microwave applicator (2) and at least one microwave absorber element in the outer perimeter of said microwave applicator.The object of the present invention is to reduce the loss of energy due to microwave radiation exiting from the microwave applicator (5).The object of the invention is achieved in that the minimum of one microwave absorber element is an irradiation device that absorbs microwave radiation and emits electromagnetic radiation, in which case said irradiation device, in accordance with the method herein, is energized by microwave radiation, applies radiation to the printing agent and/or the printing material (4), and thus at least aids the heating process.
    • 本发明涉及一种用于加热打印材料(4)上的至少一种印刷剂的方法和加热装置,该印刷材料沿着传送路径通过所述加热装置,包括至少一个微波施加器(2)和至少一个 所述微波加热器外周的微波吸收元件。 本发明的目的是减少由于从微波加热器(5)射出的微波辐射引起的能量损失。 本发明的目的是实现一个微波吸收元件的最小值是吸收微波辐射并发射电磁辐射的照射装置,在这种情况下,根据本文方法,所述照射装置由微波辐射激发,应用 辐射到印刷剂和/或印刷材料(4),因此至少有助于加热过程。