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    • 2. 发明授权
    • Image-forming method using heat-sensitive transfer system
    • 使用热敏转印系统的成像方法
    • US07816064B2
    • 2010-10-19
    • US11711696
    • 2007-02-28
    • Kazuaki OgumaYoshio IshiiHisashi MikoshibaHiroshi TakeharaYoshihisa Tsukada
    • Kazuaki OgumaYoshio IshiiHisashi MikoshibaHiroshi TakeharaYoshihisa Tsukada
    • G03C8/00G03F7/00B41M5/20B41M5/24
    • B41M5/52B41M5/385B41M5/3852B41M5/3854B41M5/39B41M5/44B41M2205/02
    • An image-forming method, containing the steps of: superposing a heat-sensitive transfer sheet on a heat-sensitive transfer image-receiving sheet so that the following receptor layer can be contacted with the following thermal transfer layer; and providing thermal energy in accordance with image signals, thereby to form a thermal transfer image;in which the heat-sensitive transfer image-receiving sheet comprises, on a support, a receptor layer containing a polymer latex, and a heat insulation layer containing hollow polymer particles, and the heat-sensitive transfer sheet comprises, on a support, a thermal transfer layer containing any one of compounds represented by formulas (1) to (7): in which, one of Z1 and Z2 represents ═N— and the other represents ═C(R95)—; Z3 and Z4 each independently represents ═N— or ═C(R96)—; R51 to R114 each independently represent a substituent, or a hydrogen atom or a substituent; n8 to n18 each independently represent an integer of 0 to 5, 0 to 4 or 0 to 2.
    • 一种图像形成方法,包括以下步骤:将热敏转印片材叠加在热敏转印图像接收片材上,使得随后的受体层可以与以下热转印层接触; 并根据图像信号提供热能,从而形成热转印图像; 其中所述热敏转印图像接收片材在载体上包含含有聚合物胶乳的受体层和包含中空聚合物颗粒的隔热层,并且所述热敏转印片材在载体上包含热 含有式(1)〜(7)表示的化合物中的任一种的转印层:其中,Z1和Z2中的一个表示= N-,另一个表示= C(R95) - ; Z3和Z4各自独立地表示= N-或= C(R96) - ; R 51〜R 114各自独立地表示取代基,或氢原子或取代基。 n8〜n18各自独立地表示0〜5,0〜4或0〜2的整数。
    • 3. 发明申请
    • Image-forming method using thermal transfer system
    • 使用热转印系统的成像方法
    • US20070213217A1
    • 2007-09-13
    • US11711622
    • 2007-02-28
    • Kazuaki OgumaYoshio IshiiYoshihisa TsukadaHiroshi TakeharaYoshihiko Fujie
    • Kazuaki OgumaYoshio IshiiYoshihisa TsukadaHiroshi TakeharaYoshihiko Fujie
    • B41M5/50
    • B41M5/52B41M5/385B41M5/388B41M5/39B41M5/44B41M2205/02B41M2205/22B41M2205/32
    • An image-forming method, containing the steps of: superposing a heat-sensitive transfer sheet on a heat-sensitive transfer image-receiving sheet so that the following at least one receptor layer of the heat-sensitive transfer image-receiving sheet can be contacted with the following thermal transfer layer of the heat-sensitive transfer sheet; and providing thermal energy in accordance with image signals, thereby to form a thermal transfer image; in which the heat-sensitive transfer image-receiving sheet comprises, on a support, at least one receptor layer containing a polymer latex, and at least one heat insulation layer containing hollow polymer particles but free of any resins having poor resistance to an organic solvent except for the hollow polymer particles, and the heat-sensitive transfer sheet comprises, on a support, a thermal transfer layer containing at least any one of a compound represented by formula (Y), a compound represented by formula (M) and a compound represented by formula (C): in which, in formulas (Y), (M) and (C), X, Y and Z each independently represents =C(D13)— or a nitrogen atom, and D1 to D23 each independently represent a hydrogen atom or a substituent, such as an alkyl group.
    • 一种图像形成方法,包括以下步骤:将热敏转印片材叠加在热敏转印图像接收片材上,使得可以接触热敏转印图像接收片材的以下至少一个受体层 具有热敏转印片的以下热转印层; 并根据图像信号提供热能,从而形成热转印图像; 其中所述热敏转印图像接收片材在载体上包含至少一个含有聚合物胶乳的受体层,以及至少一个含有中空聚合物颗粒但不含有机溶剂耐受性差的树脂的隔热层 除了中空聚合物颗粒之外,热敏转印片在载体上包含含有式(Y)表示的化合物,式(M)表示的化合物和式(M)表示的化合物和化合物 由式(C)表示:其中,在式(Y),(M)和(C)中,X,Y和Z各自独立地表示= C(D 13) - 或氮原子 和D 1〜D 2各自独立地表示氢原子或取代基,例如烷基。
    • 8. 发明授权
    • Method of processing silver halide color photographic lightsensitive material
    • 卤化银彩色照相感光材料的处理方法
    • US06432624B1
    • 2002-08-13
    • US09846397
    • 2001-05-02
    • Makoto KikuchiYoshio IshiiToshio Kawagishi
    • Makoto KikuchiYoshio IshiiToshio Kawagishi
    • G03C7407
    • G03C1/49818G03C1/08G03C1/42G03C5/04G03C7/3022G03C7/407G03C7/4136G03C2001/0055G03C2001/0056G03C2200/52G03C2200/60
    • A method of processing a silver halide color photographic lightsensitive material. The material comprises a support and at least one lightsensitive silver halide emulsion layer containing a binder and lightsensitive silver halide grains comprising tabular grains on the support. The material further comprises a developing agent or its precursor, and a compound capable of forming a dye by a coupling reaction with the developing agent in an oxidized form. The method comprises (a) exposing the material under natural light of 2000-9000 K color temperature or artificial light corresponding thereto, for 1/10-1/1000 sec, in an exposure amount such that 80-90% (numerical ratio) of the grains contained in the lightsensitive layer have at least one development initiating point per grain, and (b) color developing the exposed material so that the tabular grains have 3.0 or more (average) development initiating points per grain at the completion of the development.
    • 一种处理卤化银彩色照相感光材料的方法。 该材料包括载体和至少一种含有粘合剂的光敏卤化银乳剂层和在载体上包含片状颗粒的感光卤化银颗粒。 该材料还包含显影剂或其前体,以及能够通过与显影剂以氧化形式的偶联反应形成染料的化合物。 该方法包括:(a)以2000-9000K色温的自然光或对应于其的人造光使材料曝光1 / 10-1 / 1000秒,曝光量为80-90%(数值比) 包含在感光层中的谷物具有至少一个晶粒的显影起始点,和(b)使曝光的材料彩色显影,使得片状晶粒在显影完成时具有3.0或更多(平均)每颗颗粒的显影起始点。
    • 9. 发明授权
    • Method of determining and correcting processing state of photosensitive
material based on mahalanobis calculation
    • 基于马哈拉诺比斯计算确定和校正感光材料的处理状态的方法
    • US06117601A
    • 2000-09-12
    • US328592
    • 1999-06-10
    • Yukihiko KanazawaShinzo KishimotoJun OkamotoYoshio IshiiYoshihiro Fujita
    • Yukihiko KanazawaShinzo KishimotoJun OkamotoYoshio IshiiYoshihiro Fujita
    • G03D13/00G05B23/02G03F9/00
    • G03D13/007
    • The state of a photosensitive material processing solution is easily determined from values of multi-dimensional analysis by utilizing Mahalanobis distance. The Mahalanobis distance is calculated, and a determination is made as to whether or not the Mahalanobis distance is greater than or equal to a threshold value. If the Mahalanobis distance is less than the threshold value, the processing solution is determined to be normal, the Mahalanobis distance is displayed on a display unit, and a determination is made as to whether or not the number of sets m of normal values has become greater than or equal to a predetermined value m.sub.0. If m.gtoreq.m.sub.0, data of the characteristic values in the oldest set in a time series is deleted, and a set of data of newly detected characteristic values is added to calculate the Mahalanobis distance and update a database. If the Mahalanobis distance is greater than or equal to the predetermined value, a developing solution is determined to have become abnormal, the degree of abnormality is displayed, factors which caused the abnormality are determined, a corrective measure is determined on the basis of a combination pattern of factors, and the measure is displayed.
    • 感光材料处理溶液的状态通过利用马氏距离的多维分析的值容易地确定。 计算马哈拉诺比斯距离,并且确定马哈拉诺比斯距离是否大于或等于阈值。 如果马氏距离小于阈值,则处理方案被确定为正常,在显示单元上显示马哈拉诺比斯距离,并且确定正常值的集合m是否已经变成 大于或等于预定值m0。 如果m> / = m0,则删除时间序列中最旧集合中的特征值的数据,并且添加新检测到的特征值的一组数据以计算马氏距离并更新数据库。 如果马氏距离大于或等于预定值,则确定显影液变得异常,显示异常程度,确定引起异常的因素,基于组合确定校正措施 因素模式,并显示措施。