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    • 2. 发明授权
    • Development method and apparatus and multicolor image forming apparatus
using these
    • 使用这些的显影方法和装置以及多色图像形成装置
    • US5469245A
    • 1995-11-21
    • US121238
    • 1993-09-13
    • Taku AoshimaTsuneo NoamiHiroh SogaTakeshi SumikawaNobumasa FuruyaTadakazu Edure
    • Taku AoshimaTsuneo NoamiHiroh SogaTakeshi SumikawaNobumasa FuruyaTadakazu Edure
    • G03G15/09
    • G03G15/0921
    • The development apparatus of this invention includes a developer supporting body consisting of a rotatable non-magnetic sleeve and a magnet roll fixedly installed within the rotatable non-magnetic sleeve. The development method involves the following steps: a latent image formed on a latent image supporting body is developed or made visible with a two-component developer carried on the developer supporting body in a non-contact manner; a horizontal magnetic field which is orientated in the circumferential direction of the developer supporting body is applied to the developer in an effective development area on the developer supporting body, the effective development area facing the latent image supporting body; and a developer movement promotion magnetic field is applied locally to a part of the effective development area on the developer supporting body so that the developer is expelled from that part of the effective development area and that chains of carrier of the developer in the developer expelled region are slid in the circumferential direction of the developer supporting body. This development method ensures a sufficiently high development performance during the multicolor image forming process without disturbing the toner image formed.
    • 本发明的显影装置包括由可旋转的非磁性套筒和固定地安装在可旋转非磁性套筒内的磁辊组成的显影剂支撑体。 显影方法包括以下步骤:在潜像支撑体上形成的潜像以不接触的方式携带在显影剂支撑体上的双组分显影剂显影或使其可见; 将显影剂支撑体的圆周方向的水平磁场施加到显影剂支撑体上的有效显影区域中的显影剂,该有效显影区域面向潜像支撑体; 并且显影剂运动促进磁场局部施加到显影剂支撑体上的有效显影区域的一部分上,使得显影剂从有效显影区域的该部分排出,并且显影剂排出区域中显影剂的载体链 在显影剂支承体的圆周方向上滑动。 该显影方法确保在多色图像形成过程中具有足够高的显影性能而不干扰形成的调色剂图像。
    • 6. 发明授权
    • Thermal printing ink medium
    • 热敏油墨介质
    • US5387460A
    • 1995-02-07
    • US959438
    • 1992-10-13
    • Susumu HirakataEiichi AkutsuToru OkamotoHiroh SogaShigehito Ando
    • Susumu HirakataEiichi AkutsuToru OkamotoHiroh SogaShigehito Ando
    • B41M5/382B41M5/20B41M5/40B41M5/42B41M5/44B32B7/02
    • B41M5/42B41M5/3825B41M5/426B41M5/44Y10S428/913Y10S428/914Y10T428/24901Y10T428/2495Y10T428/25Y10T428/31504Y10T428/31678Y10T428/31681
    • A thermal printing ink medium which electrically generates heat to transfer an ink thereof to a transfer material to form an image thereon is disclosed, which comprises a first heating element layer, a second heating element layer in contact with said first heating element layer, said second heating element layer having a greater volume resistivity than said first heating element layer, a conductive layer in contact with said second heating element layer, an ink layer provided on the side of said conductive layer opposite to said second heating element layer, and an adhesion-improving layer formed on the interface between said conductive layer and second heating element layer by the interaction therebetween so as to have a given volume resistivity. The thermal printing ink medium has advantages of (1) broadened choice of materials for an ink layer and ease in coloring the ink layer, (2) production ease and economy, (3) stable printing quality, (4) feasibility of repeated use, (5) an increased energy efficiency in image printing, (6) freedom from surface damage, (7) a reduced peak temperature of heat generation in a heat generating layer, and (8) high resolving power.
    • 公开了一种热电印刷油墨介质,其电产生热量以将油墨转印到转印材料上以形成图像,其包括第一加热元件层,与所述第一加热元件层接触的第二加热元件层,所述第二加热元件层 具有比所述第一加热元件层更大的体积电阻率的加热元件层,与所述第二加热元件层接触的导电层,设置在与所述第二加热元件层相对的所述导电层侧的墨层, 通过它们之间的相互作用在所述导电层和第二加热元件层之间的界面上形成的改进层以具有给定的体积电阻率。 热敏印刷油墨介质具有以下优点:(1)油墨层的材料选择范围扩大,油墨层着色容易,(2)生产易于经济,(3)印刷质量稳定,(4)重复使用的可行性, (5)图像打印中的能量效率提高,(6)免受表面损伤,(7)发热层中的发热峰值温度降低,(8)高分辨能力。
    • 10. 发明授权
    • Ink recording medium regenerating method
    • 油墨记录介质再生方法
    • US4976986A
    • 1990-12-11
    • US494186
    • 1990-03-15
    • Eiichi AkutsuHiroh SogaShigehito Ando
    • Eiichi AkutsuHiroh SogaShigehito Ando
    • B05D1/04B41M5/382
    • B41M5/3825
    • Disclosed is a method for regenerating an ink recording medium formed by successively laminating an anisotropic electrically conductive layer, a heating resistor layer for generating heat in response to application of an electric signal, an electrically conductive layer, an ink parting layer, and a heat-melting ink layer, in which the heat-melting ink layer after print-recording with the ink recording medium is regenerated by use of ink particles containing a binding resin and a coloring agent, the improvement is in that by use of the ink recording medium further including an ink parting layer having a thickness of 0.08 to 3 .mu.m, and a volume resistivity of 10.sup.8 .OMEGA. cm or more, the heat-melting ink layer after print-recording with the ink recording medium is electrified with the same polarity as the potential of electrified ink particles, and then the ink particles carried by an ink carrier is deposited on traces of transferred ink formed in the heat-melting ink layer. According to the method, therefore, ink particles can be prevented from depositing onto an untransferred portion of the heat-melting ink layer of the ink recording medium, so that a difference in ink layer thickness between the ink transferred portion (traces of transferred ink) and the untransferred portion can be reduced to thereby make it possible to obtain good printed images even in the case of repeated use for a long term.
    • 公开了一种通过依次层叠各向异性导电层,响应于电信号产生热量的加热电阻层,导电层,分墨层和耐热层而形成的油墨记录介质的再生方法。 通过使用含有粘合树脂和着色剂的油墨颗粒再生利用油墨记录介质进行印刷记录之后的加热熔融油墨层的熔融油墨层的改进在于通过使用油墨记录介质进一步 包括厚度为0.08〜3μm,体积电阻率为10 8Ω·cm以上的油墨分离层,与油墨记录介质的打印记录后的加热熔融油墨层以与电位相同的极性通电 的带电油墨颗粒,然后将由油墨载体携带的油墨颗粒沉积在形成在加热熔融油墨层中的转印油墨的痕迹上。 因此,根据该方法,可以防止油墨颗粒沉积在油墨记录介质的加热熔融油墨层的未转印部分上,使得油墨转印部分(转印油墨痕迹)之间的油墨层厚度差异 并且可以减少未转印部分,从而即使在长期重复使用的情况下也可以获得良好的印刷图像。