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    • 1. 发明授权
    • Apparatus for making a heat-sensitive stencil
    • 用于制作热敏模板的装置
    • US06755126B2
    • 2004-06-29
    • US10448233
    • 2003-05-30
    • Jun NakamuraKenji Ohshima
    • Jun NakamuraKenji Ohshima
    • B41C114
    • B41C1/144B41J2/33545B41J2/3357B41J2202/32Y10T442/697Y10T442/698
    • A stencil is made by thermally forming perforations arranged in both a main scanning direction and a sub-scanning direction in a thermoplastic resin film of heat-sensitive stencil material by the use of a heat source which is heated through supply of energy. Supply of energy to the heat source is cut when a time interval not shorter than 50% and not longer than 100% of an estimated perforating time lapses from the time at which supply of energy to the heat source is started. The estimated perforating time is a time interval expected to be necessary for a perforation to be produced by the heat of the heat source and to be enlarged to a desired size as a final size as measured from the time at which supply of energy to the heat source is started.
    • 通过使用通过供应能量加热的热源,在热敏蜡纸材料的热塑性树脂膜中热成型布置在主扫描方向和副扫描方向上的穿孔来制造模版。 当从能量供应到热源的时间开始时估计的穿孔时间的时间间隔不小于50%并且不超过100%的时间间隔,向热源供应能量被切断。 估计的穿孔时间是期望由热源产生的穿孔所需的时间间隔,并且从从能量供应到热量的时间测量的最终尺寸扩大到期望的尺寸 来源开始。
    • 4. 发明申请
    • Color thermal printer
    • 彩色热敏打印机
    • US20010019352A1
    • 2001-09-06
    • US09797810
    • 2001-03-05
    • Takao Miyazaki
    • B41J002/325B41J011/00
    • B41J11/42B41J2/315B41J2202/32
    • A thermal printer has a conveyor roller set and three thermal heads along a feeding passage. In feeding a recording sheet, a pinch roller is deformed by pressing force of a capstan roller. In addition, platen rollers are also deformed by respective thermal heads. The feeding passage is bent to form V-shape at the feeding roller set and respective thermal heads, so the recording sheet is prevented from waving. By bending the feeding passage, the recording sheet is prevented from waving, so deviation in feeding speed is decreased even when the load to the recording sheet is changed. Moreover, since all thermal heads press the recording sheet simultaneously and are retracted to decrease the pressing force gradually after thermal recording, it is possible to decrease deviation in the load to the recording sheet.
    • 热敏打印机具有输送辊组和沿着进料通道的三个热敏头。 在馈送记录纸时,夹送辊通过绞盘辊的压力而变形。 此外,压纸辊也被相应的热敏头变形。 进给通道在进给辊组和相应的热敏头处被弯曲以形成V形,从而防止记录纸张波动。 通过弯曲馈送通道,防止记录纸张挥动,因此即使当改变记录纸张的负荷时,进给速度的偏差降低。 此外,由于所有热敏头同时按压记录纸并且在热记录之后逐渐缩回以降低按压力,所以可以减小记录纸的负荷偏差。
    • 5. 发明授权
    • Color thermosensitive printer and optical fixing device therefor
    • 彩色热敏打印机及其光学固定装置
    • US06181359B2
    • 2001-01-30
    • US09572837
    • 2000-05-16
    • Kanji Nakanishi
    • Kanji Nakanishi
    • B41J2315
    • B41J2/32B41J2202/32B41J2202/34B41M5/34
    • There is disclosed a color thermosensitive printer which has a thermal head mounted on a carriage to scan the thermal head in opposite directions across a width of a color thermosensitive recording the recording paper. Yellow and magenta fixing members have linear tube lamps that are disposed across the width of the recording paper along the scanning directions of the thermal head. First and second exposure openings are formed through the carriage before and behind the thermal head with respect to a forward scanning direction. As the carriage moves in the forward scanning direction, the thermal head records yellow pixels on a yellow thermosensitive color layer of the recording paper, and the yellow fixing rays are projected onto the recording paper through the second exposure opening that follows behind the thermal head in the forward scanning direction. As the carriage moves in the reverse scanning direction, the thermal head records magenta pixels on a magenta thermosensitive color layer of the recording paper, and the magenta fixing rays are projected onto the recording paper through the first exposure opening that follows behind the thermal head in the reverse scanning direction.
    • 公开了一种彩色热敏打印机,其具有安装在托架上的热敏打印头,用于沿着彩色热敏记录记录纸的宽度在相反方向扫描热敏头。 黄色和品红色固定构件具有沿热敏头的扫描方向设置在记录纸的宽度上的线状管灯。 第一和第二曝光开口通过相对于正向扫描方向的热敏头之前和之后的滑架形成。 当托架沿正向扫描方向移动时,热敏头记录在记录纸的黄色热敏彩色层上的黄色像素,并且黄色固定光线通过热敏头之后的第二曝光开口投影到记录纸上 正向扫描方向。 当托架沿反向扫描方向移动时,热敏头记录在记录纸的品红色热敏彩色层上的品红色像素,并且品红色固定光线通过热敏头之后的第一曝光开口投影到记录纸上 反向扫描方向。
    • 6. 发明申请
    • STENCIL PRINTING APPARATUS
    • STENCIL打印设备
    • US20080302259A1
    • 2008-12-11
    • US12026047
    • 2008-02-05
    • Satoshi KatohKengo Tsubaki
    • Satoshi KatohKengo Tsubaki
    • B41C1/14
    • B41J2/32B41J2202/32
    • A stencil printing apparatus with a plate-making device has first control means for executing a special plate-making mode for performing a plate-making operation so that perforated holes to be formed in a film of a master by heating and driving with regard to odd bits corresponding to odd-numbered heat generators and even bits corresponding to even-numbered heat generators are formed in different lines running in the main scanning direction, and so that the perforated holes to be formed on the film by heating and driving with regard to the odd bits and the even bits adjacent to each other are not arranged adjacent to each other in the same line in the main scanning direction.
    • 具有制版装置的模版印刷装置具有第一控制装置,用于执行用于进行制版操作的特殊制版模式,使得通过加热和驱动来形成在主体的胶片中的多孔孔相对于奇数 在与主扫描方向相反的不同的线上形成与奇数发热体相对应的位,与偶数发热体对应的偶数位,形成在薄膜上的多孔孔相对于 奇数位和彼此相邻的偶数位在主扫描方向上不以相同的行彼此相邻布置。
    • 8. 发明授权
    • Heat sensitive stencil material
    • 热敏模板材料
    • US06758138B2
    • 2004-07-06
    • US10448232
    • 2003-05-30
    • Jun NakamuraKenji Ohshima
    • Jun NakamuraKenji Ohshima
    • B41N124
    • B41C1/144B41J2/33545B41J2/3357B41J2202/32Y10T442/697Y10T442/698
    • A stencil is made by thermally forming perforations arranged in both a main scanning direction and a sub-scanning direction in a thermoplastic resin film of heat-sensitive stencil material by the use of a heat source which is heated through supply of energy. Supply of energy to the heat source is cut when a time interval not shorter than 50% and not longer than 100% of an estimated perforating time lapses from the time at which supply of energy to the heat source is started. The estimated perforating time is a time interval expected to be necessary for a perforation to be produced by the heat of the heat source and to be enlarged to a desired size as a final size as measured from the time at which supply of energy to the heat source is started.
    • 通过使用通过供应能量加热的热源,在热敏蜡纸材料的热塑性树脂膜中热成型布置在主扫描方向和副扫描方向上的穿孔来制造模版。 当从能量供应到热源的时间开始时估计的穿孔时间的时间间隔不小于50%并且不超过100%的时间间隔,向热源供应能量被切断。 估计的穿孔时间是期望由热源产生的穿孔所需的时间间隔,并且从从能量供应到热量的时间测量的最终尺寸扩大到期望的尺寸 来源开始。
    • 9. 发明授权
    • Gloss control apparatus and method
    • 光泽度控制装置及方法
    • US6164849A
    • 2000-12-26
    • US139888
    • 1998-08-25
    • Noboru Koyama
    • Noboru Koyama
    • B41J2/355B41J2/315
    • B41J2/355B41J2202/32
    • A gloss control apparatus and a gloss control method for achieving even glossiness of an image recording surface of a heat-sensitive recording medium on which an image has been recorded and for controlling the glossiness as desired. In addition, process time and thermal energy required for achieving even glossiness are reduced. A CPU determines thermal energy corresponding to a desired glossiness based on gloss characteristic information about thermal energy and glossiness of the recording medium stored in the internal memory. The CPU controls a thermal head through a head controller so that the determined thermal energy is evenly applied to all over the image recording surface of the medium on which the image has been recorded. Evenness of glossiness of the medium after image recording is thus achieved so that the glossiness the user desires is obtained.
    • 一种光泽控制装置和光泽控制方法,用于实现已经记录了图像的热敏记录介质的图像记录表面的均匀的光泽度并且根据需要控制光泽度。 另外,降低了达到均匀光泽度所需的加工时间和热能。 CPU基于存储在内部存储器中的记录介质的热能和光泽度的光泽特性信息来确定对应于所需光泽度的热能。 CPU通过头控制器控制热头,使得确定的热能均匀地施加到已经记录了图像的介质的图像记录表面的整个图像记录表面上。 因此,能够实现图像记录后的介质的光泽度均匀性,从而获得用户期望的光泽度。
    • 10. 发明授权
    • Thermal head control method and device for making a stencil master plate
    • 热敏头控制方法和制作模版母板的装置
    • US5963241A
    • 1999-10-05
    • US886027
    • 1997-06-30
    • Ryuji HigaJunji TakahashiMusashi Hirata
    • Ryuji HigaJunji TakahashiMusashi Hirata
    • B41C1/055B41C1/14B41J2/365B41J2/38B41J2/36
    • B41J2/365B41C1/144B41J2/38B41J2202/32
    • In a thermal head control method for thermally making a stencil master plate from a thermal stencil master plate sheet in the manner of a dot matrix for each line and forming an independent hole for each dot, a physical quantity representing the temperature of the thermal head, such as a time interval Ti for the plate making action by the thermal head for each line and a temperature actually measured from the thermal head, is measured before the plate making action of the next line. The measured temperature is compared with a prescribed value, and if the temperature is lower than the prescribed value, the thermal head is driven (pre-heated) at a power level which is lower than the rated power output and would not affect the thermal stencil master plate sheet. The effective heat emitting property of the thermal head is made uniform without regards to other factors, and a satisfactory perforation is carried out on a thermal stencil master plate sheet at all times.
    • 在热头控制方法中,用于以每个线的点阵的方式从热模板母板片制造模版母板并为每个点形成独立的孔,表示热敏头的温度的物理量, 例如用于每行的热敏头的制版动作的时间间隔Ti和从热敏头实际测量的温度,在下一行的制版动作之前测量。 将测量温度与规定值进行比较,如果温度低于规定值,则热头被驱动(预热),功率水平低于额定功率输出,不会影响热模板 主板。 热头的有效发热特性在不考虑其他因素的情况下是均匀的,并且在热模版母板上始终进行令人满意的穿孔。