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    • 8. 发明授权
    • Glass funnel with a nearly rectangular cross-sectioned parabolic region especially for a television tube
    • 具有近似矩形横截面的抛物面区域的玻璃漏斗,特别适用于电视管
    • US06353284B1
    • 2002-03-05
    • US09569288
    • 2000-05-12
    • Peter ElfnerAnne SchottStefan Hergott
    • Peter ElfnerAnne SchottStefan Hergott
    • H01J3100
    • H01J29/861H01J2229/8606H01J2229/87
    • The glass funnel for a cathode ray tube includes a cylindrical funnel neck (2); a funnel body (4) having successive transverse cross-sections that change over from a substantially circular shape to a substantially rectangular shape with cross-sectional areas growing continuously in a direction moving away from the funnel neck and a parabolic region (3) arranged between the funnel neck and the funnel body and having respective connecting sections to the funnel neck and the funnel body having corresponding substantially circular cross-sections. The parabolic region (3) has at least one part with a substantially rectangular cross-section and the at least one part is located between the respective connecting sections to the funnel neck and the funnel body. When a cathode ray tube is made from the glass funnel the electron gun is located in the funnel neck and the deflecting coil is arranged around to the parabolic section so that it is substantially closer than in the prior art cathode ray tube. The glass funnel described herein thus provides energy savings and a more precise electron beam guidance than the corresponding prior art glass funnel, when it is incorporated in a cathode ray tube.
    • 用于阴极射线管的玻璃漏斗包括圆筒形漏斗颈(2); 具有连续的横截面的漏斗体(4),所述漏斗体(4)具有从基本上圆形形状向基本上矩形形状的横截面,所述截面面积在远离漏斗颈的方向上连续地生长,并且抛物线区域(3) 漏斗颈部和漏斗体,并且具有到漏斗颈部的相应连接部分,并且漏斗体具有对应的基本圆形的横截面。 抛物线区域(3)具有至少一个具有基本上矩形横截面的部分,并且至少一个部分位于与漏斗颈部和漏斗主体相应的连接部分之间。 当阴极射线管由玻璃漏斗形成时,电子枪位于漏斗颈部,并且偏转线圈围绕抛物线部分设置,使得其基本上比现有技术的阴极射线管更接近。 因此与此相对应的现有技术的玻璃漏斗当玻璃漏斗结合在阴极射线管中时,这里描述的玻璃漏斗提供了节能和更精确的电子束引导。
    • 9. 发明授权
    • Non-pealing anti-reflective film for a cathode ray tube and method of making the same
    • 一种用于阴极射线管的非聚光抗反射膜及其制造方法
    • US06268892B1
    • 2001-07-31
    • US09387739
    • 1999-09-01
    • Hiroshi NishizawaAkira Kondo
    • Hiroshi NishizawaAkira Kondo
    • H04N572
    • H01J29/896G06F1/1609H01J2229/87H04N5/72
    • An anti-reflective film laminated on the display surface of a cathode ray tube which is not prone to pealing with age includes an extension on each of the four sides of the main film surface. The extensions from the main anti-reflective film surface are preferably rectangular and can be wrapped around the sides of the cathode ray tube adjacent to the display surface. A heat shrink band is then constricted around the cathode ray tube to fix the anti-reflective film in place. Strips of conductive material on the extensions of the anti-reflective film can be electrically connected to grounding electrodes on the heat shrink band to allow for the dissipation of static electricity which tends to accumulate on the anti-reflective film. With the heat shrink band securing the anti-reflective film in place over the display surface over the cathode ray tube, the anti-reflective film is not prone to pealing or separation from the display surface of the cathode ray tube.
    • 叠层在不容易老化的阴极射线管的显示面上的防反射膜包括在主膜表面的四个侧面上的延伸部。 主抗反射膜表面的延伸部优选是矩形的,并且可以围绕与显示表面相邻的阴极射线管的侧面缠绕。 然后,热收缩带围绕阴极射线管收缩,以将抗反射膜固定就位。 抗反射膜的延伸部上的导电材料条可以电连接到热收缩带上的接地电极,以允许易于积聚在抗反射膜上的静电消散。 利用热收缩带将抗反射膜固定在阴极射线管的显示表面上的适当位置,抗反射膜不容易从阴极射线管的显示表面剥离或分离。