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    • 7. 发明公开
    • Lamp having a phosphor coating and method of making the same
    • Lampe mit einemPhosphorüberzugund Verfahren zu ihrer Herstellung。
    • EP0678897A3
    • 1997-06-18
    • EP95301983.3
    • 1995-03-24
    • GENERAL ELECTRIC COMPANYTUNGSRAM Részvénytársaság
    • Soules, Thomas FrederickSzigeti, JuditSajo, GaborWhitman, Pamela KayBalazs,Laszlo
    • H01J61/42H01J65/04H01J61/56H01J61/35H01J9/22
    • H01J61/56H01J9/221H01J61/025H01J61/42H01J61/48H01J65/048
    • An electrodeless fluorescent reflector lamp (10) includes a housing arrangement having a threaded screw base (19) for receiving line power and a lamp envelope (12) mounted on the housing arrangement (17). A ballast circuit (24) is disposed within the housing arrangement (17) and is effective for converting line power into an RF signal which excites a fill contained within the lamp envelope (12) to a discharge state thereby resulting in the production of visible light. The lamp envelope (12) is constructed having an upper curved face portion (12a) and a lower tapered portion (12b) which extends partly within the housing (17). A reflective coating (28) is applied to the lower tapered portion (12b) of the lamp envelope (12). A phosphor coating distribution is applied to the interior surface of the lamp envelope in a manner so as to maximize the light output from the reflector lamp (10). The phosphor coating distribution is such that a first thickness of phosphor material is disposed on the lower tapered portion (12b) whereas a second thickness of phosphor material is applied to the upper curved face portion (12a) of the lamp envelope (12). The thickness of the phosphor material applied to the lower tapered portion (12b) is substantially greater than that applied to the upper curved face portion (12a) thereby resulting in improved light output characteristics for the reflector lamp (10).
    • 无电极荧光反射灯(10)包括具有用于接收线路电力的螺纹螺纹基座(19)和安装在壳体装置(17)上的灯壳(12)的壳体装置。 镇流器电路(24)设置在壳体装置(17)内,并且有效地将线路功率转换成将包含在灯壳(12)内的填充物激发到射出状态的RF信号,从而产生可见光 。 灯壳(12)构造成具有部分地在壳体(17)内部延伸的上曲面部分(12a)和下锥形部分(12b)。 反射涂层(28)被施加到灯壳(12)的下锥形部分(12b)。 以使得从反射灯(10)的光输出最大化的方式将荧光体涂层分布施加到灯壳的内表面。 荧光体涂层分布使得第一厚度的荧光体材料设置在下锥形部分(12b)上,而第二厚度的荧光体材料被施加到灯壳(12)的上曲面部分(12a)。 施加到下锥形部分(12b)的荧光体材料的厚度基本上大于施加到上曲面部分(12a)上的荧光材料的厚度,由此导致反射灯(10)的改善的光输出特性。