TH9415A3 - Fluorescent lamp with a ceramic-glass composite electrode - Google Patents

Abstract

DC60 This revelation refers to a fluorescent lamp with a ceramic-glass composite electrode with The higher the dielectric constant, the higher the secondary electron emission, and the higher the polar separation under the same electric field, and therefore the movement of the larger number of electrons and cations. Resulting in more brightness Fluorescent lamps which have a ceramic-glass composite electrode. This includes a glass tube with a phosphor that is applied on its inner surface and is filled with a gas mixture. Inert and metallic vapor With its two ends sealed; And a hollow cylindrical electrode which was provided Are formed at both ends of the glass tube Each hollow cylindrical electrode has a stepped part. Between the middle and its tip, and it is made up of a ceramic-glass composite for the material for that electrode Composite materials, including CaO- MgO-SrO-ZrO2- TiO2 ceramics and glass frit, were used. Which has The higher the dielectric constant, the higher the secondary electron emission, and the higher the polar separation under The same electric field and therefore the movement of more electrons and cations Resulting in more brightness Fluorescent lamps which have a ceramic-glass composite electrode. This includes a glass tube with a phosphor that is directed onto its inner surface and is filled with a gas mixture. Inert and metallic vapor With its two ends sealed; And a hollow cylindrical electrode which was provided Are formed at both ends of the glass tube Each hollow cylindrical electrode has a stepped part. Between the middle and its tip, and it is made up of a ceramic-glass composite for the material for that electrode Composites including CaO- MgO-SrO-ZrO2- TiO2 ceramics and glass frits were used.

Claims (2)

1. a fluorescent lamp which has a ceramic-glass composite electrode consisting of a glass tube which There was a phosphor applied to its inner surface and was added with a mixture of inert gas and metallic vapors, both ends of which were sealed; And hollow cylindrical electrodes, which are held at both ends Side of the glass tube, where each hollow cylindrical electrode has a section which forms a step between the middle and part Its tip and is made up of a ceramic composite CaO- MgO-SrO-ZrO2-TiO2 and glass frit with a content of 0.3-10% by weight depending on the content of all ceramics and ceramics. category CaO-MgO-SrO-ZrO2 -TiO2 contains CaO in the range 0 &lt; CaO &lt; 1 mol, MgO in the range 0 <MGO <1 mol, &NBSP; SRO &NBSP; in the range &NBSP; 0 &NBSP; <&NBSP; SRO &NBSP; <. &NBSP; 1 &NBSP; Mole, &NBSP;, &NBSP; ZRO2 &NBSP; In the range &NBSP; 0 &NBSP; <ZRO2 &NBSP; <&NBSP; 1 &NBSP; Mole, &NBSP; and p of the electrodes are the same as that of the glass tube <9. Resent according to claim 9, where the inner diameter of the middle part is -30 ° C to 250 ° C, the ceramic-glass is higher than that of glass and remains at a constant or decreased level when warming. The level increases in the range from 8. Fluorescent lamps according to claim 1, where the dielectric constant of the composite material between Change the temperature cycle which is not lower than -30 ° C 7. Fluorescent lamp according to claim 1, where the ceramic-glass composite material has no ion radius point 15% or less. Compared to that of MgO-SrO. 6. Fluorescent lamp according to claim 1 where Mgo-SrO was replaced with oxide which had a difference. Make the middle part thicker In such a way that the inner diameter of its middle part is smaller than that of its tip, so 5. Fluorescent lamp according to claim 1, where the steped part of the electrode is created. Using glass glue to seal Conductivity created on its outer surface And its tip is connected to the glass tube by 4. fluorescent lamp according to claim 1, whereby the ceramic-glass composite material electrode has a layer with B2O3 18% by weight, Na2O 4. % Wt., K2O 2% wt., And Al2O3 1% wt. 3. Fluorescent lamp according to claim 1 where glass frit contains 75% SiO2 by molar weight of 1: 0.6: 0.4. 2. The fluorescent lamp according to claim 1, where the glass frit includes SiO2: BaO: CaO at a ratio of 3% by weight or less, depending on its total volume. It may also include one selected from a group containing MnO, 1Al2O3, Cr2O3, and Fe2O3 TiO2 in the range 0 <TiO2 <1 mol, in which CaO + MgO + SrO: ZrO2 + TiO2 is ratio by mo. Equals 1: 1>