Electric lamp and discharge devices – With luminescent solid or liquid material – With gaseous discharge medium
Reexamination Certificate
1999-11-29
2002-04-09
Patel, Nimeshkumar D. (Department: 2879)
Electric lamp and discharge devices
With luminescent solid or liquid material
With gaseous discharge medium
C313S486000, C313S635000
Reexamination Certificate
active
06369502
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a low pressure mercury vapor discharge lamp, and, more particularly, to a discharge lamp having a doped phosphor coating on the internal surface of the discharge envelope next to the discharge space.
BACKGROUND OF THE INVENTION
A well known unfavorable feature of low pressure discharge lamps containing ionizable gas fill and mercury vapor in a glass envelope the interior surface of which is provided with phosphor coating (e.g. fluorescent lamps) is that the luminous output is continuously decreasing during the life time of the lamp. This phenomenon originates from several root causes among which reactions taking place between the mercury vapor discharge and the phosphor coating and/or the glass play a significant role. In order to compensate mercury consumption originating from said reactions, more mercury is dosed into the discharge envelope of the lamps. This is on one hand environmentally unfriendly and on the other hand can lead to serious environmental pollution when lamps of unacceptable luminous output but still containing mercury of significant amount are processed as hazardous wastes. For this reason, efforts have been taken in lamp manufacturing for a long time to eliminate the problems of the above nature or at least abate their unfavorable consequences.
According to a resolution of the problem known for a long time and providing for a better color rendering primarily, the halo-phosphate phosphors (halo-phosphors) used earlier in the coating of discharge lamps and emitting in a wide wavelength range as a result of excitation by ultra violet irradiation are replaced by a mixture of three rare earth compounds (tri-phosphors) which emit in the green, red and blue spectral region, respectively. It was excessively experienced in the event of tri-phosphors that the depreciation of luminous output took place longer in time because on one hand the reaction between tri-phosphors and mercury took place less readily than the reaction between halo-phosphates and mercury and on the other hand the stability of the lamps with tri-phosphor coating was better due to the phosphors containing rare earth. However, the lamps with tri-phosphor coating are more expensive. For this reason, halo-phosphates are used in cheaper lamp types primarily in the event when the unfavorable features, i.e. the higher depreciation of luminous output, the shorter lamp life, the higher mercury absorption can be improved in other ways than by tri-phosphor replacement.
Several methods and protecting materials are applied for decreasing luminous output depreciation of low pressure mercury vapor discharge lamps. The most significant protecting material is aluminum oxide that improves only phosphor adhesion if it is mixed to the material of the coating in an amount of 2-4 mass % but it ensures significant protection against unfavorable interactions or reactions if applied in higher ratio or in a different form. For example according to U.S. Pat. No. 4,079,288, a protecting layer of aluminum oxide is formed on the interior surface of the glass envelope of the lamp and a phosphor coating is applied onto this layer. The depreciation of luminous output due to the interaction between mercury and glass is suppressed significantly by this method though the protective layer is not suitable for the protection of the phosphor coating. An aluminum oxide layer is deposited upon the surface of the phosphor layer in order to accomplish the protection thereof as described in U.S. Pat. Nos. 4,639, 637. 4,547,700 describes a lamp construction in which a protective layer of tri-phosphor is deposited upon the surface of halo-phosphate layer. Though the depreciation of luminous output can be significantly decreased by these methods, it is rather cost-effective and economically disadvantageous to provide two different protecting layers. Based on U.S. Pat. Nos. 4,639,637 and 4,547,700, where gamma aluminum oxide is applied, it can be established that the protecting layer significantly decreases the initial luminous output in the 0-100 hour operation range, and only the further decrease of luminous output is moderated considerably. The initial luminous output is increased by using a special UV-reflective aluminum oxide layer as described in U.S. Pat. No. 4,079,288, however it is established that the higher the initial luminous output the less moderate its decrease in time.
According to U.S. Pat. No. 5,838,100, no separate protective layer is applied but at least 20 mass % of aluminum oxide is mixed to the material of the phosphor coating. The aluminum oxide applied consists of UV-reflective alpha-aluminum oxide to which maximum 50 mass %, preferably about 30 mass % gamma-aluminum oxide is mixed. Although the phosphor coating can be of or may contain halo-phosphate, tri-phosphors are preferably used. Disadvantages originating from the deposit of two separate layers are eliminated by this method, and, as the data published in the description prove, conventionally thin tri-phosphor layers increase the initial luminous output when a layer of certain thickness is deposited or less amount of tri-phosphor is needed in order to accomplish a certain starting luminous output. According to the above patent specification, the depreciation of luminous output is also decreased but the inventors did not report measurement data referring to this.
We have attempted to apply the method described in the above patent to lamps provided with halo-phosphate phosphor coating that is significantly less expensive. It has been experienced however that lamps of proper initial luminous output provided with halo-phosphate phosphor coating cannot be made by the above method. In order to accomplish a certain initial luminous output, significantly thicker halo-phosphate coating has to be provided than in the event of tri-phosphors, and the referred aluminum oxide does not improve but significantly decreases the initial luminous output at this coating thickness (usual coating weight 2.5-6 mg/cm
2
).
It is therefore seen to be desirable to improve the halo-phosphate phosphor coating in low pressure mercury vapor discharge lamps by applying one single suitably doped layer so that the depreciation in luminous output during the life of the lamp is significantly moderated and simultaneously the quantity of mercury to be dosed into these lamps is decreased while the decrease in initial luminous output is kept at a low level.
BRIEF SUMMARY OF THE INVENTION
A low pressure mercury vapor discharge lamp is provided, said discharge lamp comprising an envelope formed from light-transmitting material and containing an ionizable gas fill, mercury, and electrodes sealed in the envelope. The envelope is provided with a single layer coating on the internal surface thereof next to the discharge space. The coating contains halo-phosphate phosphor and 5-30 mass % aluminum oxide relative to the halo-phosphate phosphor, and the primary particle size of the aluminum oxide is smaller than 30 nanometers, the floc size of the aluminum oxide is smaller than 1 micrometer, and the void fraction of the total floc volume is at least 50%.
The precise selection of the type of aluminum oxide has primary importance as the above exhibit shows. The applied aluminum oxides are similar to those described in U.S. Pat. Nos. 4,639,637 and 4,547,700. Although it is known from the specifications of these patents that the application of said aluminum oxides as a separate layer decreases the initial luminous output of the lamps considerably, we have found surprisingly that such aluminum oxides mixed directly to the material of the halo-phosphate phosphor layer decrease the initial luminous output of the lamp only slightly. Simultaneously, the depreciation in luminous output during the life of the lamp is close to this characteristic of the lamps provided with tri-phosphor coating. In addition to these primary advantages of the present invention, the quantity of mercury to be dosed into the lamp is decreased.
REFERENCES:
patent: 4079288 (1978-03-01), Maloney et
Auber Zsuzsa
Balázs László
Deme István
Sajó Gábor
Szigeti Judit
Clove Thelma Sheree
General Electric Company
Patel Nimeshkumar D.
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