1. Field of the Invention
The invention relates to gas filled electrodes and lamps.
2. Description of the Related Art
Gas filled electrodes (“GFEs”) are used in many applications, including but not limited to ozone generators and non-thermal dielectric barrier discharge reactors. GFE designs are derived from common gas filled lamp designs with which they share many features. One of the undesirable features of GFEs is the tubulation common to all existing GFE designs and to gas discharge lamps in general.
The tubulation feature results from the need to evacuate air from the lamp or GFE interior volume, and then charge that volume with the desired gas or gases. This evacuation and charging is accomplished by attaching a small tube to an opening in the lamp or GFE wall. Air is removed and gas inserted through the small tube, which is subsequently fused shut and broken or twisted off while softened by heating.
The tubulation produces a small protrusion from the GFE wall, which is more fragile than the balance of the GFE wall. Designing a reliable GFE necessitates protecting that weakness from damage. Accomplishing that protection leads to dimensional and manufacturing complications in the design.
Even with compensating design measures, the underlying weakness remains. What is needed, therefore, is a GFE or lamp and method of evacuating air and inserting desired gas that does not produce a tubulation.
The invention is a GFE or lamp and method of evacuating air and inserting a desired gas that does not produce a tubulation. The invention is a method comprising the steps of providing a glass or quartz tube having a first end and a second end opposite the first end; inserting a cathode into the first end; crimping the first end thereby securing the cathode and making the first end airtight; securing a solid plug inside the tube second end but leaving a gap between the plug and tube through which gas can pass; evacuating air from inside the tube by drawing it through the second end past the plug; charging the tube with a gas; and sealing the plug gap to make the second end airtight. These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, claims, and accompanying drawings.
The invention is a GFE or lamp and method of evacuating air and inserting a desired gas that does not produce a tubulation. Turning to
To make a GFE, a cathode 110 is inserted in the first end. The first end 122 is heated and crimped shut, sealing to the cathode lead wire 112, which emerges from the first end 122 of the tube 104.
Some GFE applications require a length of non-conductive material at the second end 124 of the tube 104 opposite the cathode 110. This non-conductive region is created by installing a solid plug 106 in the tube where the conductive region should end. The plug 106 is fused to the tube 104 wall to seal the volume that will be evacuated and charged with conductive gas.
As shown in
An improved GFE and method of making it are shown in
Install a solid plug 106 inside the tube 104 second end 124, but leave a gap 116 between the plug 106 and tube 104 through which gas can pass. The plug 106 is anchored to the tube wall at area 118.
Evacuate air from inside the tube by connecting a vacuum means to the second end 124 and drawing air through the second end 124 and past the plug 106. Then charge the tube from the same opening with a desired gas or gases, letting the vacuum draw the gas inside. While the open second end 124 is still under a gas charge, seal the plug 106 to the tube by heating the area around the plug 120 in
Conventional discharge lamps differ from GFE design in that they have a cathode at both ends.
A flow chart of the method of making the GFE is shown in
A solid plug is installed and secured 710 inside the tube second end, but a gap is left between the plug and tube through which a gas can pass. The plug is anchored to the tube wall.
The air is evacuated 712 from inside the tube by connecting a vacuum means to the tube second end and drawing air through the second end past the plug. Then charge the tube 714 from the same opening with a desired gas or gases, letting the vacuum draw the gas inside. While the open second end is still under a gas charge, seal the plug gap 716 by heating the area around the plug.
A flow chart of making the lamp is shown in
Although the preferred embodiments of the present invention have been described herein, the above description is merely illustrative. Further modification of the invention herein disclosed will occur to those skilled in the respective arts and all such modifications are deemed to be within the scope of the invention as defined by the appended claims.
Number | Name | Date | Kind |
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6181065 | Huettinger et al. | Jan 2001 | B1 |
20030222581 | Niimi | Dec 2003 | A1 |
Number | Date | Country | |
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20090253335 A1 | Oct 2009 | US |
Number | Date | Country | |
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61042534 | Apr 2008 | US |