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A high-power energy-saving lamp

A high-power technology for energy-saving lamps, applied in the direction of discharge lamps, parts of gas discharge lamps, discharge tubes, etc., can solve the problems of filament oxidation and corrosion, affecting the service time and luminous effect of energy-saving lamps, and achieve the effect of improving luminous efficiency

Active Publication Date: 2017-01-04
ANHUI HUSN COUNTY WANXIN ELECTRONICS TECHCO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Energy-saving lamps have the characteristics of long service time and large luminous flux. The luminous flux can reach 50lm / w, and the service time can reach 8000h. Oxidation corrosion affects the service time and luminous effect of energy-saving lamps

Method used

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  • A high-power energy-saving lamp

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0010] A high-power energy-saving lamp, including a lamp tube 3, a ballast 4, and a lamp cap 1. The ballast is embedded in the lamp cap and electrically connected to the lamp cap. The other end of the ballast is electrically connected to the filament. The side wall of the lamp cap is provided with A storage tank 2. Magnesium blocks are stored in the storage tank 2. An amalgam column is provided at the connection between the inner wall of the lamp tube and the lamp cap. The lamp tube is filled with argon gas, and the inner wall of the lamp tube is coated with a rare earth luminescent material. The luminescent material The weight percentage of each element in the composition is cesium 1.5%, magnesium 4.8%, phosphorus 6.2%, oxygen 28.1%, boron 3.6%, rubidium 1.8%, silicon 12.4%, manganese 3.8%, palladium 2.5%, mercury 0.7%, antimony 9.5% , rhenium 3.5%, tellurium 2.6%, germanium 5.5%, nitrogen 3.2%, yttrium 7.4%, indium 2.5%.

Embodiment 2

[0012] A high-power energy-saving lamp, including a lamp tube, a ballast, and a lamp holder. The ballast is embedded in the lamp holder and electrically connected to the lamp holder. The other end of the ballast is electrically connected to the filament. A storage tank is provided on the side wall of the lamp holder. , a magnesium block is stored in the storage tank, an amalgam column is arranged at the connection between the inner wall of the lamp tube and the lamp cap, the lamp tube is filled with argon gas, and the inner wall of the lamp tube is coated with a rare earth luminescent material, and the weight of each element in the luminescent material The percentages are cesium 1.3%, magnesium 5.5%, phosphorus 8.5%, oxygen 27.9%, boron 3.5%, rubidium 1.7%, silicon 14.2%, manganese 3.6%, palladium 1.5%, mercury 0.6%, antimony 8.9%, rhenium 2.5%, Tellurium 3.2%, Germanium 5.5%, Nitrogen 3%, Yttrium 5.5%, Indium 3.1%.

Embodiment 3

[0014] A high-power energy-saving lamp, including a lamp tube, a ballast, and a lamp holder. The ballast is embedded in the lamp holder and electrically connected to the lamp holder. The other end of the ballast is electrically connected to the filament. A storage tank is provided on the side wall of the lamp holder. , a magnesium block is stored in the storage tank, an amalgam column is arranged at the connection between the inner wall of the lamp tube and the lamp cap, the lamp tube is filled with argon gas, and the inner wall of the lamp tube is coated with a rare earth luminescent material, and the weight of each element in the luminescent material The percentages are cesium 2.2%, magnesium 6.3%, phosphorus 8.5%, oxygen 26.5%, boron 3.5%, rubidium 1.7%, silicon 12.1%, manganese 4.2%, palladium 1.8%, mercury 0.7%, antimony 9.2%, rhenium 3.2%, Tellurium 2.7%, Germanium 5.5%, Nitrogen 4.1%, Yttrium 4.2%, Indium 3.6%.

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Abstract

The invention relates to a high-power energy-saving lamp, which includes a lamp tube, a ballast, and a lamp cap. The ballast is embedded in the lamp cap and electrically connected with the lamp cap. The other end of the ballast is electrically connected with the filament. A storage tank, in which magnesium blocks are stored, an amalgam column is provided at the connection between the inner wall of the lamp tube and the lamp cap, the lamp tube is filled with argon gas, and the inner wall of the lamp tube is coated with rare earth luminescent materials. The energy-saving lamp provided by the invention The service time of the energy-saving lamp is extended to more than 12000h, and the luminous efficiency of the energy-saving lamp is greatly improved.

Description

technical field [0001] The invention belongs to the field of energy-saving lamps, and in particular relates to a high-power energy-saving lamp. Background technique [0002] Energy-saving lamps, also known as energy-saving bulbs, electronic bulbs, compact fluorescent lamps and integrated fluorescent lamps, refer to lighting equipment that combines fluorescent lamps and ballasts (ballasts) into a whole. Energy-saving lamps have high brightness and can achieve sufficient brightness with less power, and are now popular products all over the world. Energy-saving lamps have the characteristics of long service time and large luminous flux. The luminous flux can reach 50lm / w, and the service time can reach 8000h. Oxidation corrosion affects the service life and luminous effect of energy-saving lamps. Contents of the invention [0003] The object of the present invention is to provide a high-power energy-saving lamp, which further improves the luminous efficiency and service tim...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01J5/50H01J61/02
Inventor 崔陈
Owner ANHUI HUSN COUNTY WANXIN ELECTRONICS TECHCO