The present invention relates to a 3-way halogen light bulb. Incandescent 3-Way light bulbs have been a popular product in the marketplace for many years because they offer the user the choice of three levels of light from one light bulb. The incandescent 3-way light bulb consists of two filaments, a major and a minor. When used in a 3-way lamp socket, the contact point in the socket moves its position to make contact with the base of the light bulb at different locations. This change in locations will electrify each filament in turn, then both together. For example: A 3-way bulb rated at 30/70/100 watts utilizes a 70 watt major filament and a 30 watt minor filament. By switching the socket, first the 30 watt filament is electrified, then the 70 watt, then both together. Typically this common design for 3 way light bulbs has proven to be a somewhat sensitive construction. This design is known for its early failure of at least one filament due to the constant switching of the filaments on and off and the limited supports to secure the filaments.

The present invention solves the problems described above, plus offers a new alternative in 3 way lights that has not been available previously. The present invention relates to a 3 way halogen light bulb. It is an object of the present invention for the three way halogen light bulb to comprise two halogen capsules. It is an object of the present invention to produce more lumens per watt than standard incandescent 3 way bulbs. It is an object of the present invention for the 3 way halogen light bulb to maintain their full light output during the course of their life. Pall Shower HeadThe standard 3-Way bulb's light output depreciates dramatically during its life cycle. Tires For Sale P215/55r17It is an object of the present invention for the halogen capsule's filament structure to be substantially more stable than its standard incandescent counterpart, ensuring a long life. Puppies For Sale Near Hattiesburg Ms

It is an object of the present invention to provide a 3 way halogen light bulb that lasts up to 4000 hours. It is an object of the present invention to provide a halogen light produced by the 3 way halogen light bulb which delivers a crisp white light which is uplifting, pleasant and excellent for reading as well as rendering colors more accurately. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an embodiment of the 3 way halogen light bulb of the present invention. The present invention comprises a 3 way halogen light bulb. The present invention comprises a three way halogen light bulb having two halogen capsules. The three way halogen light bulb of the present invention produces more lumens per watt than standard incandescent 3 way bulbs while maintaining their full light output during the course of their life. The 3 way halogen light bulb of the present has a halogen capsule's filament structure which is substantially more stable than its standard incandescent counterpart, ensuring a long life.

The 3 way halogen light bulb of the present invention lasts up to 4000 hours. The 3 way halogen light bulb of the present invention provides a halogen light which delivers a crisp white light which is uplifting, pleasant and excellent for reading as well as rendering colors more accurately. FIG. 1 illustrates an embodiment of the three-way halogen light bulb of the present invention. FIG. 1 illustrates a halogen light bulb 10 having halogen light capsules 20 and 30 connected to an electric bridge 40 located on top of a lamp base 50. , any of various devices that produce by heating a suitable material to a high temperature. When any or is heated, commonly by or resistance to an electric current, it gives off light of a colour (spectral balance) characteristic of the material.zoom_inplay_circle_outlineElectric incandescent lampsWith the development of electric power early in the 19th century, the only serious consideration for lighting by was arc lighting, in which a brilliant light is emitted by an electric spark between two electrodes.

The electric light was demonstrated as early as 1808, and in 1858 English physicist and chemist devised the first steam-powered electric generator to operate a large for the South Foreland Lighthouse, but the carbon-arc lamp was so bright and required so much power that it was never widely used; it was limited to large installations such as train stations, and department stores.More-practical lighting could be obtained from an incandescent lamp. In 1801 the English chemist had demonstrated the incandescence of platinum strips heated in the open air by electricity, but the strips did not last long. Frederick de Moleyns of England was granted the first patent for an incandescent lamp in 1841; he used powdered heated between two platinum wires. Commercial development of an incandescent lamp was delayed until a could be made that would heat to incandescence without melting and until a satisfactory vacuum tube could be built. The mercury pump, invented in 1865, provided an adequate vacuum, and a satisfactory -filament was developed independently by the English physicist in 1878 and by the American inventor the following year.

By 1880 both had applied for patents for their incandescent lamps, and the ensuing litigation between the two men was resolved by the formation of a joint company in 1883. However, Edison has always received the major credit for inventing the , because of his development of the power lines and other equipment needed to establish the incandescent lamp in a practical lighting system. The was actually highly inefficient, but it banished the soot and fire hazards of coal-gas jets and thus soon gained wide acceptance. Indeed, thanks to the incandescent lamp, electric lighting became an accepted part of urban life by 1900. The carbon-filament bulb was eventually succeeded by the more efficient -filament incandescent bulb, which was developed by George Coolidge of the and first appeared in 1908. In 1911 the drawn tungsten filament was introduced. In 1913 filaments were coiled, and bulbs were filled with inert gas—at first alone and later nitrogen and in proportions varied to suit the wattage.

These steps increased efficiency. Beginning in 1925, bulbs were “frosted” on the inside with hydrofluoric acid to provide a diffused light instead of the glaring brightness of the unconcealed filament. The double-coiled filament used today was introduced about 1930. With these improvements, the became the principal form of electric lamp for domestic use until it began to lose favour to the more-efficient .General Electric and the produced the first commercial fluorescent discharge lamps in 1938, using vapour and -coated tubes to enhance visible light output. Fluorescent tubes had roughly double the efficiency of tungsten lamps and were rapidly adopted for commercial and office use. In compact form they found growing use in homes in the early 21st century. Because of concerns about energy use and global warming, governments around the world began to mandate the phase out of incandescent lamps for domestic use. In 2007 Australia announced plans to phase out incandescent lamps by 2010.

In the the sale and importation of high-wattage incandescent lightbulbs (100 watts or more, frosted or clear) and of all frosted incandescent bulbs were banned from September 1, 2009, and bulbs of lower wattage were scheduled to be phased out over the succeeding three years, the ban extending to all incandescent bulbs by September 2012. In 2007 the U.S. Congress passed legislation calling for a mandatory phase out of incandescent lamps between 2012 and 2014.zoom_inNonelectric incandescent lampsNonelectric incandescent lamps include the . The mantle is a mesh bag of fabric impregnated with a solution of nitrates of cerium and one or more of the following metals: thorium, beryllium, aluminum, or magnesium. The mantle is fixed over an orifice carrying a flammable gas such as natural gas, coal gas, propane, or vaporized benzene or other fuel. When the gas is ignited, the mantle fabric burns away, leaving a brittle residual lattice of metal oxides. Light is produced when this lattice is heated to glowing by the gas combustion, although the mantle itself does not burn.