CN202871751U - Plasma xenon energy-saving lamp tube - Google Patents

Abstract

The utility model discloses a plasma xenon energy-saving lamp tube which comprises a micro electronic ballast and a plasma driver which are respectively arranged in insulated lamp heads at two ends of an outer lamp tube, wherein two ends of a quartz glass tube are respectively fixed on the micro electronic ballast and the plasma driver; the plasma driver comprises a high-frequency plasma driver, an ion magnetic control cover and an ion exciter; the signal input end of the micro electronic ballast is connected with a metal electrode; the signal output end of the micro electronic ballast is connected with a signal input end of the high-frequency plasma driver; another signal input end of the high-frequency plasma driver is connected with the metal electrode through a wire; the signal output end of the high-frequency plasma driver is connected with the signal input end of the ion exciter; the signal output end of the ion exciter is connected with the ion magnetic control cover; and the plasma magnetic control cover is tightly combined with the quartz glass tube. The plasma xenon energy-saving lamp tube can replace the conventional fluorescent lamp with the power which is more than one time that of the plasma xenon light source.

Description

A kind of plasma xenon power saving fluorescent lamps

Technical field

The utility model relates to a kind of efficient energy-saving lighting light supply apparatus, especially a kind of plasma xenon fluorescent tube.

Background technology

Xenon light source is because of its high light efficiency and high-color rendering, by previous automotive lighting and lighting for medical use, progressively be applied in the illumination of road lighting and industrial and mineral, all xenon lamp light sources in the market, all be to adopt in a round or oval ball bubble, to design to put two electrodes, start excite metal halide in the ball bubble and part xenon gas ionization under the voltage of moment 23000V after, because being subjected to the restriction of its lamp type, can't be wider be applied in general lighting and the Grille lamp gone.

Summary of the invention

The utility model is for the deficiencies in the prior art, the xenon of high light efficiency is applied in the fluorescent tube, with the efficient of traditional xenon light source improve 50% with, upper the utility model is achieved by the following technical solution.

A kind of plasma xenon power saving fluorescent lamps, it comprises: the insulation lamp holder, quartz glass tube, miniature electronic ballast and outer fluorescent tube, described insulation lamp holder is installed in respectively outer lamp tube ends, xenon-filled quartz glass tube is arranged in the outer fluorescent tube, it also comprises miniature electronic ballast and plasma driver in the insulation lamp holder that is separately positioned on outer lamp tube ends, the two ends of aforesaid quartz glass tube are separately fixed on miniature electronic ballast and the plasma driver, described plasma driver comprises the high frequency plasma driver, ion magnetic control cover and ion excitation device, the signal input part of described miniature electronic ballast links to each other with metal electrode, the signal output part of miniature electronic ballast links to each other with a signal input part of high frequency plasma driver, another signal input part of high frequency plasma driver links to each other with metal electrode by wire, the signal output part of high frequency plasma driver links to each other with the signal input part of ion excitation device, the signal output part of ion excitation device links to each other with ion magnetic control cover, and plasma magnetic control cover and quartz glass tube are combined closely.

Described insulation holder structure is the T5/T8 type, and is compatible with existing light fixture.

Described high equality ion drives; ion magnetic control cover and ion excitation device form ion magnetic control body; the high frequency plasma driver sends the high frequency ion signal of telecommunication and drives ion magnetic control body running; the miniature electronic ballast of quartz glass tube opposite side is responsible for controlling power and the protection of light source; the ionizing energy that ion magnetic control body produces is delivered in the quartz glass tube through the coupling of ion magnetic control cover; excite intraluminal gas ionization luminous; the quartz glass pipe internal surface adopts certain technique plating one deck three primary colors fluorescence radiation powder; the ultraviolet illumination that the gases such as xenon send when work is mapped to the fluorescent material on the inside pipe wall; excitated fluorescent powder is further luminous, has increased luminous efficiency.Also have a glass lamp shade outside the luminous quartz glass tube, a side arranges an extraordinary reflectorized material on the lampshade, with the light source of thoroughly past upper end, effectively be reflected back irradiated area, like this, utilize better the light source usefulness that makes progress, well improved the illumination of xenon fluorescent tube.

The beneficial effects of the utility model are:

1. adopt plasma electric to make the light source longer service life from mode of excitation, can substitute the conventional fluorescent fluorescent tube that is higher than plasma xenon light source power more than one times.

2. quartz glass tube luminous element xenon and fill the harmful substance such as not mercurous in the halogenation material can not endanger environment structure after scrapping.

3. energy loss is low, light efficiency is high, mean lumens can reach 90LM/W, photochromic good, light decay is little, has good efficient light according to sustainment rate (light decay is less than 3% after 10000 hours), 7 kinds of spectrum all have output, low ultraviolet and infrared radiation, spectrum continuity are good, the more comfortable nature of human body sensory.

4. the quartz glass tube luminous element does not have electrode, does not have the phenomenons such as electron collision electrode sputter oxidation.

5. compatible with existing light fixture on the structure, need not light fixture is changed especially convenient the installation.

Description of drawings

Fig. 1 is the structural representation of a kind of plasma xenon of the utility model power saving fluorescent lamps.

Embodiment

As shown in Figure 1, a kind of plasma xenon power saving fluorescent lamps, it comprises: the insulation lamp holder, quartz glass tube, miniature electronic ballast and outer fluorescent tube, described insulation lamp holder is installed in respectively outer lamp tube ends, xenon-filled quartz glass tube is arranged in the outer fluorescent tube, it also comprises miniature electronic ballast and plasma driver in the insulation lamp holder that is separately positioned on outer lamp tube ends, the two ends of aforesaid quartz glass tube are separately fixed on miniature electronic ballast and the plasma driver, described plasma driver comprises the high frequency plasma driver, ion magnetic control cover and ion excitation device, the signal input part of described miniature electronic ballast links to each other with metal electrode, the signal output part of miniature electronic ballast links to each other with a signal input part of high frequency plasma driver, another signal input part of high frequency plasma driver links to each other with metal electrode by wire, the signal output part of high frequency plasma driver links to each other with the signal input part of ion excitation device, the signal output part of ion excitation device links to each other with ion magnetic control cover, and plasma magnetic control cover and quartz glass tube are combined closely.

Described insulation holder structure is the T5/T8 type, and is compatible with existing light fixture.

Described high equality ion drives, ion magnetic control cover and ion excitation device form ion magnetic control body.

The part inwall of outer fluorescent tube adopts a kind of special reflectorized material, the light source that its objective is the part that will make progress reflexes to irradiated area, after outer fluorescent tube, quartz glass tube and plasma driver are fixedly connected, gas and inject inert gas and the extraordinary halogen compound of certain air pressure in the evacuation tube, the quartz glass pipe internal surface maybe can be coated with triphosphor Fluorescent Powder, take full advantage of the ultraviolet ray excited light-emitting phosphor that electron ion excites the luminous xenons such as xenon to distribute, increase luminous efficiency, can work simultaneously that the light uniformity of sending is strengthened, be conducive to the requirement of illuminating light distribution.

Fill xenon gas in the quartz glass tube, according to power requirement, and inject a certain amount of extraordinary halide at inner chamber, be used for controlling pipe pressure and the rated power of luminous element, ion magnetic control cover produces microwave discharge with the microwave high-frequency pulsed magnetic field in the magnetic control body, form plasmon coupling and make extraordinary halide ionization in the quartz glass tube in the quartz glass tube, excite the xenon-133 gas Discharge illuminating again, discharge and reach stable is excited under the effect of ion.

For the ease of supporting with existing most of Grille lamps or conventional fluorescent lamps tool, lamp holder can be made T5 or T8 fluorescent tube form, input voltage range of the present utility model is wider, and input voltage all can work between 85V-265V.

Claims (2)

1. plasma xenon power saving fluorescent lamps, it comprises: the insulation lamp holder, quartz glass tube, miniature electronic ballast and outer fluorescent tube, described insulation lamp holder is installed in respectively outer lamp tube ends, xenon-filled quartz glass tube is arranged in the outer fluorescent tube, it is characterized in that, it also comprises miniature electronic ballast and plasma driver in the insulation lamp holder that is separately positioned on outer lamp tube ends, the two ends of aforesaid quartz glass tube are separately fixed on miniature electronic ballast and the plasma driver, described plasma driver comprises the high frequency plasma driver, ion magnetic control cover and ion excitation device, the signal input part of described miniature electronic ballast links to each other with metal electrode, the signal output part of miniature electronic ballast links to each other with a signal input part of high frequency plasma driver, another signal input part of high frequency plasma driver links to each other with metal electrode by wire, the signal output part of high frequency plasma driver links to each other with the signal input part of ion excitation device, the signal output part of ion excitation device links to each other with ion magnetic control cover, and plasma magnetic control cover and quartz glass tube are combined closely.

2. described plasma xenon power saving fluorescent lamps according to claim 1, it is characterized in that: described insulation holder structure is the T5/T8 type, and is compatible with existing light fixture.