DEP0033944DA - Mixed hole radiators, in particular for emitting directed visible heat and ultraviolet radiation - Google Patents

Description

Mixed light emitters, in particular for the emission of directed visible, heat and ultraviolet radiation,

More recently, mixed light emitters have _i to emit a sun-like spectrum, in particular for medical purposes in well performs in which the radiation iueIlen a Hochdruckiuecksilberdampfentladungsröhre and that upstream of a filament in an inner part provided with a reflective coating SpezialglaskoInen are housed, said structural unit can be easily screwed by means of a cemented normal socket in a lamp socket "this special glass bulb unfortunately now absorbs a valuable part of the '• Juecksilberspektruras _s so this is not desired in an'A'eise can act in a medical radiation to the patient

The present invention now eliminates this Iibelstand _i Here one also has a structural unit conveniently screwed into a lamp socket, but in contrast to the known above besehr ie enclosed mixed light lamps, the so-called. Ult ravi I alux lamps, in which the short-wave part of the mercury spectrum is cut off, here the full ouecks over the spectrum.

According to this structural unit, this structural unit consists of an ordinary incandescent lamp, respectively . one of a certain structural design within a reflector that is firmly connected to it and can be screwed into an ordinary socket, with one not shielded by a filter glass close to the incandescent lamp. Quarζluecksüberhoc hd pressure or high pressure lamp is located. ( _Λ · ....,. · _Tv ,, y'-H, », -"

The figures show schematic exemplary embodiments for carrying out the invention *

Figure 1 shows a reflector 1, which ends in a® lamp base 2 at the bottom. In the interior of the reflector close to the base there is a normal incandescent lamp socket 3 , into which an incandescent lamp 4, which of course has to be electrically sized to match the associated mercury vapor lamp, is screwed or screwed. is plugged in. Furthermore, in the reflector there is a (not shown) holding device for, for example, one of the known U-shaped ^ uarzquecksilberhochdruckdampfburner 5, which fits over the neck of the incandescent lamp, as shown in the drawing. If necessary, the burner can of course also be attached above the incandescent lamp _f Both radiators are connected electrically in series (not shown in the drawing). Figure 2 shows a top view of the fitting together with the burner and incandescent lamp (η neck 3. A particular advantage of this fitting is that, for example, after the incandescent lamp has burned out, it can be easily replaced, while with the current combination lamps, after the filament has burned out, the entire lamp, i.e. h * including the still intact "reverse silver vapor discharge tube and the expensive special glass bulb together with the reflector has become worthless »

Figure 3 shows how the discharge tube can be arranged in front of the incandescent lamp. Figure 1 shows the bulb ge-plane wearing af alls still around the neck (or lying on the bulb Be ^ e of unloading

Duiigsrchre) or, between the incandescent lamp and the discharge tube, an outwardly acting reflector 6 is arranged in order to direct the radiation from the mercury vapor lamp onto the eeflector 1 eu .

In the figure, k is shown as a so-called spherical * Rbchstdruckquecksilberdampflaape disposed 1o before the incandescent lamp, that such is of thick-walled Quar ζ mi t a Ope bsdampf pressure νca about 2o to 5o Atm, "oak relatively small compared with the incandescent lamp formed It is carried za oe.ka'4Sig-srr / sisa by holders 7 attached to the reflector, for example via blade contacts. Both sources of radiation are electrically connected again. In front of the high-pressure mercury vapor lamp, there may be a splinter guard, which is well reflective towards the bottom. Its diameter is expediently dimensioned to be at least bo large so that the tangent from the mercury daffi lamp runs over the edge of the reflector 8 on the edge of the reflector 1. If necessary, a suitably designed reflector 9 can be located between the incandescent lamp and the OueCksilberdampflampe »

While the incandescent lamp can easily be screwed into and unscrewed from the reflector in the previous examples, the examples according to Figures 5 and 6 show designs in which the incandescent lamp is cemented firmly into the reflector. The mercury vapor discharge tube is expediently arranged in front of the incandescent lamp. Both lamps are switched on again in Heihe. In Figure 5, a spherical Hb'c hs tdruckque cksilb er steam lamp is provided, which is inserted, for example, into an ordinary light bulb socket (eg a mignon socket or miniature socket) that is carried by the reflector. (The electrical lines are again not shown; they are led in a suitable manner from the screw base of the reflector inside.) The incandescent lamp has a special shape (indented surface) to accommodate the mercury vapor lamp deep in the reflector be able. In Figure 6 , instead of the spherical high pressure lamp with about 20 to 50 atm, there is an elongated U-shaped high pressure vapor lamp of less than 1 atm. shown. Of course, lamps can be used, the operating steam print between 1 and 2o atm, have that then shorter Are acetic _s ^ m ^ _i ^ * Mjmmm '' ^^ * ^^^ as Ultraviole ttßtrahiquelle aucbjsolche lamps instead of mercury vapor lamp Fillings of xenon or krypton are used . IdtoKSn. The reflector can also be coated with luminescent substances which transform the very short-wave ultraviolet radiation into longer-wave ultraviolet, for example into UV-B, such substances being predominantly, for example, Ca, (PO _iv ) gTl, Ca ₃ (PO _jlf ) ₂ KCl T ¹ or GaKPGi ₁ T ¹ - can be used;

Claims (1)

Claims Mixed light emitters, in particular for the emission of directed visible, warm and ultraviolet radiation, characterized in that in one structural unit an incandescent lamp and a «ü * ^ *»! ^ '^ E-lsft & H * M «BS0» * 3t4 »» Quarsmercury high «- ¹ Oezw _i -Highest pressure steam lamp ^ t? ' ^ '5 ^ ^a * ^J ^ ^ÄB * ^a ^ l ' Siwe * '* ⁱ ^ * ^{? Äi} ' ^! Ä® « ^, e *« - a kenon or krypton charge tube? and a reflector are combined, the reflector being provided with an incandescent lamp base so that this structural unit can easily be inserted into an incandescent lamp socket, Mixed light radiator according to claim 1, characterized gekennzeichne 1 ₁ that at the! .Uecksilberdampflampe connected in series, a suitably sized light bulb is used which has a base, so that it easily into a reflector located within the fit can be used, Mixed light emitter according to Claim 1, characterized in that the incandescent lamp (and, if necessary, also the UV lamp) are firmly inserted into the reflector is cemented " Mixed light emitter according to Claims 1 -3, characterized in that the incandescent lamp has a surface design such that the UV emitter can be inserted as deep as possible into the reflector. Mixed light emitter according to Claim 1 - 't, characterized in that when a high pressure mercury vapor lamp is used, it is located in front of it there is a reflective "anti-splinter protection" which is at least as large as the tangent of the high pressure gas lamp on. this runs over to the sand of the main reflector. Mixed light emitter-according to claim 1 -5, characterized in that the reflector m> * »k coated with phosphors -s ^ A ^., Jea« »« , soft the short-wave ultraviolet of the UV emitter in long-wave ultraviolet, preferably UV B, transformed.