DES0018733MA - - Google Patents

Description

Walter Beil

hIMnwall ur: ii Noitr

extends β. M.-Hödiit 21. Adjust 195o

at No. 542) '& Z f

FROPUoIS I1 «C., H * W Xork, Ν.Ϊ.,

The present invention relates to luminous bodies and tares, whose light comes through the. MPACT an electric field is generated on a · area containing Hioephore, ie fabrics, dl · pH phoreezleren or fluoresce relates tie brfindune ■ tan waiter on Fbosphore that is derived for this purpose i _t as well as processes for their.: «Division.

! Electric lamps, a, aiad already known. In the case of an ir, trade such The electric field acts on a gas, and the resulting ultraviolet rays excite the phosphorus. With another the field acts on a sow »), in which electrons

be, with the resulting Katho <3enetrahlac. the lliosphore be used to _l2 Krre -ung. In neither of these two is the light

A geodgend strong field directly on the dan ifeoephor containing site generated.

In addition, both of these devices, as well as the edges Lightbulbs, a pear or EShre are hermetically sealed, which causes considerable difficulties and ra'ucllcha Baaehrfiokungen in itself.

The device according to the present invention is far less stressed in this installation, since no sealed bulbs are required for operation, and the lamp can be produced in any room and style, so that

3239

ee eratnalig eoellch is, new Beleuehtua seiorici tungen cu Mhaffen, di * .D, illuminate a JvauB from the ceiling, dl ■ there are electrically luminous boards ·

With certain types of execution of the own invention, dlfee tables advantageous teafte »53SSl-akt with one side of a thin in Embedded dielectric material ptoaroehehens stands, and a conductive layer that is in contact with the other Holte this ilioephoreehlciit stands "

Dl device has a positive volt adapter, so dal no "X" et "ld" r would be required. You can contact one directly MrasJ.ee Nets of 110 volts, 60 i> eroden / S «k ·, angaeehlossm become, even if in some cases, an irane leader for work with higher voltages «Onechene value is ·

The effect of the device is no different shining rionö ensat or, and the light produced is evidently based on the ..ixkunc of an electric field on the iiioepher, or to this and the material in which it is embedded

The appearance of a slight glass of glass when an electrical one acts Ieldee on a FLoephorschlcht has probably already been observed “but only have been rated an insignificant scientific MbMBMBk · Earlier scientific attempts, It comes from brew: to generate real utility in this way been unsuccessful «as Leverenz said in his recently published Rieh: "An Introduction to the Luminescence of Solide" (Me. ΚΙΙΙβΛ, Uew York, 1950, p. 290). Loverenz also has feet; It is urgent that the ixregunc of an aneeblicb through a painfully excited rhoaphorseideJLt only evokes a faint blue color, the chew of someone who is set on ininkslhoit ing · true geneaeen could he leads the ulinrea in a hurry Krreguoc from in the »ettungsscbici.t« read atno- ■ pblrlechen Nitrogen Eurüek, instead of the! Arresting des in Field lying iftieenhors themselves

ΪΛ This is due to the fact that the present invention

te

in no way a blue GIlMMa atnoapfearlschea SkleJcataffβ, seat) which can be colored blue, green, 6 * lb, red, or somehow anaeric, depending on the kind of hoanhora used. • Instead of the knowledge of crcable Glimmena, the von Leverene lessons achieve a brightness of ee-eee ) or n «hr. This brightness can be maintained to a large extent, so that a very anti-reflective effect can be achieved.

The unexpected results can be traced back to the direct error of the mieophore, although the fact is, and on the basis of the theory; en tandpunkt from not leiofat?; u explain 1st * des field can perhaps the liShe de · energy- • pttM & aig AtOB, like in the ecn-named 3t * rk-nffekt, cadres and that · "go back this · peee to the original laying can perhaps The radiation could cause "The Buthematieche ABBI7S · This possibility is fortunate that the field required for this must be extraordinarily much bigger than that."

la da · conductive · bead de · ttiosphors snzCicixTiführmn t _t but also for this the available ¹ time is much eu weak. levereaz has mentioned, for example, on page 290 of the book mentioned above that? elderly, which can almost «break through the insulation, are still weak, in the electrical excitation in the phosphorus crystals en new?

Anoint when nan 25ΰ toit by a one-hundredth aat thick layer of a biosphere are allowed, but voltage drop required for the for the radiation within the visible range of 2 Toit is a Lntfernunü 10 '' ca necessary, so ungeflhr thousand times the Eedlus aer existing Ate ·) · "type" The mean free distance over which an electron is accelerated to excite an atom in such a way that it emits separable light, eel alro far greater than anything else that is available.

Bm just Geeaete is based on our assumption that there "

is "In reality it is not ^ loioi föxetlg, not la iiristall, urjd also not outside denyelbea, wean dleeei

l ·, IL ff

. * - T ir zi

is embedded in a dielectric material because another WLelektlBltÄtskonatante has. If the crystal is thin, flat, vertical boo all & egg an outer j «ldβ ller.ende egg yolk ·, βο can Aa * Pel * in the crystal itself be an aJki.or atArker al « Aas aneenendet teld, who like your relationship ζ / laughter of the dlelaktrlzitats — iumstante cies i «ttungMteriale and des Kristall · even plumb · Art ron PelttVeretiirkuae occur where «in« small · Jtellc Kit oledrlger LleloktrizitAte- ^ constant vorhaud «n 1st.

The other "erluirperun" of the srfln - dune ll "et dtr rhoe, described below, hear two things about ./eiclie dl" äpwMMag geilen "tann. .bei a preferred Aunr? ir ^ trlrd aar Uaaarn swlaehen swel conductive layers, of deaen -.vonl ^ stene a · translucent 1st, He et.-a conductive alae- or uunet ex open plate, embedded by a thin layer of dielectric oaterials nJt fine crystalline Hioephoric particles • jiegefttllt. uhn · the nettiu ^ a material, the crystal · αν glow in the places where there is a · old »in-conductor in .outakt ko-1u

the Anjweenheit de · BettunüSEuterials v / ith the glow strong, aioh _t wi · under the microscope to selenium, Upper the crystal is developed a * · Ler ßiosphor in its dielectric HnWttunseechieht "ix" So excited directly το "field.

of a bedding material ο with a high H electricity aconstant in relation to the de AospLors reduced see the 3pa required for the excitation of the equipment to the desired lightness: assuming that the specific WKerataad d ·· dielectxl see Material is also high, as is the case with that of the JPL osphor idoe high iielei ^ rizeitats-xlonetantt in and of itself not yet, as can be seen from the irioingaloeieiatit of glycerine, that a i ielextricity & tokonatant τβη about ^ 6, but only an e ^ ei: Irish ^ ideratand of 10 Qfaa / ea bcsitst, a> ert which is high enough for nancLe purposes but not high enough for use in the device described here.

it also increases the liateity of lower AiJaIt; - ij uuerhaftigkait d «p terriciitung. For example, cüe Lei «iTd« M »became r one

1ir ζ ι

"Readers' devices are plasticized uitrocelluloee as bed objects increased from ί> 0 hours to more than 100 hours" by adding a small ITO percentage of. iatri unkarbonat al · neutralsator for nitrocellulose. In some of these electri-low Uxbetanr.en, for example, hydrogenated line oil, a -ach · bit

^ & acid number voa less than the acidity j _t 1st so low, a long service life without neutralizing littel overall "Hhileistet. Ler tat.iiici, Liehe reason: · ^{τ 1ι} the ..Irtaing the acidity of the Sm is not known enedauer, χ ie "irkuag can on a reaction of -aure with dec ttosplior.. or the conductive layers, or any other. amleren fbanones

l> ae KMkjiorer ¹ a best inet en BLoeaJ.orort can not fall for this no varausbestijnint ΐτβι-den from their ivnapreehea auT other .rreiiunt, sarten. Some of the best i ^ ospLore for fluoreszierejiiie J * mpen do not react to the oloir-xleche field «HioaxxLore made by the χγρ des ^ lnksulfid very effectively

For such purposes, you can tie crystals of a vrlrksamea zinksuljCidiecLen l ^ hosahorart are dainty flacUe echaecke of Zinc sulphide with little bumps on their cloths. I-that hump irn ^ non be small crystals of zinc oxide, which are calibrated on the lej ^ ptzinkeulfidkrlstallen have set; but they can too ■ Bf some other distorting flow must be reduced. Bind the humps or protrusions zinc oxide crystals, no can to the Connect one u at hurry between them and the house. > Crystals on the other hand, a very strong field (best above) are ede but not ZiokoxyA, so the humps may nevertheless reinforce daa ^ cId Because of their distortion of, IrI a tall fore. In any case, it seems the uxyile, the Aktivieruntsenit-el and other "Verunieioiguiigea", which have been given to the reeds, sufficient irregularities within the crystals hui-vorzurulon to "publicize." a locally limited construction of the field at any part to create the crystal

The ..irkunt dieees suffer from the light radiation but can also are based on entirely different grounds, and we shall never consider this here Theory.

In each case, however, the thin, flat, oval-hipped, owl-shaped Kriatalle seem to have their humps on the flats

ft 733 1if ζ 1

BwttuagSMaterial especially suitable for ain iUr the radiation ▼ on light under the influence of electrical vain.

Sine) certain amount of alkoxide has an effect on the body Zinc sulphideBisehung voi-part from, probably ./eil ee dl · Formation of i & is favored for all suitable types and properties with a · »suitable / lnAvncyd-löeemlea. ittel how

or AWioniuBuusetatlöoun ^ -uie otrahloag · -

such H.oepiiore. By such Löcuneanittel trerdea also unreliability removed from the overflow of the active crystals, "o d * £ the latter perhaps actually as the effective" · Factor can be tested. In any case, remove them Solvent Qberechüeaige «/ inkoxyd, which has a low specific It is only through this that the specific state of wealth becomes established of the ilioaphore in nancben cases v. a hundredfold so that the phosphorus is improved

Radiations from the Oulfld-i.fros.puoren can lead to an upper Fläohan impact, or can also be voa a u "bar surface layer going out between de «iielektrikun and the HauptkSr-B« r you Krletalie lies. £ 1 · grofi «üalUükelt this highly contradicted But rMTnfliMirtn Aosphore can also mean dsJ the field penetrates far into it, and a greater xeil of the crystalline Materials excited, as- / 0wl | hoephoren old lower «spesiflaenem Resistance would be the case.

Other aspects and advantages of the invention are apparent from the above the following very detailed description of certain types of execution

In the attached drawing, three arrangements are shown, which «VuefviLrungartten of the invention there rush«

Hg · 1 1st a perspective view, partly 1 «section,

such a device,

Hg · 2 lit a perspective view oiaejr Swelten such Terricitung,

ftf · 5 is an enlarged cross-sectional view of the naea device

ti713 1if ζ ι

η «, a.

fie * is "in a section through a floor plan a" third " Yejrrichfrung along the line 4 - 4 in Fig. 5, flg. 5 is "in an enlarged ^ cross-section of the device according to FIg, ♦ Utngs of line 5-5.

The arrangement shown in FIG. 1 consists of an ultrasound plate 1 with an open, visible conductive surface 2, which has a thin layer J with a phosphorus-coated electrical material, over which a metal layer 4 reads "which is in eager contact me you stand · lies represents a roUstandiee light source «the tough ». as an illuminated sign on to warn and lick IHIMIMiint «. Vine Anechlufiklenne a corresponding Mrosigaelle with fluctuating or wavering oj> aiimin6 Jtann old 4 «F metal plate 4, and the other iQeeee with the> tallstreifea 5, which leads to the conductive surface 2 ·

In another embodiment of the invention, the layer 4 • b «ifall ₈ ^ m ^^ tA ^^^^ mSrfn das eia» panel is created, which can emit light from both sides and is also unified if it is not exposed to electrical energy lot. Such a device can beaatrt for various Zwakks 'ground,' de ζ .B. in Tisehlastp · »or other lighting fixtures, or even as window panes,« let day be rich · let sunlight through from outside and emit its own light at night «

conductive n. £ che 2, which are transparent eder durahseheli let, are difficult to obtain, since good electrical conductors reflect light better than let through. "If other types of weather can also be earthed, it was stated that one special If a well-conductive surface can be produced, the glass is heated and a pot of bilicate, tin, or titanium chlorides is placed in this state, whereupon the treated glass is brought into a slightly reducing atmosphere. We deposition in lampffora not easy ourcJacufuhren 1st ■ Aase · also 'jute results are achieved loading "nan rinnchlerid ■ At abseletesi alcohol and Kseaai _t, nlecht and dives oie glass plate in this MUebMg.

By means of the applied covering, regardless of whether it has been applied let, could contain tin-, or iliziua- or -itauooq / d, that «MhrecJ.einlich at least partially on a lower iona than Aas Dioaqrtl reduces lot, although aie the exact iueacanenewetting difficult to determine "

i-ie coldcht 2 so upset has a ..ideretond voa IjO Uhu per 6.45 ea, i.e. an id purchase of Ιυυ 0ha gi mrt. see oitan each opposite the whole length drats from 0.4i> ca on the surface dex-: 3chlcJat 2.

The tob riiospixor interspersed layer 5, which lies over the first * • Johicht 2, contains all phosphorus vit 4 is preferably made of a ^ Ut re: l IEJ: beer metal, eg vrLe Alumiolua, u.tw. Jhxoe that does not appreciably old the phosphorus or its Bettungndttel reacts · the metal layer or conductive: 4 has ciiioht of v ^ o.. It has a low resistance and can be applied in any suitable form, being careful not to look at the N ± trocelluleee aieajhorachicht. However, the best results have been obtained by depositing the metals in vacuo. For this purpose, the glass plate 1 or its conductive layer 2 is covered with the embedded high-phosphorus layer 3 and placed in an ice sheet, which is then evacuated. The covering 3 is briefly heated, e.g. Have a stream looped through the conductive layer 2. The heating should preferably not be less than that which would be needed, for example, for sub-drying, and in any case not so high that the bedrock material is not charred as it is. After a c ^ th initial luminosity, it helps to maintain this luminosity throughout the life of the lamp «

The aluminum or other metal is now in Va ^ uu * on dl Depressed heepherschlcht, iadea nan es e »J · on one • elfWfaian brings, unu uioaen through duio-led electric shark “V

Bel d «B le vacuum« r oil ends an intimate contact is established on the phosphorus ion • nlaclum Metallfile and üioapLor-ouspe iaion achieved uid the closure Prevented by gas, see others. »', ethoci en swlsehen MJa and ^ uapension could feeteetren.

DiV Phoephor becomes the ringing ala a · Busperuslon s, B · aua the following 'substances zuftanvtengeeetzt t

fhoephor 10 g

Batrlun carbonate 2 g m.troolulose

(Quarter of a second viscose) 8 g

RIr 1 miBol 1 g

Ortlioaltrodlphenyl 3 g Dolctyl ebacate 1 g

- Jhlorlertea DijiLeayl 2 g

Eloktylpäithalat 1 g

3eneopheno & 2 g

UthllIdllt 2 g

Elzlnoleate 2 g tKlllt 3

flyzeryl triaceto clinoleate 3 g

Butyl acetate 85 eon

The substances listed in this list between the nitrocellulose and the butyl acetate are bestiasrt for the “eiohaaehea of the nitrocellulose. Eiehaachern this particular combination of "gives a very glassy mixture, the less inclination> ur crystallization has · ha itfanen other>" eiehaacher benutst be and often is enough Aie use of a single "That butyl • esjtat diesk as Lösungsvlttel for the nitrocellulose and the 1eichBachusesaittel ·

They feichaaoher form lsi general * a large part of the ettunssBateri & ls _t because the laoctrolundnesKenz of the iiiosphers is in softaa Iiettungaeaterial aa best "

The 'ifeioJanacher should have a high specific idarstand one a high i> lelektrisitttts- & constant as well as high opaanaagsiestig-Jsait so that the ... values of these laJctoxes itlx have the main stock · cellulose cannot be reduced significantly · Diphenyl has B.B. a 1! electricity »« constant τοη about 6, attrocellulose itself has eiW ^ oastaatv of 7 »>.

The weight of the equivalent ratio of the lightweight material, as shown in the above example, is about 2.5 ι (after drying)

Proportions between 2 and 3 are sufficient for the alignment the best results, although this ratio can also be changed considerably

Pureh the hatred bicarbonate is prolonged the life of the lsape "probably by changing or neutralizing it üfiura ^ ehalter des Iiattungiaiateriale,

For the Ii <u-etellu ££ of the above-heated uepension wiitä the nitrocellulose dissolved in about 35 ce / 'Jutylacetais, and the resulting varnish then dec> est der .'ieouune zugofuyt. i> ie ^ uapeneion vlzd sprayed onto the conductive surface 2 of the glass plate 1 iJLt a norealaa opritspletole. Dar üelat; ^v i ^ ä oua in the air or in an la has already been explained.

Veraehiedana other plastic materials can instead aar nitrocellulose be varwaadat. Also glass and various ^ BalIaA afiajMn be entwined, inebesondare glass with oiaee so low We can see that the aeosphere crystals in it do not squint know·

Tension in which the layer 3 has a certain crowning

Can be reduced by the sale of oil or Kluinuf wax as a bed base. This tiaxnua has dia acidzaia 2 and an electricity value of about 12 out"

Phosphorus 20 g

Kizinuswaohs 24 %
Mncertalc 12 g

Castor oil 4 g Suspension is created by dissolving cot last three

in one: solvent, consisting of 2U- ~> oo »'lenzol and 50 cewietrahyda-ofui'an, and work towards the Ihoo ^ xorc la sWfanfüongfom using MBraer and iletlll. Lie he altena -us-lon can then on the conductive Bela & 2 of the glass plate 1 Ltst wasan «

Benzene and tetrahydrofuran evaporate after drying Laeeen the Bott »ngg» at «rial and the Hboepfcor back to the beginning if the topping is a bit flaky, it can become vain by heating it up quickly, "old one flaaae t> smoothed". Hoses quick E hlteen brings the ftoox> hcn particles, for an AugenMicJc in fHHPWinirm. daoa you will be suspended in this rome fcretarrea honored. If the flash is too long, the particles become dull to the 5ie4erachlagea uad eo cie Suspcnrior. roretiren.

Per RlxKiertale and there, "siad Risinusöl soft Acher, the special in one KoerMnation suitable,"Ähroc'.ei.ilicJ · wa & ui their dielektriecien Uigeneehaften. But other Weleh can also be used

_ ί. tL

7ir ζ 1

12 -

The thickness of the different layers can be changed to take account of the different voltage ratios and the like. The voltage naturally depends on the type of phosphor used, the thickness of the phosphor density and the desired brightness. Voltages between 25 volts and 2500 volts and above have been used. * Bin «Lupe, which is fed by an 11o volt alternating current network, can produce an iridescent effect from a conductive surface at the diece of the light wavelength, viewed from an angle , the phosphor layer 3 being about 0.05 aa, and the metal layer 4 a fraction of a thickness of 0.025 am thick. The plate can be of any suitable thickness and should also be transparent or translucent.

A particularly effective phosphor can be produced by thorough mixing in a fine powder form of approx 75 Oewlchtstellen zinc sulfide (containing 25 * zinc oxide) and about one part zinc chloride, about 0.075 parts copper sulfate and about one part lead sulfate

These are preferred values for best results; it can but also the copper, calculated as metallic copper » can be changed over a range of o, o3 * to 0.5 * »and the Chloridaenge, calculated as ülnkchlorld, between o, 4f and 21t, although when using a fluoride the The amount added should usually not be more than 0.1 * The The length, calculated as sulfate, should be between 1/4 * and 5 *, with the higher amounts only used when a strong flow of nitrogen or other inert gases is present during heating, which causes the excess ülel aitniant.

The components must be seen thoroughly in a fine powder form, and heated in an inert atmosphere to 900 to> * 5o ° C, %. », In a gas-tight electric furnace filled with nitrogen and connected to a Kaaaer,

ί, tL

ftf Z 1

su · which a steady slow stream of nitrogen goes through the furnace. A total of 200 g of the phosphorus was obtained in an electric furnace at about 100 ° C, and "" rare Xn a small (juars shell in a quartz tube 7 £ ea diameter and 75 ea long) which was closed at both ends * nitrogen was introduced at one end of the tube by means of a 6 aa-quarsröhrehena and aa the other end through an equal

sela Erhitsea of phosphorus are three stages su distinguish In the first stage the mixture gives off ovals of the halides used and the oil compounds and turns yellow Coloring on · which darkens with further heating. It will Material removed from the furnace at this stage, so it has no significant electroluain food yet. In the world Stage slacken the Daapf development considerably, and the The color of the phosphor becomes a little darker, like a greenish one Orau. If the phosphorus is removed from the furnace at this stage taken, so he is luainessensfählg. In the third stage If the phosphor continues to darken, it becomes rough and sandy and eventually loses its naturalness. The phosphor au8 therefore against find the “wide” or at the beginning of the third Level can be removed from the oven. Which "fluffy Mass can then be crumbled or shaken, among other things stubfuraige particles see below

After all, the phosphorus can su * increase its heating up Luainessens old acetic acid or aaaonluaacetate treated will. The brightness is usually reduced to the Increased several times, and in many cases this negates the exposure first the difference between very good or no brightness at all.

When treating the fired phosphorus powder alt acetic acid a solution of about 5 * acid in water to about 6o bis 100 ° heated, preferably close to 60 ° Ci and over the Phos-

T ir ζ ι

ρhör poured, while this is carefully lifted under · sucked until it is thoroughly processed let, ι.α. For 2 minutes. The suspension is then filtered, washed out with water and dried. The temperature of the solution is kept at up to 100 ° C. during the entire treatment and even during the filtering.

If also through the acid treatment process just described If the phosphorus is improved, an Asnsonluaacetat treatment is preferable, as it is easier in the application is, and also increases the brightness especially wlrksaa. In other cases the acetate gives us 50% lighter phosphorus than acetic acid. With this method, the phosphorus becomes a sufficient quantity of saturated aqueous solution Aaaonluaaeetatlösung xugesetst, among other things form a porridge su * der Stirred in a mortar and rubbed thoroughly until all major units «are divided into their components · A semi-saturated acetate solution is now used in the ratio of about 2oo cc for each * 1oo g of phosphorus added, sur Formation of a thinner pulp, whereupon the simmering pulp above Suspension is poured off. An equal amount of half-saturated acetate solution is now sugar-set and poured off or filtered off. This procedure is continued after successive dilutions «two treatments old 1/8 - saturated solution, then swel old 1/12 - saturation, then two old 1/16 saturation and several old pure water. The treatment can, if desired, old two liquid »· Streams are continuously carried out, flowing on the phosphorus, one of the streams of water and the other consists of acetate solution and gradually reduces the acetate droop will. If the acetate concentration is based on phosphorus Not all too diluted, so see what has been dissolved Zinkox / d down again on the phosphorus.

The effectiveness of the treatment apparently lies in the de- «It is founded on sohUit β l ^ en ^ inkoxyds, with the SuI I id

Z 1 - 15 -

and probably also small particles of linkoxyd, which are on the had established externally, or zinc oxide, aas still in dan sulphide crystals could be distributed, remain behind

If KaslgsMurel solution is used, it must be so weak that it removes the oxide without also removing the sulfide. The acetate solution does not attack the sulfide, and the ptt value of the solution can be changed by changing the proportions of the ammonium and Acetate radicals can be changed from 4 to 9 without losing its effectiveness. This is important because the composition of commercially available ammonium acetates is different and often deviates considerably from the stoichiometric behavior. The acetate solution may also remove any thin surface films from the surface of the sulfide crystal, and perhaps also some of the copper , although the latter is less likely to let go.

Other ammonium salts, such as chloride, are also effective, but ammonia itself cannot be used. The reason for this seems to be that a reaction between zinc oxide and ammonium acetate forms a complex zinc-diamond acetate and water. Ammonia itself has no negative ·· radical sur Education "in such a complex ·· ·· t \ Xx removing de · the oxide and Zinlcantelles de · zinc oxide. Ammonium chloride and many other ammonium salts would act like the acetate.

The effect of the treatments described above on accordingly activated ZnS - ZnO - phosphorus is given in the following table:

»Ans Relative · brightness treated in Ausjcan £ smischun £ Untreated 1 1oo 1 10 9o W. bo 8o O 6o 7o O 5 5o O

ft? η

1ir z 1

- 16 -

£ • 1 of these experiments was carried out with, eeignaure. UIe Ammonium acetate uehanulun ^ generally gives about t> o £ more brightness that is close to the maximum.

• As can be seen from the table, there is none Effect in the experiment with 100% alkali sulfide, probably «Hurry in this i'alle No zinc oxide was to be removed while in the other potashes a remarkable one due to the treatment Increase in brightness was achieved. The tests with untreated phosphors showed hardly any perceptible Luainessens before treatment, what the opaque effect of zinc oxide, which is a sub-sulfide in comparison high electrical conductivity oat.

In the experimental apparatus, a hundred times more electricity passed through with the treated phosphorus than with the treated, old, a sinusoidal current of 100 / olt and 60 periods per second the metal plate on the top 11 and jtoden egendTttYXFTT Endell \ Tila sitaol WT ABwenouiYg of 1.5 g of phosphorus in 1, 2 * oo rRisinusol a ütrom of 5 milliamperes before the treatment, and o, o5 milliamps after the treatment by. For the purposes of this description, felt as a phosphorus with hphemic specific resistance, such a designett derYlft MM above-mentioned apparatus under the described conditions o, o5 garbage lamp'reee _% but not more than · * <ν5

The specific resistance of phosphorus is even greater than the amount of electricity that goes through the cell, but suggests, since a large part of this current is due to the capacity of the iielle is due. The current of 0.05 milliamperes when the cell is filled with oil and treated phosphorus Ib in the above example is about twice as ei «** than the one that goes through when UIe "rush only lulled with castor oil int"

fms

ftf Z 1

- 17 -

Since the phase angle «wipe apaanung una atrom hardly much than 5 ° or 10 °, only a small part of the current can be used the conductivity of the phosphorus must be reduced. The main part of the e is therefore due to the higher permeability constant of the mixture with added phosphorus traced back. Since the dielectric content of the phosphorus oil mixture is twice as large as that of the UI alone, so • The phosphorus constant appears to be quite high and probably higher than 1o, since the phosphorus is only about a third of the Volume of the mixture in the cell.

If, however, the phosphorus is untreated, a considerable amount of zinc oxide is present, and since the dielectric constant of the oxide is only about 2.5 , the high value of the value in untreated phosphorus is due to its high value.

For further · example one · for electric luminescent devices a Usable phosphorus is made by a greenish mixture of the following substances in the form of finely divided powder manufactured in the following ratio:

Zinc sulfide (ZnS) 75.6o g

Zinc oxide (ZnO) 2A.A2 g lead carbonate (PbCO ₅ ) 1.87 fi copper oxide (CuO) 0.0637 g

The sulfide used contained 5 g water and 1 * zinc chloride. The water was removed by drying the mixture at 160 ° C. The batch was then milled for half an hour Xa ceflnhalt a mill of I000 with acetone, then dried again feglUht and I000 C in an open Quarsschale in a Ufen. Previously purified nitrogen was during co »OlUhens led over the mixture in the oven old one uesohwindlgkelt of 0.06 liters per minute. After the increase, the phosphorus was easily smelted in a Morse code in order to achieve it

1ir

flaky cakes in its single parts or in small ones Open the aggregates

The powder was then aged from a boiling solution 5jt aqueous acetic acid treated, then old one 1/2 yt solution of the same acid, and finally bit water washed. In each ladle the phosphorus was placed in the acetic acid and the whole thing boiled for about 10 minutes brought, and uaa cooking five minutes l'ortjeeetat.

Bai Phoephoren, which contain about 25 * oxide in the starting mixture, it has been found that the 'rosentaats are after Heating was practically still 25>. After treatment With the solutions described above, however, was the oxide content dropped to £ 5 and less, so the finished phosphorus is off • there is about 95% sulfide or more.

Phosphorus produced without any oxide content from the starting material had only about a fifth of the luminosity of the old Oxyd produced, and even these 2o? Luminosity are only old to reach a copper content which is much higher than the highest case for phosphorus, the oxides use. A small amount of oxide may also bilaen in alpha-read phoephores during the hit, as it is difficult to remove any amount of oxygen from the nitrogen atmosphere which is used during the glow " to keep.

The sulfide-containing prepared by the above process Phosphorus oil is old a greenish-yellow Light when excited with 6o perloden p.üek. and old blauea Lies with a number of periods of 2ooo p.Sec.

(In orange-yellow fluorescent phosphorus can be obtained by using Made by Hangan in activating quantities old dea üulfld will. For example, such a phosphor is produced

fms

IL ft

ζ 1

. 19 -

by mixing 87 weight of steep ^ inksulfld and 1? divide Zinc oxide in (is a fine powder old about 2.1> Manganese sulphate, 0.8% tin chloride and 1% aleisulphate. These components are used as dry, preferably finely divided inilver, or also in wet 4u »tande -ia1 in lit. s.e. in an a «asserbrel, followed by drying. Some of these Connections remain in i-ulverfora and others loose see la Water.

In every case, the mixture obtained should, after the dl Components have been thoroughly ashed, are preserved " preventive care in an inert Atao sphere, as for the one above specified phosphorus, at a tea temperature of 900 to 1200 ° C, preferably at about 1000 ° C. Mach In the case of hits, the mass produced is »crushed or see below the desired particle size, although the phosphorus, among other things, is better. The less it is called.

Phosphorus is then subjected to an aftertreatment sweekaäSig, like K.ü. old Uacetic acid or Aaaonluaacetat, as above has already been described, among other things, to increase its luminosity · Such a treatment seems to have a lesser effect Manganese phosphors mentioned, probably because of the smaller ones Oxide amount in the initial mixture

Other phosphors activated by manganese, which are peculiar to slectrolual systems, are kadaiuasilicate and üinkfluorld phosphors su mention. Electroluated sulfide phosphors can also be used in which the / ink is partially or completely replaced is made by kaium or strontium.

2 to 5 "peculiar embodiments of the invention, in which two long conductors 6 and 7, bxw. U and 9 page üclte are, themselves, and between them naua from elnea covering or a layer 1o bsw. 11 au «elnea electric

fmί

ilL > 7

7 ir ζ ι

- 2o -

Lumineesian Phoephor are surrounded, which is embedded in an electrical material. The conductors and ale layer are of insulating holders 12 biw. 13 worn. In VIg.2 and J the conductors are made of an insulating layer 14 of enamel flush wires 6 and 7, both of which are wound side by side at an equal distance of only a few hundredths of a ma or at an even smaller distance from one another. In> ig. 4, the conductors β and 9 interlock for a long time and can be attached to old metal clips or in some other way on an insulating tube, such as the glass plate. See opposite conductor groups 8 and 9, although they interlock, do not come into contact with one another, since they are separated from one another by a distance of a few hundredths of a mm or less.

AIa lamp in the sense of this description is a device considered the light of one sufficient for practical purposes Strength supplies. Luminous intensities of less than one l are suitable for some purposes, while the described lamps several ae-si ^ TDe1 one

alternating supply of 60 periods / sec. deliver ,, and at • f <r% \ i "a- fhfiis <& >tooS> jL ·

* ⁱ⁷ several thousand periods / sec. Ve eistr omiuruhflfTs bis ^ fuSiambert

2o * # · »» - aee 'radiate.

Such lamps are therefore useful for all lighting purposes, including luminous surfaces for ceilings, light sources for table lamps, neon signs, clock faces, luminous panels for electrical switches in houses, door street lighting and many others.

1, UiU 1009 ^>

Claims (1)

Claim 1 Ilectroluaineasens-Laape, containing a rat electrode and «in · in · near · the same arranged second · Electrode, as well as a «« «laugh both lying down, one electric lualnessating phosphorus-containing layer. 2. Laape according to claim 1, in which the phosphor consists of one part, and the space that is not filled with the electrode bit is filled with dielectric material. 3. Laape naoh claims 1 or 2, in which the lumiuessierende Phosphorus high specific electrical resistance own. 4 · Laape according to claims 1-3 »at least one of the said electrodes made in close contact old of said Layer standinga, translucenta, electric leltenuea fs «tea material consists» 5 · Laape according to claims 1 * 4, in which the translucent conductive material consists of an old, transparent, electrically conductive, Uelag-provided Ulas plate. 6 · Laape according to claims 2-5, characterized in that dafl said dielectric material is a body. 7 · Laape according to all preceding claims, in which the electrically luainessende phosphorus essentially hus thin, slealloh flat electrically luainessende crystals beηtent, protrude from their otherwise flat Jeiten courses lead. ·. Laape according to claim 5, wherein the transparent conductive glass plate consists of a glass plate which is a transparent one conductive covering aua partially reduced linnchlorld, which is in direct contact with one of the surfaces of the layer stands, which bulges the electrically luminescent phosphorus. 9 · Laape naoh all the preceding claims ^ in the case of the Nutritional phosphorus is also essentially activated Crystals of a combination of linkoxide and alkali sulfide exists, and is practically free of any unbound ^ inkox / d 1o, Laape according to claim 9. characterized thereby, UaS the Phosphorus contains a small amount * lei 11. Lanpe according to claims 1-8, characterized in that that the phosphorus is made from a hit-treated mixture of zinc sulfide, zinc oxide, a copper compound and a x Separate connection exists. 12. Lamp according to claims Io and 11, characterized in that that one of the ingredients of the heat-treated mixture Halide iat. 13 «Laape according to claim 11, characterized in that aafl dl« Annealed mixture 75 parts of zinc oxide for every 25 parts of zinc oxide contains. 14 · Laape according to all the preceding claims, del that of the Phosphorus essentially free of any unbound, low pacific resistance crystal fragments. 15. A lamp according to claims 1-14 , characterized in that it treats heat-treated phosphorus with a solvent which is suitable for selective removal of alkoxide with removal of the sulphide. 16. Lamp according to all of the preceding claims, in which the hitie-treated electrically luminessierenue phosphor in one Washed weakly acidic solution, filtered off, and washed with waaser rinsed · »1st. Lamp according to claims 8-14, characterized in that the heat-treated phosphorus has been washed in a solution of compounds which can react with old alkoxide to form a zinc complex compound containing soluble oxide, the phosphorus then being filtered off from the solution and rinsed been 1st. 18. Lamp according to claims 9-14 »in which the heat-treated Phosphorus washed in a solution of ammonium acetate, then is filtered off and rinsed in water. 19 · Lamp according to claims 9-14 · in the case of the non-treated Phosphorus is treated by mixing it with a practically saturated solution of ammonium acetate to form a substance has been «whereupon the acetate solution was diluted to practically pure water. 20. Lamp according to claims 9-19 · in which the phosphor sii 95 * - consists of iinksulfld and not more than 5 * zinc oxide. 21. Process for the manufacture of electrically lumlnesilerender Lamps according to claims 9-14 · characterized in that the heat-treated phosphor is washed with a solution capable of removing ^ lnkox / d leaving the Sulphide, after filtering off the remaining undissolved Solid substances are rinsed out of the water. 22nd Process for producing electrically luminescent lamps according to claims 1-14, characterized by the following processes: washing of the heat-treated phosphor in a weakly acidic solution, filtering off and pUling of the undissolved solid substances old water. 23. The method of manufacturing electrical lamps according to claims 9-14, characterized by the following Vorgäag ·: Washing of the hit-treated linxux / d-containing Phosphorus in a solution of a compound "which lacks, It reacts with zinc oxide to form a soluble one oxide-containing zinc complex compound. Filter off the solution old of the alkoxydkoaplex dissolved in it and rinsing it remaining undissolved solids old wasner. 24 · Process for the production of electrically luminescent Laapen according to claims 9-14 «geicenn> elected through conductive« Operations: Washing of the skin-treated slnkoxy-containing Phosphorus in a solution of aaaonluaacetate | Filter off and opulence of the remaining undissolved solids old faener. 25 · Method of Making Electrically Lualneasierenaer Laapen according to claims 9-14, characterized by the following Curtain ": Mixing the hita-treated slnxoxydhaltlgvn Phosphorus with a la substantially saturated solution of Aaaonluaacetat iur production a ·· ireIi, a dilution day the acetate solution until it is practically pure water 26. Process for the production of an electrical lualneeslerende Phosphorus is characterized by the following processes: 2ueaaaen> Sheeting of suitable moving joints and similar 3 parts of zinc sulfide, about 1 part of alkoxide, so that the formation of green crystals during the treatment is secured; Hit the mixture and immerse the annealed Mix in a solvent for zinc oxide removal of the unbound oxide crystals. 27. Elelctroluainessende Laape according to claims 1 - 2o, at which the phosphorus in a material old low acid lahl ei ^ ebettet 1st. 2β · Laape according to Claim 27, in which the bedding material • In the lower · uiuresahl than 3 · 29 · Luape claims · 1 - 20, in which case the phosphorus la einea ala ^ klisohen dleletctrlachen material embedded 1st. . 25 - 3 ·· Laape according to claims 27-28, in the case of the flettungsaaterlal «Is in cellulosic material with neutralized acidity 51 · rag · according to claims 27-26, in which the bedding material is a guard of hydrogenated rislnus oil · 32 · Laape according to claims 1 - 2o, in which the Uettun ^ seateaus Glass is 33 · Lajspe according to claims 5 or 27 - 32, in which the Ulelek · tlaity constant and specific resistance of the uettun ^ s- ■ aterlal compared to those of phosphorus is high. 34. Laape according to claims 5, or 27-32, »ei as a dielectric constant and the spitfish resistance of the Mttuof ■ aterials is high. $ 3. Laape naoh claims 5 or 27 - 34, in which the fixed Dielectric material fills the skin with the wipe of the two electrodes and essentially consists of a powdered bed embedded in Ina electroluminescence phosphorus consists 36. i * ape according to all preceding claims, in which both Electrodes provided with old conductive coatings, translucent Plates are » 37 · Laape according to claims 1 - 2o and 21 - 56, in which one of the two conductors is a metal filament deposited by metal evaporation. For Sylvania Electric Product3 Inc., llew lorki Lawyer