DE933191C - Flash lamp - Google Patents

Description

Flashlight The invention (concerns a flash lamp, whose Glass bulb one: loose filling from lekht b, rennb, arem Fabric round one: entertaining the combustion Medium, e.g. B. Oxygen-containing gas contains, Us one to create a suddenly flaring up, very: strong beam of uktinic light with the flammable substance: allows to react. In particular the invention is concerned with nature and Au @ sb, ildwng des b @ re @ nnb, ar, en material for such B.litzli: chtl.ampen. As a flammable material you can use e.g. B. zircon, Aluminum and magnesium or aluminum M: agnesiium alloys in the form of powder, Chips, foils, tapes or wires. Before- Zugswei-se @diest fabrics .as Bensch, from extremely thin metal foil. or as a ball made of very fine metal wire. It is known to be aluminum or magnesium foil on 2o to. 60 microns: roll down and then between strong .to 5 microns hammer down, like: this at: the processing from Silberfoke is known. The obtained films are then cut up and continued like gold foils hammered between thin sheets of paper until , you got a strength of i M.iWon or wenäger. Thicknesses of o, 4b: i, so, 5 microns were aimed for. It is clear that such procedures are extraordinarily unlawful. Aside from that. if they deliver very uneven products, this leads to considerable fluctuations in the duration of the ignition of the various lamps. The lamps are therefore not only very expensive, but do not even meet the requirements with regard to uniformity of ignition, which is an indispensable requirement for the light lamps that work together with photographic cameras.

Also the attempt to make aluminum wires of about 25 microns S-tärlc-e., did not lead to satisfactory results. D, an aluminum is too brittle to get through normal drawing process to be brought to this cross-section, one has the aluminum . Covered with a copper jacket and then pulled this jacket wire, Abis: die Aluminum core had the desired cross-section. Then the coat turned on chemical Ways away. This drawing process is also very expensive and leads to unsatisfactory The result is that the wires obtained have a smooth, poorly igniting surface to have.

Now you have earlier to enlarge the surface; already aluminum or magnesium bands provided with successive, parallel slits or .sie @ dera @ rt machined alternately with, higher and lower rolling pressure, .that .the edges have been jagged. It was, but proportionate wide and strong ribbons, otherwise no parallel slits attached or none alternating thinning and thinning (with correspondingly alternating lesser and greater width with the formation of spikes) can be produced.

So until now it was: not possible, I,: on a cheap way Mable filler of: good ignition properties, to produce.

According to the invention, on the other hand, there is the combustible filling of the flash lamp .of relatively short strips with a cross-sectional area of about o, ooo6: mm2 and a width of about 0.025 mm, which by cutting up eggs about 0.025 mm thick metal foil, preferably a pure aluminum foil, with the formation of lighten the inflammation: the ridges have been won.

Assumed - # vi-rd so at the front of a film of a thickness such as that due to cheap, normal working procedures, e.g. B. by rolling can be obtained. Instead of further processing this film in an expensive way by hammering it or by cutting it up and then hammering it, it is simply cut into narrow strips. This does not create a smooth, wire ax-like structure with an approximately square cross-section, but rather heavily blown strips, which have longitudinal ridges on the edges. Lamps with derertrigen, stripes: have a higher peak intensity. and a greater overall light output than comparable lamps Aluminum wire. At the same time, the swan ignition by 2 or 3 milliseconds degraded. These advantages are achieved through a driving, .this is also much easier and it is cheaper than the known methods. The drawing gives ibei: spiels- # vei: se a piston shaped flash lamp; after; , the invention in one Embodiment. again. Prop. i shows: the lamp in side view; Fig. 2 schematically illustrates an Ei @ nri @ ch- device for the production of burnable flashlight lamp filling according to the invention; -Fig. 3 has a 67-fold cross-section Enlargement: individual strips of the invention for use: as fuel in flash lamps Detect crushed metal foil. According to prop. i shows the flash lamp a translucent shell or ball io made of suitable material, e.g. B. Glass, in which a Filament ii is arranged, the ends of which with the inner tips of veiler holding and supply lines. wires 12: are connected by .dien Gl: assitiel 13 - .through to the base 14 attached to the flask neck! to lead. The piston io is made of highly flammable material 16 filled, which is loosely arranged in it and Förnig over the whole -obb; eniho # hl.raum and around , the filament ii is distributed. The Glass bulb: ii a combustion process entertaining gas, such as B. oxygen or one Oxygen-containing gas, under a suitable one Pressure to .the combustion of the flammable Substance 16 to maintain. The pressure of this gas filling changes depending on the type of gas used, -the size of the glass bulb is ok and the amount and nature of the filled b renmiba-re: n fabric. For glass bulbs from the: current, commercial size and at, loading use of oxygen as the combustion under- halide gas and pure aluminum as Flammable material can be the pressure of the gas filling of the glass bulb up to 600 mm mercury column or even up to an atmosphere. However the gas pressure when using oxygen preferably between about 450 and 600 mm Mercury column to choose. The combustible substance 16 consists according to the definition made of metal foil cut into strips and will. according to rig. 2 through appropriate division of a thin metal sheet or ribbon 17 generated, which you previously by rolling on the about o, o25 mm thick, has, which the cut strips or strands finally> should have. The individual relationships moderately short strips with a width of on the order of: about 25 microns or less cut and should have a cross-sectional area of about o, ooog mm2 or less each, varzug @ w-eise, on the order of o, ooo6 mm2 to have:. For cutting it is preferable an aluminum foil, in particular a foil "Vollhart" -alu.minium im: Consider, even if eire Foil made of other metal, such as. B. from magnesium or from alloys of aluminum and / or magnesium, can be used.

The rolled metal sheet 17, for. B. from Alumdni.um is in the form of a catch band of uniform width, e.g. B. from 150 to 300 mm, preferably from about Zoo mm, which (see. Fig. 2) to a roll 18: fge, # wraps, eats. From this roll, the aluminum is fed by two friction rollers i9 a direction transverse to the blade edge 2o 1 7, where the thin strips of uniform width by a circulating Schneiid-, verkzeug Wied cut 2i ,, which is provided with a plurality of cutting edges 22; is the with the knife edge 2o together, menw, i: rken n. The speed of rotation of the cutting tool 21 is also matched to the running speed of the aluminum strip 17 drawn off from the roll 18, so that strips of the same width are in of the order of about 25 microns. The stripes or strands formed in this way, s-ihd (see Fig. 3), are characterized by the presence of ridges or serrations 16 'of microscopic size extending in the longitudinal direction of the stripes extend.

These strips or strands of aluminum are then inserted into the glass bulb io the Bl, iltzl, ichtampe by any suitable, not subject of the invention forming process egg infested. For this purpose one can be used to fill the glass bulb sufficient amount of strips or strands gathered together and by any suitable rod-shaped tool. loosened and then with this the formed one Bulk 16 of aluminum strips stuffed into the glass bulb and all over it Cavity to be distributed. Preferably, you can use the metallic strips or strands 16 pneumatically, -, n the lamp bulb after in the USA.-P, aten.tsch, ni: ft 2 347 046 described procedure. Here, will. (see Rig. 2) the Glass flasks 23 to be filled via one end of a supply or inlet tube 24 inverted, the other end merges into a nozzle 25, which is immediately below, the Knife recognized 2o and this is arranged as close as possible. The open neck 26 of the Glass bulb 23 is then through .dien with a vacuum source: connection head 27 and connected to the pipe supports 28, so that a suction force arises in the pipe 24, which the individual from the film 17 by the knife edge2o and the cutting tool 21 each separated strip through the nozzle and the tube 24, after the glass bulb discharges. This is where the streams catch because of their curled, winding or crumpled shape and due. , the restricted air outlet between the flask neck 26 and the feed tube 24 and gradually fill the entire glass flask 23 as a uniformly distributed, entangled mass of metallic strands or Strip off.

This filling compound 16, consisting of a tangle of metal strips or strands of metal, is extremely light and 'flaky and. ibes: it has little, if any, elasticity. Sohon, the suction air alone, when it is used to fill the filling compound into the lamp, makes the filling compound, infola, its light weight fluffy and flaky, and in this state it usually remains in relation to everyone - when handling and. Propagation of the lamp occurring bumps and sags, only when excessively strong. Impact effects on the lamp somewhat together. This light and practically inelastic, according to the invention formed from narrow thin metal strips, lightning-tight lamp penis filling under.s, before, is basically from a z. B. after the USA.-Godfather's ear: ift 2 16.2 847 filling compound made of wire, in which an internal tension must be introduced into the wire in order to give it elasticity, so that this wire: itself inherent elasticity then the entire filling compound is kept in a spatial state and, due to the high degree of this elasticity, cannot be compressed even by excessively strong impacts exerted on the lamp bulb.

The cost. the production of the thin strips according to the invention flammable flashlight bulbs provided are very low. Rolled out foils Made of "Vo.1111art" aluminum with a thickness of 25 microns and less, which is commercially available available in ribbon form at a price; compared to the bilsher with B'lätzlichtlampen usual extremely thin beaten foils is relatively low. Also, these are currently "rolled aluminum foils" in use if they are also very thin, but not thin enough to be effectively ignitable to be when relatively aluminum strips were used as filling material for BIJitzlichtlampenv (Can be used-. On the other hand, by having such rolled aluminum foils of about 25 microns thick according to the invention simply in strips of one width about 25 microns, a very cheap and sufficiently thread-like one Flammable filling compound with a slight E: ntflammbarkeit achieved.

Commercially available rolled film is practically more uniform Thickness. Therefore, by cutting this uniformly thick film, the dile will be removed Mini pieces of the same length and practically the same width resulting in strips or Strands' have a uniform cross-section, and therefore (the various with The lamp bulb filled with this fuel also has uniform flashing light effects result.

Preferably -, although one according to the invention .aus is strip-shaped Cut up metal foil formed by bulk alone as a flammable filling for flashlight lamps Can be used, but can be used without. more also together with other suitable ones flammable fill quantities, such as the well-known hammered, thin foci or the .fine-drawn Wires made of aluminum or magnesium or alloys of these metals, combined in order to give the flash light to be achieved any desired properties to lend.

Claims (1)

PATENT CLAIM: B111tzlichtlampe, whose bulb egg is made of metal. fölie educated Filling and a den Gas that supports the combustion process is holds, characterized in that the combustible Filling, from a ball of proportionately short, of a about 0.025 mm dü, clsem Foil tape, preferably made of aluminum, with the formation of ridges Strei, fem with a transverse surface of about o, ooo6 mm2 ib (stands. Tightened print necks: German patents. No. 6-35 443, 598 744; Austrian patent specification No. 146 053; USA.-P.aten-tschrs@ten No. 2, 2.77 776, 2 274 400, 2254849.