DE6933618U - FLASH BULB - Google Patents

Description

Priorities: August 28, 1968 - U.S.A. -

Kr. 756 026 and 756 0

summary

A flash lamp for photographic purposes is described in which the powdery metallic fuel in the Z undercharge consists of zirconium and boron and the igniter charge contains small amounts of sulfur, either as elemental sulfur or as sulfide, in order to improve ignition reliability. to improve the hit sensitivity and the reliable storage time before processing the batch.

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A flash lamp has already been proposed which § *

consists of a translucent piston and a fuel arranged in the piston, and one of which is mechanical ignited ignition system is arranged with respect to the fuel I that it can trigger its combustion, and in particular, this older flash lamp is on the lamp bulb a container arranged, the interior of which is in communication with the interior of the piston, and a batch in the container arranged, which consists of particles of a material ignitable by impact and a powdery en pyrophoric metal.

A mechanically ignited flash lamp according to the older proposal is triggered by a blow on the container, which is roughly the shape a soft metal tube may have ignited to the To detonate the charge and thus ignite the fuel in the lamp bulb. Often the high-speed gas stream hits from the exploding detonator to the chipped fuel, so that it becomes a compact mass in the The dome of the lamp is compressed. The incineration of such a compressed mass of chips delivers proportionally LichtV so that the luminous flux from the lamp is the desired Value not reached.

The charge for the flash lamp according to the older proposal consists of red phosphorus, potassium chlorate, a powdery pyrophoric Metal and expediently a resin binder, such as nitrocellulose or hydroxyethyl cellulose. Other components “For example, an abrasive and a dispersant can be present. From all existing fabrics

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only the red phosphorus has a very low ignition temperature and ensures the friction and impact sensitivity in connection with the potassium chlorate. “The pyrophic metal used in powder form takes part in the first stage of ignition by blow not part. However, it fulfills two very important punctures: the otherwise explosive nature of the phosphorus chlorate reaction is soothed by the metal powder, and the metal serves to deliver glowing particles that cause combustion convey the explosive charge through the lamp to the chipped metallic fuel.

It has been found that when the relative content of a metal powder in the batch is increased, both the sensitivity to impact ignition and the intensity and severity of the combustion decrease. However, high impact sensitivity is necessary for batches for mechanically ignited flash lamps. On the other hand, highly sensitive batches that contain little metal powder are disadvantageous because they do not reliably ignite the chipped fuel and burn so violently that they ensure that the chips are tightly compressed. The combustion of such compressed chips has a very poor efficiency and thus the luminous flux of the lamp is considerably influenced.

The invention is therefore intended to provide an explosive charge for Mechanically ignited flashlights are made available which are very sensitive to ignition by shock and a better reliability for the ignition of the chipped fuel without it being pressed back too much by violent, explosive burning.

The most important metal component of the batch of a flashlamp

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the older proposal is powdered zirconium ,, However, it has been found that explosive charges based on zirconium burn down either too hard or too little schlagcr.pfinälicb v / areri, Ti 3 ^{0 0} C ^ ¹ ^ eT yprvpnflptfin relative amount of Zlrkonpulvei'o If silicon powder was used in the same volume instead of zirconium, resulting in a certain degree of sensitivity to impact as well as a modest burn rate which could not be achieved with zirconium. Boron powder also gave better impact sensitivity and smoother burning.

Venn also both the impact sensitivity and the Burning rate improved by using silicon or boron instead of zircon in the egglosive charge of mechanically sound flash lamps however, it has been found that these materials are inferior in one important aspect sina, namely, they do not promote the reliable ignition of the machined metallic fuel as well as zirconium powder Differences are particularly evident when the total amount of explosive in the Flash lamp is reduced to a minimum, which is especially in view of the aforementioned phenomenon that the Chips are compressed, is highly desirable.

According to the invention, jed.ch found that a combination from boron and zirconium results in an exploded batch which is superior to a batch in its overall properties, which contains one of the two metals alone. So it is possible both the ignition reliability for the chips to increase and maintain the sensitivity and the burning characteristics of explosive charges based on boron, when part of the boron is replaced with zirconium powder. Zirconia rerbrer.nt with significantly higher temperatures than Silicon or boron and possibly ea is due to this-

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so that the zirconium is more effective in the chipped fuel || can ignite.

The red phosphorus is the least stable material of the explosive charge ο it becomes rapidly in the presence of moisture oxidizes and is converted into phosphoric acid in the process. The speed of this slow oxidation leading to deterioration the charge is significantly enlarged by the presence of traces of metallic copper or copper salts. The overacidification resulting from the initial oxidation tends to deteriorate even more rapidly to promote the remaining phosphorus. But if the phosphorus is kept in a dry atmosphere and under a basic one pH values, the deteriorating oxidation proceeds very slowly - if at all - f; rt ■

For critical applications in which the impact ignition sensitivity of phosphorus is required, the material can be stabilized in the following processes:

1) The very fine particles are removed to make the reactive ones Reduce surface area per unit weight to a minimum;

2,) the content of oxidation-promoting metals, for example Copper and iron, is depreciated, and

3-) em alkali, for example aluminum hydroxide, is added, to maintain the non-acidic state, even if an initial oxidation has taken place.

However, it was found that even this stabilized so-called Red Phosphcr is measurably deactivated when exposed to the tree air intermittently over a period of several days is exposed, and contact with air is almost inevitable in a manufacturing process.

It has already been suggested

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that explosive batches for mechanically ignited flash lamps they are better sensitive to raw material if they come from an aqueous solution Medium are deposited as if deposited from a non-aqueous medium »This effect is been attributed to the fact that water-soluble potassium chlorate deposited on the phosphorus particles during drying will beat. The resulting intimate mix of phosphorus and potassium chlorate is considerably more sensitive to impact as a similar weight mixture, which is precipitated from an organic solvent and from discrete, isolated particles of phosphorus and potassium chlorate.

Explosives batches for mechanically ignited flashbulbs, the maximum achievable Schlagempfindlic required ¹ -keit because such flash lamps müsren work reliably with minimal impact, which is compatible with the construction of a camera. Of course, excessive vibrations and shocks are undesirable in a camera mechanism. Aqueous suspensions of explosive charges, which give the necessary sensitivity, suffer from problems of phosphorus instability. If they stand for several days, the state of a typical aqueous explosive charge changes from neutral or slightly alkaline to strongly acidic. Chloride ions are found in such spoiled explode batch slurry, although no such ions are present in the fresh material. The existing phosphoric acid reacts safely with the potassium chlorate and supplies free hydrochloric acid, which then breaks down and forms chlorides. Hydrochloric acid is a powerful oxidizing agent and promotes further oxidation of the phosphorus. Lungs, however, before such overacidification occurs, will find a measurable and drastic deterioration in susceptibility to impact ignition by equipping lamps made with such spoiled material

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either have a poor percentage of reliability or fail completely. The explosive batch suspension must therefore be prepared and processed fresh, preferably on the same day. This impossibility j a certain amount of work for the Expl ^ sir batch flooding maintain, complicates the large-scale production of mechanically ignited flash lamps in considerable Measurements, it has also been found that on some occasions fresh explosive material does not meet the usual requirements for sensitivity because the container the phosphorus from which it was made had been deactivated by atmospheric moisture,

It is therefore a further object of the invention to make available an explosive for mechanically ignited flash lamps which has well improved stability in the liquid state _:

In addition, an explosive is to be made available by the invention, which is very sensitive both in the dry state and, moreover, maintains this high sensitivity under operating conditions better than any previously known explosive, and this is made possible by adding a small Amount of sulfur reached »

The invention will be explained in more detail with reference to the drawing, in which a longitudinal section through a flash lamp according to the invention is shown »

The mechanically ignited flash lamp shown consists of a piece of glass tube that is hermetically sealed Forms lamp envelope 2, which is contracted at one end to form a suction tube 4, and at the other end has a pinch foot 6 «A detonator 8 is tight in the Pinch foot 6 used. The igniter 8 consists of one

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Metal tube 10, a wire 12 and an explosive charge 14.

The end of the Eohres 1C, which is outside the lamp envelope 2 is closed while the other end is open. The wire 12 is in the tube 10 with a flanging 16 supported near the outer end of the tube. The explosive charge 14 is arranged on the part of the wire which is in the exposed part of the Eohres 10 is arranged. A fuel, for example filamentary zircon 18, and a Combustion-promoting gas, for example oxygen arranged in the lamp bulb 2 "

A satisfactory explosive for use as a batch in the flashlamp illustrated may have the following dry matter composition: boron 21.17f, zircon 19.53f , stabilized red phosphorus 28.63 #, sulfur 0.03 #, potassium chlorate 28.63 ti magnesium oxide 0.27 $ 1.74 Ilydroxyäthylzellulose and i "; in addition, orthophenylphenol can occur at a rate of a few hundredths of a percent, whereby the remaining percentages change by correspondingly many hundreds of a percent. These materials are mixed in a powdery state with sufficient distilled water, so that a suspension of the desired consistency results.

The mixture therefore contains boi and zircon in a volume ratio of 3: 1. With very low volume ratios, for example 1: 5 *, few of the advantages of boron remain, while with ratios higher than about 20: 1 the existing amount of zircon is only questionable. The ratio of red phosphorus to potassium chlorate can be between 3: 1 and 1: 3, but the ratio 1 is preferably chosen. The weight percentage of Roteir. Phosphorus and potassium chlorate together can be between $ 10 and SOtf , but a value in the range of the percentage mentioned is preferred.

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attract, a low content of red phosphorus and potassium chlorate results in poor impact sensitivity, ν uring too high a proportion leads to a combustion that is too explosive. The hydroxyethyl cellulose works only passively as a binder and can contain up to $ 5 of dry explosive material form"

The amount of sulfur required is not large. In one For example, two batches of explosives heavy-duty were attempted, Manufactured according to the specified composition, except that one batch did not contain any sulfur and the other sulfur was only 0.1% by weight of the phosphorus used. Both games were two weeks left to stand for a long time at room temperature, after which the material was strongly acidic without sulfur, and the other lot, which differed from this only in the trace of sulfur, neutral. Both the measurements for the impact sensitivity of the explosive as well as studies of the lamp reliability have confirmed that the sulfur-containing material is not only more stable, but also somewhat more sensitive to impact ο This phenomenon is not fully understood, however, it is believed that the sulfur combines with existing traces of copper to be very inert and to form insoluble copper sulfides «On this practically complete removal of the oxidizing copper · is therefore at least partially due to the observed, significantly improved performance.

Sulfur is therefore extraordinary at low concentrations effective, and it is believed to be useful in proportions as low as $ 0,0005. The use of relative large amounts of sulfur, for example up to $ 5, gives one some reduction in the sensitivity of the mixture to ScMag. Preferably, however, about $ 0.03 is used, which appears to

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bar considerably exceeds the effective minimum proportion which However, impact sensitivity is not adversely affected. If noticeably less sulfur is used, however, practical results occur Problems on, and av / ar in terms of the carriage and the homogeneous Mix in such small amounts

The sulfur can be in the form of sulphides of metals or others Elements or as an element. For example, zinc sulfide or phosphorus sulfide can be used, without deviating from the concept of the invention. However, there are no benefits from using sulfides instead of elemental ones Sulfur recognizable.

In any case, the use of the smallest amounts improves Sulfur or sulfides, especially in fractions of a percent, the stabilization or permissible storage period, as well as maintaining the impact sensitivity of explosives for mechanically ignited flash lamps based on red phosphorus »The invention is particularly important in the With regard to water-based explosive batches, their significance is but not limited to these.

Obviously, the composition of the explosive batch can differ significantly from the fourths of the example mentioned, without thereby deviating from the inventive concept. The main function of these metals is to transfer the combustion from the explosive to the machined fuel. "The mixture of boron and zirconium is the best! 5" Zt "known mixture, but each of the materials mentioned in the main patent can also be used alone in conjunction with the sulfur additive can be used. As noted, phosphorus and potassium chlorate can be present in weight ratios of 0.3 to 3.0 , although a ratio of 1.0 is preferred.

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The total content of phosphorus and potassium chlorate can be between Left $ 10 and $ 90 of the total mix. In the lower area i the ignition sensitivity is not so great and in the upper range an inadmissible severity of the combustion is reached. Magnesium oxide is added to make the material slightly alkaline and can be in denominations of about $ 0.1 to about $ 5.0. The Hydroxyäthylaelluloae is used as a binder, and their amount can also range from about $ 0.1 to about $ 5.0. lie.

" ../Expectations

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Claims (4)

Expectations ο Flash lamp with mechanically ignited ignition system, the one Has charge which contains a powdery pyrophoric metal j characterized in that the powdery ^ The pyrophoric metal of the batch is a mixture of zircon and boron. 2. Flash lamp according to claim 1, characterized in that the volume ratio of boron to zirconium is between about 1: 5 and about 20: 1. Flash lamp according to Claim 2, characterized in that the volume ratio of boron to zirconium is approximately 3: 1, 4. Flash lamp according to claim 1, 2 or 3, characterized in that that the charge contains red phosphorus and potassium chlorate in a ratio of about 3 s 1 "to about 1 s 3. 5 = flash lamp according to one of claims 1 to 4, characterized in that the weight percentage of red PhOE _x JhOr and potassium chlorate together is between about 10 $ and about 90% of the total charge. Flash lamp according to one of the preceding claims »characterized characterized in that the batch contains a small amount of sulfur. 7 = flash lamp according to claim 6, characterized in that the Schwegel amount is below 1 # and preferably 0.03 $ des Dry weight of the batch. (593361826.11.70 ·· f> · P ί * "ft 4Nt | Αφ 'O 8ο Blixzlauipe according to claim 6 or 7, characterized ₉ that the sulfur is in the elementary state <. Flash lamp according to Claim 6 or 7, characterized in that that the sulfur is in the form of a sulfide. 693361826.11.70