DE2204965C3 - Flash lamp - Google Patents

Description

60 14 700 lumen seconds / cm ³ , not available.

The invention is hereinafter referred to

explained in more detail on the drawing. In detail shows

F i g. 1 is a view of an all-glass photoflash lamp with a most uniformly distributed one

The invention relates to a flash lamp with a filling made of a thread-like hafnium material, translucent borosilicate glass flask with a fig. 2 an all-glass lamp similar to FIG. 1,

Volume less than 1 cm ³ , a heat extension but with a base according to the lamp with the expansion coefficient from 40 to 50 · 10 - '/ ^c C, type AG 1,

3 f ₄

FIG. 3 shows an all-glass lamp similar to FIG. 1 with Another form of ignition device, i.e. H. one

a Zunding in the form of an impact tinder, ignition device according to the so-called impact

^ \ ^e _t ^ine viI ^£ e ^aS d ampe according to the state of the igniter type, is in F i g. 3 shown. A stick 22

Techn, k using a filling made of fiber- carries a coating 23 made of an ignited by impact

shaped material, 5 baren fuse material on part of its length

F, g. 5 shows the design of the thread-like fibers and is centered in a deformable metal tube

Combustible material soft in the, flashlights 24 attached to one end of the lamp envelope 10

_the figure. 1 to 3 can be used and which protrudes and is guided there in a sealed manner. The

are curled or curved; _{Pipe 24 jst dabd an ximm} . ^^ _{£ nde v £ r} ,

Fig. 6 shows a known lightning cube shape, closed in io. The lamp according to Fig. 3 is by which lamps according to the l · . G. 1 to 3 used blow flashed by holding the tube 24 ~ with a hams ' ¹ "*'. Mer or a spring in a field opposed

F i g. 7 gives a curve for comparing the severity of the detonator material 23 with the ignition heightened summed light output as it fertilizes this material. This is then made from the by embodiments of photo flash lamps open the inner end of this tube 24 into the lamp crack the invention in comparison with previously known pistons hillaus thrown to ignite the burning-Blitzkmpen is obtained; material in the lamp. Lamps of the type

Fi g. 8 shows the curves of the course of the momentary light output power put into a flash cube, based on the interior, if known, suitable conical piston volumes for previously known pistons and for 20 structures for mechanically operated spring hammers are an embodiment of the flash lamp according to FIG used to flash the lamps.
Invention. Other devices can optionally be used for ignition

In Fig. 1, the flash lamp 10 contains a discharge of the flash lamps used, for example

seals closed piston 11 made of clearly known piezoelectric crystals or

zuger.em glass tube with an internal volume of 25 lasers.

less than 1 ecm. This bulb is at one end photoflash lamps of general external shape by an integral flattened part or according to FIGS. 1, 2 and 3 are known per se. The pinch seal 12 is sealed and otherwise in accordance with the teachings of the present invention End through a suction tip. 13. Inside the execution of the construction and the basic piston Fibers made of combustible material are modified in 30 parameters and in a novel way 14 distributed and react when igniting the lamp combined to surprisingly lightning-chemical to create with a lamp that maintains combustion with greatly increased Gas in the flask, such as oxygen, to add up total light output for a common To get flash of light. given size of the lamp bulb. The increases

The lamp is with a suitable device to be on the order of a factor of 2 or 35

Equipped Zür.dtng des Blitzens. In the case of about it. The technical teaching given here is

The lamp according to FIG. 1, this device includes a particularly advantageously applicable to the newer ones

Pair of lead wires 15 used in the squeeze all-glass miniature flash lamps and flash cubes in which

foot 12 are introduced sealed and at their inner the inner volume of the lamp bulb less than

Ends through a filament 16 in the form of a short 40 1 ecm.

A piece of fine tungsten wire with a diameter. A lamp bulb 11 is made with a volume

knife \ on about 0.015 mm are connected. Globules of less than a cubic centimeter from a

made of fulminant or ignition material 17 are on the nem borosilicate glass with a low heat dissipation

The supply lines 15 are produced as a coating of expansion coefficients in order to increase the expansion coefficient

brought and are in contact with the filament 45 strength to hold the bulb together and

16. If the filament is resistant to thermal and mechanical

is actuated, they will receive shock from the heat of the glow-like shock when the lightning flashes

the filament ignited and the burning of the filament-lamp occurs. In addition, one also receives an

shaped separable material 14. An isolating-drawn hermetic seal with the accessories

of the support part 18, for example a glass bead, connects 50 lead wires 15. The

the two leads 15 together and below the lead wires 15 are made of a metal

supports its holder inside the piston. Made of or made from an alloy that is essentially

extended ends 19 of the lead extend borrowed the same coefficient of thermal expansion

from the pinch seal 12 to the outside and how the glass possesses. For example, a suitable

support the mounting of the flash lamp in a lead made of an iron, nickel, cobalt alloy

conventional lightning cube 20 according to FIG. 6 and are produced. A suitable glass is in the

serve as an electrical connection line to the US-PS 35 06 385 described. This glass is made

Lightning temp. essentially from the following components in

F i g. 2 shows a flash lamp design according to Jen specified ranges: 60 to 75 weight

the type AG 1, in which the pinch seal 12 is 60 percent SiO ₂ , 10 to 25 percent by weight B ₂ O ₃ , 1 to

Can be larger and with a transverse groove 21, 10 percent by weight Al ₂ O ₃ , 4 to 10 percent by weight

is stalten. The ends of the feed lines 19 are total alkali oxides and 0 to 5 percent by weight

bent back over the pinch foot, and their free BaO.

Ends are returned to the pinch foot and a The glass has a mean coefficient of

embedded and result in a lamp linear thermal expansion between 0 and 300 ⁰ C,

socket for mounting the flash lamp at a rate in the range of about 40 x 10 " ⁷ to 50 x 10 ~" per degree

Base part. Such a base construction is in the Celsius. The wall thickness of the glass is not dependent

T) S-PS 30 16 727 described. on the composition of the borosilicate used

Glass. Examples of suitable wall thicknesses of the glass-metric chemical reaction with the filamentous tube from which the pistons 11 are made, material 14 made of hafnium on the basis of a are in the range between about 0.25 to 1.25 mm. idealized chemical reaction equation Hf ■ + - O.

In addition to using a borosilicate glass tube, HfO _{2 is} required. Such gas pressures will be

with the properties mentioned for the piston 15, 5 are in the range of about 8 to 30 atmospheres. at a combustible filling 14 made of hafnium or hafnium takes place for a period of 5 to an alloy is applied that will cause combustion to occur essentially from 10 milliseconds after ignition Hafnium consists. The thread-like material 14 comparatively slowly, and indeed it paces by can continue in a manner known per se from hafnium foil, such as the chemical reaction between the cut to form a fiberized film made of high molecular weight hafnium and the put. The thickness of the hafnium foil is as the oxygen accelerates. During the acceleration Area between 0.013 and 0.04 mm, and the incision of the burn favors the finely kinked width of the individual fibers is in the range of about or crimped condition of the fibers the occurrence 0.013 to 0.075 mm. The amount of in the lamps- a very steady and high speed Flask filled fibrous combustible material 15 the chemical reaction and thus results in an ungeterials is in the range of 60 to 200 mg per cubic - comfortably high light output power during the Centimeters of the inner lamp volume. entire life of the lamp. As a result, it follows

In order to determine the distribution of the frayed hafnium- the instantaneous light output power per unit of the materials in extremely uniform and lamp volume for such lamps up to one tightly over the inside of the piston to under- 20 period of about 13 milliseconds after the propping, are quite tight as shown in the operation of the filament 16 of the lamp F i g. 1, 2 and 3 the fibers are kinked sharply or the curve shape of previously known lightning cube lamps, wrinkled along its length at acute angles in this is in the curve of FIG. 8 reproduced, of the order of 60 °. For example, a soft lamp is labeled Type A and for a Fiber length of about 10 cm kinked with 20 to 40 25 embodiment of the flash lamp according to the invention sharp kinks, which is representative at intervals of approximately. This means that the flashlights 3 mm along the length of the fiber. That are suitable for use with camera types Crumpling takes place after the individual thread conveyors, which the operating characteristics are more familiar, come Fibers from the sheet-like film material need merzieller flash lamps, for example des are cut out, and before the introduction of the 30 flash cube, its course of the light output power Fibers in the lamp envelope. in Fig. 8 is shown.

The sharp bends or creases in the hafnium metal itself and the itself

Fibers give these fibers closely zusammenge- flashes forming hafnium oxide have at Atmoballtes or wrinkled appearance, such as at 25 in spheres pressure boiling points of about 5400 ⁰ C. In the FIG. 5. When the higher gas pressures in the flask are filled, the crumpled fibers form a boiling temperature corresponding to the well-known physi-point contact with the inner wall of the flask G. 1, 2 and 3. This represents a mixed intensity and light output power which clearly differs from the fiber forms with hafnium-oxygen reaction with high fillings, relatively large open loops and light bending or loads inside the piston from borings, soft over considerable Lengths on which the silicate glass is held, and in the case of photoflash lamps, the bulb wall is in contact, as shown, for example, from the commercial production of a strongest representation of FIG. 4 at 26 for previously known increased light output power results without Zer metal fillings of previously known lamps. jump of the piston. The inventively produced

As a result of the above-described kink 45 photoflash lamps produce a summed or ripple effect, the inhibiting or extinguishing or integrated light output power of at least the effect of the bulb wall with regard to the burning rate of 14,000 lumen seconds per cubic centimeter of the speed of flashing the lamp, and in some cases up to to a diminishes, and the combustion efficiency value of 32 500 Im s / cm ³ .

is increased with increased light output power. 50 Many thousands of photo flash lamps are in accordance with the Furthermore, the even distribution and invention makes it established and successfully flashed Filling density of the film, deviate sharply from the - with sufficient certainty. In doing so, construction bends were made and crimped fibers were used when using tion data and obtained results such as Flash a better oxygen response in all of them are listed in the table below. This Pistons possible, and the combustion proceeds from combustible material used with 55 lamps uniform speed through the whole of the Vo-Hafnium filaments, and the examples are in four groups lumen of combustible material. It is assumed to be type A, B, C and D lamps in the table men that in the case of fibers in a crimped form, one is gathered together. The specified light output reduced Self-absorption of the generated light powers represent values without color correction coatings due to the thread-like material inside the 60.

Piston is present and more useful when flashing As an additional measure to protect against the

real light is emitted. The glass bulb cracks when the lamp flashes

Before the lamp bulb is melted shut, the bulb is immersed, sprayed or is applied a gas that maintains combustion, for example in a different way with a heat-resistant transfer Oxygen, introduced, provided in such 65 train great strength, for example with Quantities and with such a pressure that 80 to a cellulose acetate varnish. In appropriate cases can 150% of that amount of gas is available, the coating is provided with a coloring material when the lamp is flashing for a stoichiose one, around the one emitted when the lamp is flashing

2786

7 8

To filter or correct radiation and correct color correction for the photographic to be exposed Obtain film in a known manner.

Approximate
Wall thickness Inner volume Film weight Gas pressure Light output in mm in cm ³ in mg in atmospheres in Im s / cm ^s A. 0.75 0.55 to 0.65 42 to 52 10 to 12 14,000 to 17,000 (medium 15 500) B. 0.75 0.3 to 0.35 28 to 36 13 to 17 17,000 to 21,400 (medium 19 400) C. 0.75 0.3 to 0.35 42 to 46 17 to 20 21 800 to 26 600 (medium 24 200) D. 0.83 0.22 to 0.26 36 to 44 20 to 26 26 500 to 32 500 (medium 29 500)

F i g. 7 shows in the form of a curve the temporal ao lamps were measured in the absence of a

Course of the greatly increased light output of the newly colored lacquer or colored coatings or

like miniature all-gas lamps in the form of shields to correct the output

of curves of the integrated light output power of light. As the curves show, pro

per cubic centimeter of the lamps in groups A, B, cubic centimeters of the bulb volume for the

C and D in comparison with conventional lamps - different lamp types have different values for the

types no. 5, M 3, AG 1 and flash cube lamps. All total light output in lumens per second.

Lamps

Summed up Integrated In s / cm In s / cm ³ after 25 milliseconds. at 40 milliseconds. 625 800 2,300 2,700 5,000 6 550 6 600 7 400 12 500 15 500 16 500 19 400 20 500 24 200 21000 29 500

Lamp No. 5 M3
AGl
Lightning cube
Lamp type A Lamp type B Lamp type C Lamp type D

Therefore, according to the present invention, photoflash lamps can be accommodated by the construction of the flash lamp itself be, which a much higher known way with a lamp enveloping and Light output per unit of the bulb volume can be provided with a cohesive coating or excellent safety of the product. 45 not. The total was summed up in both tables In particular, the light output of the flash lamps specified here as embodiments result for 40 milliders Invention described flashlights a light seconds. This flash duration is essentially the same output per unit of the bulb volume, which is roughly the total usable light output of the lamps, is two to five times as high as it was previously with, although according to FIG. 7 it can be seen that a sehi known flashbulbs was reached. In the 50 small increase in light for photographic Spelling and the claims, the expression purposes is still for another 10 seconds until zv "Flask" is to be understood as including a flask with a total flash duration of about 50 milliseconds is understood, which is optionally available depending on.

1 sheet of drawings

609 616/21 (

2,786

Claims (6)

(λ from 60 to 75 weight percent SiO2, 10 to 25 weight percent B, Oa> 1 to 10 weight percent ALO3, 4 to 10 weight percent total alkali oxides 1. Flashlamp with a translucent boron and 0 to 5 percent by weight BaO, an in silicate glass flask with a volume of less than 5 the bulb distributed amount of a frayed burning than 1 cm ³ , a thermal expansion coefficient ble material and an amount of at least 40 to 50-10 - '/ ⁰ C, consisting of 60 to 75% by weight of 80% of the stoichiometric 1 to 10% by weight of ALO ₃ required for the chemical reaction with the percent SiOo, 10 to 25% by weight B ₂ O _{3, combustible material} up to 10 percent by weight of the gas that maintains the combustion of total alkali oxides "and G to 5 percent by weight at a pressure of at least 8 atmospheres and percent BaO, a divided amount in the flask with an ignition device for igniting the combustible amount of a frayed combustible material - Fibrous material, the supply lines made of iron enterals and an amount of at least 80% nickel-cobalt alloy, which is an outlet for the chemis have a reaction with the combustion expansion coefficient, which comes as close as possible to the stoichiometric 15 required for the glass, and the amount of gas that maintains the combustion is melted into the glass bulb. with a pressure of at least 8 atmospheres. A flash lamp of the aforementioned type is from the and a Zündemnchtung for igniting the DT-OS 19 08 458 known. flammable shredded material, the supply lines from DT-OS 19 50 896 is a flashlight lamp made of iron-nickel-cobalt alloy, which is known for successive lightning releases, at which they have a coefficient of expansion that comes as close as possible to that of a reliable successive lightning release of the glass, and which are fused into the main and glass bulbs by a special construction, eekenn- auxiliary connection wires should be guaranteed. Characterized by the combination that the US-PS 33 03 674 a flash lamp is known, the combustible material consists of hafnium in an amount 25 as combustible material in addition to several others from 28 to 52 mg, and the combustion can also contain hafnium . The gas with a pressure of 10 to achievable with this lamp unierhaltige light outputs are less than 26 atmospheres in an amount \ on 80 to 150 °; 9000 lumen seconds / cm ³ . Subject of the DT-OS is available. 1913 417 is a flashlight with a bulb 2. Flash lamp according to claim 1, characterized by marked 30 small volume, preferably under a cubic mark, that the fibrous, combustible measure centimeter, the shredded foil-shaped combustible one The material is finely ruffled with sharp kinking material that contains a number that is dependent on the cross-section points at a large number of points in close proximity to kinks. In the older Patentan distance along the length of the fibers. message DT-OS 21 29 013 is a flashlight lamp 3. Flashlamp according to claim 1 or 2, characterized in that the flask volume in the gas contains hafnium as a flammable film and ranges from 0.55 to 0.65 cm ³ ; Piston has such protective layers that combustible material is in the range of 42 to 52 mg, the color temperature is not at maximum light output, the amount of the combustion is less than 4600 ^c Kelvin. the gas in the range of 10 to 12 atmospheres 4 ° The present invention was the task of reasons for a flashlight of the one defined at the beginning 4. Flash lamp according to claim 1 or 2, characterized by a considerably increased summed light type characterized in that the bulb volume is in the initial power while maintaining the full range of 0.3 to 0.35 cm ³ to achieve the amount of operational safety. This object is achieved by combustible material of 28 to 36 mg, which is measured by the present invention in a flashlight amount of the combustion-maintaining gas of the type defined at the outset and which is between 13 and 17 atmospheres. Combination that the combustible material is made of 5. Flash lamp according to claim 1 or 2, characterized in an amount of 28 to 52 milligrams nium that the piston volume exists and the gas maintaining the combustion is rich from 0.3 to 0.35 cm ³ , the amount of the combustible 50 is a pressure of 10 to 26 atmospheres in a barable material between 42 and 46 mg, the amount of 80 to 150% is present. With an amount of the gas that maintains the combustion, such flash lamps according to the invention are between 17 and 20 atmospheres. Blitzen summed up average light output powers 6. Flashlamp according to claim 1 or 2, characterized by 15,500 to 29,500 lumen seconds / cm ³ at 40MiIIige, the bulb volume can be generated between 55 seconds after ignition, the 0.22 to 0.26 cm ³ and the amount of the combustible Lamp is completely safe to operate. As high as the sum material is in the range from 36 to 44 mg, the mated light output power was with the up to amount of the gas that maintains the combustion of the flashlamps, also which according to the DT-OS is between 20 and 26 atmospheres. 19 08 458 with a specified maximum value of