DE2504188C3 - Photo flash lamp - Google Patents

Description

The invention relates to a photoflash lamp with a bulb, one extending therein Pair of conductors, a quantity of combustible material which is ignitable by an ignition means, the Ignition means is contained in an opening of an electrically insulating part and with the in this Part of the melted conductors is in electrical contact.

Photo flash lamps can be broadly divided into two types of voltage: low voltage and High voltage lamps. The low voltage lamps should usually be powered by a battery or a A charged capacitor can be ignited with a voltage of around 1.5 to 15 volts, whereas high-voltage flash lamps should be ignited by an ignition pulse of a few hundred volts or more, like him can be generated by a piezoelectric element. Usual low voltage flash lamps show a filament that is placed over the lead-in wires when the filament by an ignition current is heated, it ignites an ignition material, which in turn is a combustible material such as Metal foil, ignited, which, with the help of oxygen, creates a flash of light in the lamp

In typical high voltage flashlights, the ignition material is directly above and between a pair Arranged insertion wires, which lead into the flashlamp köiben. The round material can be on the Top of an insulating part made of glass or ceramic are held, through which the lead-in wires pass through it, or it can be carried in a cavity in such a part. At a Another construction is the ignition material on or in a recess in the inner wall of the piston Worn underside of the lamp. Another high voltage flash lamp disclosed in US patents 28 68 003 and 30 00 200 is the priming material on one or both insertion wires within the Applied lamp, and the electrical circuit is through the combustible crushed metal foil in the Lamp closed.

The DT-OS 19 48 089 is based on the task at ίο a combustion flash lamp to avoid leakage paths for the electric current in the lamp in front of to ensure the build-up of a high voltage at the poles during lightning. To solve this problem is a certain shape of the ignition compound and / or the body containing this compound is required, according to the above-mentioned DT-OS part of this design consists in the fact that the ignition mass and the body containing this mass is provided with a recess which both the ends of the Current conductors as well as the ignition compound connecting these conductors surrounds.

The DT-OS 20 05 597 is based on the task of avoiding paint paths in a combustion flash lamp, namely both leakage paths that may be present after flashing and the ignition of the Prevent the next flash lamp as well as avoiding leakage paths in not yet flashed Lamps. To solve this problem, a flashlight lamp is proposed which is characterized in that

that a body of electrically insulating material that lies within the piston parts of the current conductor completely surrounds and at the end remote from the lamp base with a with the bulb space in Connection standing cavity is provided in which the conductors end and in which the ignition mass is located.

The DT-OS 20 48 720 is based on the task of defining certain distances for a combustion flashlight lamp or dimensions can be set safely and reproducibly in order to achieve error-free flashing. To the solution This task, the combustion flashlight lamp is designed so that the end faces of the current conductors almost coincide with the surface of the body made of electrically insulating material and with each with a separate electrically conductive layer located on the surface of the body stand, while on the conductive layers, which are not in contact with each other, the ignition ground is attached, wherein the primer mass is the non-conductive part of the surface of the body between the bridged electrically conductive layers.

In contrast, the object on which the present invention is based is, in a To create a new and improved mounting structure for the photoflash lamp of the type mentioned above, in which the ignition material reliably ignites the combustible material in the lamp and a flashed lamp with it Safety has a large impedance across its lead-in wires

This object is achieved according to the invention in that the opening containing the ignition means passes completely through the electrically insulating part, one end of the opening on the flammable maieriä! and the other end is directed towards the sealing area.

According to an advantageous embodiment, the opening is conical, with the larger one Cross-sectional area is located at that end that

is directed towards the sealing area. It has also proven to be advantageous if the opening has the shape a slot extending between the lead-in wires.

According to another embodiment, the opening can also be essentially circular Have cross-sectional shape.

Finally, it is beneficial if one of the Lead-in wires extend from the electrically insulating member towards the combustible material. ι ο

Ausführungsbebpiek of the invention are in the Drawings shown and are described in more detail below. It shows

F i g. 1 is a side view of a photoflash lamp;

F i g. Figure 2 is a plan view of the mounting arrangement in the flash lamp according to FIG. 1,

F i g. 3 is a side sectional view of the fastening structure,

F i g. 4, 5 and 6 side sectional views of other embodiments of the mounting structure,

F i g. 7 shows a side view of a flash lamp construction according to a further preferred exemplary embodiment;

F i g. 8 is a side sectional view of the fastening arrangement according to FIG. 7, * ₅

9 shows a plan view of the attachment according to Fig. 8.

The in F i g. 1 flash lamp shown comprises a tubular bulb ti, which preferably consists of a Borosilicate glass or another suitable glass material such as lead glass. At one end of the Lamp a compression seal is provided through which a pair of lead-in wires 13, 14 from the outside into the Interior of the piston U pass parallel and at a distance from each other and part of a Form attachment 15. The piston 11 is above the attachment 15 partially with a loose mass thread-like or comminuted metal foil 16 made of zirconium or hafnium or another suitable one combustible metal filled. The air is sucked out of the piston 11, and then this is with Oxygen filled at a pressure of at least a few atmospheres, this pressure being about 5 to 10 Atmospheres can be. The plunger is then attached to a suction tip 17 at the opposite end of the the compression seal 12 sealed. The lamp can be made with the ordinary lacquer or a protective coating Plastic coated.

As is also shown in FIGS. 2 and 3, the fixture 15 includes lightning means for igniting of the combustible material 16, wherein a glass bead or another glass, electrically insulating part 18 is sealed over and around one end by the two lead-in wires 13 and 14. One Opening 19 extends through bead 18 and is provided between and in connection with both insertion wires 13 and 14. The pearl 18 can be formed by placing a glass ring around the ends of the insertion wires and heated for a sufficient time at a suitable temperature so that the glass ring is in a Melt contact with the end portions of the insertion wires converges, the slot-like or otherwise shaped opening 19 remains. Greater accuracy can be obtained by using the Glass ring is molded into its position. The ends of the insertion wires 13 and 14 lead only partially into the Bead into it as shown in Fig 3, and that Bead material lies over the ends of the insertion wires. Suitable dimensions for the pearl 18 are a height of about 2 mm, with the slot 19 about 0.4 mm wide and about 1 mm long between the Insertion wires 13 and 14 is.

The opening 19 is at least partially filled with ignition material 21. Various suitable ignition materials are known; for example, a mixture of fine particles of zirconium and potassium perchlorate along with a binder like nitrocellulose and a solvent like amyl acetate will. This binder can be in liquid form on the opening 19 with a lifter or a syringe or by brushing or by dipping the reverse attachment onto the surface of the liquid Ignition material are applied. The small cross-sectional area of the opening 19 and the fact that the Opening is open at both ends, causing a capillary effect that the introduction of the liquid ignition material supported in the opening. The binder and solvent are then dried off from the Ignition material 21 removed from opening 19. The attachment 15 is preferably in the piston 11 sealed before the ignition material 21 is introduced into the opening 19 of the bead 18, and then the combustible material 16 is placed in the flask above the bead 18, thereby opening the top of the opening 19 directed at the combustible material 16; then the trigger end 17 is tied together, the piston is evacuated and filled with oxygen and finally melted off at 17.

The mounting structure achieves several desirable advantages: Before the lamp flashes the upper ends of the insertion wires 13 and 14 passing through the bead material and the igniter material are covered, are not short-circuited by being in contact with strips of the combustible material 16 come. The bead 18 is large enough in diameter to reduce the likelihood of that strips of the material 16 down between the bead and the inner wall of the piston 11 protrude so as to short-circuit the lead-in wires 13,14. When flashing the lamp, if it is arranged in the usual way with the base down, as shown in As shown in the drawing, a voltage is applied to the ignition material 21 via the lead-in wires 13 and 14 applied, and this causes an ignition of the ignition material 21, causing sparks from the opening 19 both spray upwards as well as downwards. The upwardly spraying sparks are on the combustible material 16 and ignite it with the help of the oxygen in the lamp, creating a flash of light. the sparks directed downwards from the opening 19 make a complete one with the aid of gravity or substantially complete ejection of the ignition material from the opening 19 safely, whereby a Open circuit instead of a short circuit in the flashed lamp between the lead-in wires 13 and 14 is ensured. This downward flow of sparks is on the thickened glass at the seal 12 at the bottom of the piston directed, which withstands this spark current without difficulty. It also helps with flashing of the lamp the glass bead, which is partly or completely the upper one. Ends of the insertion wires 13 and 14 covered to prevent particulate matter from coming out burned or partially burned metal of the combustible material 16 fall onto the ends of the lead-in wires and cause a short circuit or a

Cause partial short circuit between these wires. Furthermore, the small cross section of the opening 19 has the The tendency to prevent burnt metal residues from falling into the opening 19 in order in this way to the Short-circuit lead-in wires 13 and 14.

In the modified exemplary embodiment according to FIG. 4, one insertion wire 14 extends completely through the bead 18 and is in electrical contact with the combustible metal 16, which is at It is desirable for some flashlights so that the combustion material 16 is electrically grounded reducing the possibility of accidental electrostatic flashing of the lamp.

In the embodiment according to FIG. 5, a glass sleeve 23 extends from the bead 18 downwardly and _S i to the introduction of a wire 13 around. This glass sleeve also prevents residues of the combustible material from forming a short circuit between the lead-in wires 13 and 14 on the underside of the bead 18 after the lamp has flashed. In the embodiment according to FIG. 6-6, the bead 18 is shaped so that it extends downwardly and partially around each of the lead-in wires 13 and 14. The purpose is the same as in FIG. 5, that is to say that residues of combustible material 16 from the flashed lamp are prevented from short-circuiting the lead-in wires below the bead 18.

The alternative embodiment according to FIGS. 7, 8 and 9 is generally the same as that in FIGS F i g. 1, 2 and 3 embodiment shown, except that the opening 19 passing through the bead 18 is a round, conical hole which, in the direction of the The underside of the pearl and towards the sealing area 12 has a larger diameter. It is to be noted that in Figures 8 and 9 no ignition material in the Opening 19 is shown. In a successful construction of this embodiment, the The height of the pearl 18 was 2 mm, the smaller (upper) diameter of the opening 19 was about 0.6 mm and the diameter of the larger (lower) end of the circular opening was about 1 mm. It's on it to point out that near the small upper end of the opening 19 is the glass or other material of the pearl 19 completely covers the upper ends of the insertion wires 13 and 14, so that actually ensured is that no metal residues from the flashing of the combustible material 16 can fall into the opening 19 and the Short-circuit lead-in wires 13 and 14.

It is assumed that the bevel of the opening 19, as best shown in FIGS. 8 and 9 with the larger end at the bottom with respect to the lamp (assuming that flash lamps are usually arranged with the base down when flashing), contributes to the fact that Remnants of ignition material fall down and out of the opening and continue downward out of the opening be blown out towards the thickened glass on the sealing area 12. That's why the conical design helps that no significant amount of ignition material in the opening 19 after Lightning remains, which is a short circuit or a low resistance across the lead-in wires 13 and 14 would effect while simultaneously providing a sufficient amount of ignition sparks from the orifice 19 spray upwards so as to reach the combustible material 16 and ignite when the lamp flashes will. The slot-like opening 19 shown in FIGS. 1 through 6 could also be similarly beveled or conical in order to accommodate them Way to have a larger cross-section at the bottom of the pearl 18 than at its top. The Embodiment according to FIGS. 7 to 9 can have the same modifications according to FIGS. 4 to 6 exhibit.

Preferably, a clear glass bead 18 with rounded sides is used, as shown in FIG Drawing is shown. This causes the curved sides of the pearl to act as a magnifying lens, in order to support a visual examination of whether there is ignition material in the opening 19. The Ignition material 21 is usually black or dark in color. The lead-in wires 13 and 14 are preferably shaped in the manner shown; they are essentially parallel to each other and they have a greater distance where they enter the interior of the piston 11 than at their upper one Ends at the bead 18 (this distance on the bead is a function of the desired ignition breakdown voltage). This way, there will be a greater distance between the lead-in wires at the bottom of the Inside the piston formed, and this makes e: less likely that any fall the metallic remnants of the combustible material 16, dif reach the bottom of the piston, a short circuit Above the lead-in wires 13 and 14, pictures include alternative lead-in arrangements, dal the ends of the lead-in ladder are introduced through opposite sides of the pearl 18 de.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Photo flash lamp with a bulb, e in itself in this extending pair of conductors, a quantity of combustible material released by an ignition means is ignitable, wherein the ignition means contained in an opening of an electrically insulating part and is in electrical contact with the conductors fused in this part, thereby characterized in that the opening (19) containing the ignition means (21) passes completely through the electrically insulating part (18) hinduich leads, wherein one end of the opening (19) on the combustible Material (16) and the other end is directed towards the sealing area (12) 2. Flash lamp according to claim 1, characterized in that that the opening (19) is conical, with the larger cross-sectional area that end is located, which is directed to the sealing area (12). 3. Flash lamp according to claim 1, characterized in that the opening (19) has the shape of a between the insertion wires (13,14) extending slot. 4. Flash lamp according to claim 1, characterized in that the opening (19) has a substantially Has circular cross-sectional shape. 5. flash lamp according to claim 1, characterized in that one of the insertion wires (13, 14) extends from the electrically insulating part (18) in the direction of the combustible material (16).