DE2453965B2 - HIGH VOLTAGE PHOTO FLASH LAMP - Google Patents

Description

The invention relates to high voltage photocell lamps Using a sealed bulb made of translucent material, a pair of insertion wires spaced apart into the bulb lead into it, which is at least partially covered by electrically insulating material between the lead-in wires is set, a mass of metallic combustible material that fills the piston substantially, with a the combustion-bearing atmosphere in the piston and with an igniter placed between the Insertion wires is connected and comprises an ignition material deposited on a first insertion wire is arranged.

Such a photoflash lamp is described in US Pat. No. 2,868,003. The ignition of these lamps is carried out by means of a lead attached to the lead-in wires High voltage pulse to ignite the ignition material, which in turn ignites the combustible material. The high voltage pulses are supplied to the photoflash bulbs, which are generally in multiple flash arrangements can be used for sequential flashing of one flash lamp at a time, by means of an electrical ignition circuit fed. A known ignition circuit for such a multiple flash lamp arrangement is in US Pat US Pat. No. 3,728,068. The flash lamps are connected in parallel and are thus ignited, that successive lamps in turn

ίο Ignition pulses are supplied, with the lamps be switched into the pulse circuit by heat-sensitive switches. The circuit arrangement works in principle in such a way that flashed lamps, a power interruption or a Represent idle, are scanned and the first lamp in the arrangement is supplied with an ignition pulse having a proper resistance across the spaced lead-in wires or electrodes having. A flashed lamp representing "an idle state" shows in comparison to a non-flashed lamp usually a higher electrical resistance between the lead-in wires, reducing the The flashover voltage of these flash lamps becomes a critical factor in the operation of this ignition circuit intended way. In other words, it means that there is an excessive deviation in the electrical Resistance of an unflashed lamp due to non-uniform spacing between the lead-in conductors or the ignition material could result in higher flashover voltages are required, which prevents lamp ignition. on the other hand an already flashed lamp should not form a short circuit if the flash lamps are parallel are switched. However, short-circuiting can occur in various ways due to the severity the lightning reaction that occurs. If a short-circuit is formed, however, the successive ones then flow Ignition pulses from the short-circuited flash lamp and do not reach the next to be ignited Flash lamp. Thus, it is clear that what is required is a flashlamp which can reliably be used for a Ignition ensures when triggered by a high voltage pulse at a predetermined flashover voltage is ignited, and the same after ignition an open circuit or an open circuit forms.

It is therefore an object of the present invention to provide an improved flash lamp with a more uniform one Create a flashover voltage and an open circuit condition after flashing.

This is the job of a high voltage photoflash lamp of the type mentioned according to the invention in that the ignition material and the second lead-in wire connected by an electrically conductive film spaced from the first Insertion wire and adjacent to and in contact with the combustible material is, and insulation is the entire first introductory

Insulate wire except for the section to which the ignition material is applied.

Further advantageous refinements of the invention emerge from the subclaims.

The advantages achievable with the invention are in particular that through the electrically conductive The film according to the invention provides for premature lamp ignition due to an electrostatic discharge between the adjacent combustible material in the piston and the ignition material. Furthermore, the coaxial electrode configuration ensures between the conductive film that forms the insulating sleeve of the a lead-in wire, and the lead-in wire itself for a uniform distance ensure a predetermined breakdown voltage for the ignition device. Another extension of the conductive film beyond the lead-in wires to a point on the inner surface of the The piston wall removed from the ignition device helps prevent premature ignition by electrostatic discharge. If both insertion wires are provided with an insulating sleeve, forms the electrically conductive film establishes a connection between the ignition material and the non-ignition material! provided entry ladder as a cover over the entire structure. The arrangement of the electric conductive film in this way shields the end of the ignition material provided with further into the Introducing the insertion wire into the plunger to avoid an accidental discharge due to electrostatic discharge better to prevent by the ignition material. If the ignition material is relatively conductive, it will necessary to insert a dielectric boundary layer. the generation of the predetermined breakdown voltage supported by initially being a senior manager Prevents a path with a small resistance through the ignition material. Such a dielectric Boundary layer can be placed on the lead-in wire before the primer is applied or form a coating on the ignition material adjacent to the conductive film.

The invention will now be explained with reference to the following description and the drawings of various exemplary embodiments explained in more detail.

Fig. 1 is a perspective view of a photoflash lamp according to a preferred embodiment;

Figure 2 is a cross-sectional view of the igniter for the flash lamp according to FIG. 1;

Figure 3 is a cross-sectional view of the igniter with a dielectric barrier layer;

Fig. 4 is a cross-sectional view showing another preferred embodiment.

The lamp shown in Fig. 1 is a miniature lamp with a tubular bulb 10, preferably made of Borosilicate glass or other suitable translucent material. At one end of it is one Press seal 12 formed through which a pair of conductor wires 14 and 16 at a distance from the outside in the Insert piston 10. Sleeves 18 and 20 of a dielectric material are provided on each insertion wire arranged like glass or ceramic to form a gap between the wires inside the bulb, as is clear from FIG. It should be noted that the insertion wire 14 continues into the Plunger leads into it as the introducer wire 16. which can be achieved by inserting the introducer wire 16 is bent into the shape shown at 22 or that simply a shorter lead-in conductor is used. At one end of the insertion wire 14 there is a mass or bead arranged suitable ignition material 24, which protrudes beyond the sleeve 18 and as a means for igniting the Lamp is used when due to a high voltage pulse supplied by the electrical ignition circuit an ignition spark is generated between the lead-in wires. A conductive metal film 26 is over the Conductor end applied, which can be done, for example, by coating with a conductive metal to provide a connection between the primer material and the shorter lead-in wire 16.

The piston 10 is with a loose mass of thread-like or crushed metal wire or Foil 28 substantially filled, such as with zirconium or hafnium or some other suitable combustible material. The air is drawn out of the piston 10 and then the piston is with Oxygen under a pressure of at least several atmospheres, such as about 5-10 atmospheres, filled. The plunger is then sealed on a pull-off tip 30 which is attached to that of the pinch seal 12 is arranged opposite end. The lamp can then with the ordinary lacquer or the protective plastic cover as a finishing step.

F i g. 3 illustrates another embodiment. In this case, a dielectric boundary layer 32 directly is disposed under the conductive film 26 as a means for preventing the formation of an electrical Path through the ignition material 24 through when the ignition material itself is relatively electrically conductive. Accordingly, the lamp includes a sealed envelope 10, a pair of lead-in wires 14 and 16. im Lead the distance from one another into the piston, which is formed by electrically insulating sleeves 18 and 20 is, and a mass of metallic combustible material and a combustion supporting The atmosphere. The conductive ignition material 24 is arranged between the lead-in wires and is connected to the dielectric layer 32 is coated. There is the conductive film 26 as a means for Connect the lead-in wires. There can be a similar connection between the insertion wires can be used when the dielectric barrier layer 32 is applied to the end of the prior to the ignition material Lead-in conductor 14 is applied.

In your embodiment shown in Fig.4 only the one insertion wire 14 is provided with a sleeve and the conductive film between the Insertion ladders extend further along the inner piston wall of the pinch seal 12 in order for an electrical connection between the metallic combustible material within the piston and the Introductory leaders to ensure. It should be noted. that the conductive film does not make electrical contact with it the protruding end of the insertion wire 14 establishes a short circuit between the insertion conductors to prevent.

Deviating from those described above preferred embodiments, it is also possible, for example, that both lead-in wires in lead in the same way up to the same height within the piston, with a predetermined breakdown voltage could be determined by a greater spacing between the lead-in wires. Likewise could the bending of the one! "

with it protrudes less than the other insertion wire into the inside of the piston , in a way: rdcn that ensures a better connection between the (! guide wire and the thread-like mass of metallic.flammable material.

1 sheet of drawings

Claims (7)

Patent claims: 1.High-voltage photobütz lamp with a sealed bulb made of translucent material, a pair of lead-in wires that lead into the piston at a distance from each other, at least partially by electrically insulating material between the lead-in wires is set, a mass of metallic combustible material that the piston substantially fills, with a combustion-supporting atmosphere in the piston and with an ignition device, which is connected between the lead-in wires and has an ignition material that is on a first insertion wire is arranged, characterized in that the ignition material (24) and the second lead-in wire (16) are connected by an electrically conductive film (26) formed in the Distance to the first insertion wire (14) and adjacent to the combustible material (28) and with this is arranged in contact, and insulating means (18) the entire first lead-in wire Insulate (14) except for the portion to which the ignition material (24) is applied. 2. Photo flash lamp according to claim 1, characterized in that on the first insertion wire (14) a sleeve (18) made of electrically insulating material is arranged as the insulating means. 3. Photo flash lamp according to claim 1, characterized in that one of the lead-in wires (14,16) leads further into the piston (10) than the other insertion wire. 4. Photo flash lamp according to claim 3, characterized in that the further in the piston (10) introducing wire (14) is provided with an insulating sleeve (18). 5. Photo flash lamp according to claim 1, characterized in that the electrically conductive film (26) at a point remote from the ignition device with the mass (28) of combustible material connected is. 6. Photo flash lamp me claim 3, characterized characterized in that, in addition, on the second insertion wire (16) a sleeve (20) made of electrical insulating material is arranged and the ignition material (24) on the not with a sleeve provided portion of that insertion wire is arranged. which continues into the piston (10) leads into it. 7. Photo flash lamp according to one or more of claims 1 to 6, characterized in that a dielectric boundary layer (32) between the ignition material (24) and the conductive film (26) is provided. which prevents the formation of a conductive path through the ignition material.