DE2019451C3 - - Google Patents

Description

The invention relates to an arrangement for successively igniting combustion flash lamps, in which the lamps are connected in parallel to one another in an electrical circuit.

Several arrangements for sequentially igniting combustion flashlight lamps are known. Some of these systems have in common that the flashlight lamps have one or more switches, one of which cooperates with the camera shutter mechanism, connected to the voltage source and remain connected to this source or reconnected when the next lamp is ignited even after these lamps flash.

It turns out that this can cause difficulties in practice. It was found, that in about 25% of the usual combustion flashlight lamps the resistance between the conductors is lower after flashing is only about 1 Ω. This indicates the formation of current bridges through combustion products in the lamp formed.

Conventional combustion flash lamps are to be understood as flash lamps in which there are transparent flask filled with a metal wool and an oxidizing gas (O2, NF3) Ignition device is located, which consists of two conductors, which are inserted into the lamp through a filament are connected to each other. An ignition device is attached to the ends of the conductors Reaching a certain temperature burns explosively and thereby the actinic reaction between which sets the metal wool and the oxidizing gas in motion.

The formation of current bridges occurs not only with this type of lamp, but also with so-called high-voltage lamps, in which the ignition device consists of two conductors that are in of the lamp are only electrically connected to one another by an ignition ground. When putting on a high Voltage occurs electrical breakdown and then an ohmic heat development in the Ignition material, whereby the explosive combustion of the ignition material started and the actinic reaction is set in motion between metal wool and oxidizing gas.

The presence of both relatively low resistance and spent lamps Lamps that have not yet flashed between the conductors in an electrical circuit can result in that in an attempt to ignite one of the lamps that have not yet flashed, the energy supplied is completely or is partially absorbed by a lamp that has already flashed. Consequently, none of the in and of itself can still Usable flash lamps can be ignited as long as they are with the burned down lamp relatively low internal resistance in a circuit.

This phenomenon occurs by name, if not all of the flashlights in the circle immediately one after the other be flashed. It is well known that when flashing in most flash lamps, the bulb, which normally made of glass, cracks open. The contents of the flask come into open contact with the atmosphere. Combustion products which are initially not conductive or not in a disturbing manner are thereby obtained the opportunity to become highly conductive by the attraction of moisture from the atmosphere and Form current bridges between the conductors in the flashed lamp.

The aim of the invention is to remedy these disadvantages. According to the invention is an arrangement with combustion flash lamps, which can be ignited one after the other and in an electrical circuit with each other are connected, characterized in that each flashlight lamp with its own switching element in Is connected in series, which under the influence of the energy emitted during flashing, the electrical connection interrupts between at least one of the conductors of the lamp and the circuit.

The switching element can, for. B. from an electrically conductive wire or strip included in the circle exist under the influence of the energy emitted by the associated flashlight lamp melts and the electrical connection between at least one of the conductors of this with the relevant switching element in series connected flashlight lamp and interrupts the circuit continuously.

According to a preferred embodiment of the invention, the switching element consists of a local blackened wire or strip of a preferably below 400 "C but above about 85 ° C melting alloy or metal.

Metals suitable for this purpose are e.g. E.g .: bismuth, cadmium, indium, lead, tin and between about

85 ° C and about 400 ° C melting alloys of these Metals with each other and / or with the metals silver, copper, zinc, aluminum, SiIi? ium, magnesium, Antimony, nickel, thallium and money.

Particularly suitable for this purpose is a strip S of a known solder alloy of tin and lead (60:40) having a melting point of 180 ⁰ C. A strip having the dimensions of 2 mm χ 0.014 mm Melt "uoch if he at a distance of 15 to 20 mm from the wall of a burning flashlight and has been blackened with soot.

The switching element used according to the invention should of course not be affected by the energy by a flashlight that is not connected in series with the relevant is switching element is broadcast. If besides this · - condition too the condition is met that under the influence of the energy emitted during lightning the melting point of the material from which the switching element is made, can be achieved, the position of the element is further not critical. The switching element can be on the Bulb wall or on or in the reflector interacting with the flash lamp or in the vicinity of the Lamp base, e.g. B. on or in the lamp socket.

The invention is explained in more detail below with reference to the drawing. The drawing shows schematically three systems for successively igniting combustion flash lamps.

Fig. 1 relates to an arrangement with high-voltage flash lamps;

Figs. 2 and 3 relate to arrangements with conventional flash lamps.

1 shows a basic circuit diagram of a combustion flash lamp suitable arrangement in which the ignition is activated by briefly applying a in a short time Time to a high value, e.g. B. in a few microseconds to a value of a few thousand volts, increasing voltage takes place. When the breakdown voltage of the combustion flash lamp is reached This lamp ignites with the lowest breakdown voltage in the magazine of the corresponding value. When If a flashlight lamp is to be ignited again, that flashlight lamp is ignited, which then the has the lowest breakdown voltage.

In the figure, 1, 2 and 3 denote combustion flash lamps. The circuit arrangement can be more than three lamps included. Each lamp is in series with a switching element a via one of the current conductors 9 connected, which consists of a locally blackened strip of a lead-tin alloy (40:60), the Has dimensions of 1 mm 0.014 mm. The flashlights 1-3 are by means of the conductors 7 and 8 connected in parallel to each other. Through these conductors, the lamps are connected to a high-voltage source, not shown connected that when starting the shutter mechanism of the camera one in a short time supplies voltage increasing to a high value. The power conductors 9 and 10 of the flashlight lamps are in each Lamp by an ignition material 6 consisting of a mixture of zirconium powder and potassium perchlorate connected; furthermore, the mixture contains about 30% by volume of about 1% by weight of strontium Lanthanum cobaltite, which acts as a semiconductor, and a binder. There is both zircon wool in the flashlight lamps 5 as well as oxygen. When flashing a lamp, the strip 4 melts, which is in a Distance of about 5 mm from the bulb wall, being the connection between the lamp and your Conductor 8 is completely and continuously interrupted. The lamps each have their own reflector (schematic indicated by the dashed circles 11), which reflectors are also used to shield the switching elements 4 can be used against exposure to flash lamps that do not belong in the range.

F i g. 2 shows a basic circuit diagram of an arrangement for conventional flashlight lamps with an ignition wire, which the Connects current conductors in the lamp and in the vicinity of which the ignition ground is located. This Ignition mass 29 consists z. B. from a mixture of zirconium powder, potassium perchlorate and a binder.

The circuit arrangement contains the lamps 21, 22 and 23. The circuit arrangement is based on this Number not limited. The lamps 21,22 and 23 are each connected in series with a switching element 24, the when flashing a lamp under the influence of the radiated energy the connection between the relevant lamp and the conductor 25 interrupts. The lamps 22 and 23 are also each with a switching element 27 connected in series, the electrical when flashing the previous lamp Connection between the next lamp and the conductor 26 establishes. The switching elements 27 are placed in the system so that they are only made effective by a previous lamp can e.g. B. by the fact that it is optionally together with the switching element 24 in the reflectors (schematically indicated by the dashed circles 28). The lamps are further by means the conductors 25 and 26 connected to a device, not shown, which when the Shutter mechanism of the camera briefly supplies a current. Such devices are inherent known. When the lamp 21 is ignited, the connection between this lamp and the current conductor is established 25 interrupted and the connection between the lamp 22 and the current conductor 26 is established.

F i g. 3 shows a schematic diagram of an arrangement for conventional flash lamps, in which the flash lamps are connected in parallel to each other and with resistors in series, their resistance values in sequence of ignitions increase.

31 to 34 indicate combustion flashlight lamps of the usual type in which the conductors 35 and 36 in a lamp are connected to one another by a filament 37. In the lamp there is both Zirconium wool 49 as well as oxygen. The flash lamps 31 to 34 are via switching elements 38 to 41 with the Conductor 42 and lamps 32 to 34 are connected to conductor 46 via resistors 43 to 45 connected. The resistance value of the resistor 45 is greater than that of the resistor 44, while the resistance of resistor 44 is again greater than that of resistor 43. The relationship the resistance values can e.g. B. always be chosen equal to 2: 1 in the specified order.

By means of the current conductors 42 and 46, the circuit arrangement can be configured with a circuit which is not shown Device are connected to the operation of the shutter mechanism of the camera during supplies electricity for a short time; such devices are known per se.

The flash lamps each have their own reflector (schematically with the dashed circles 47 indicated); these reflectors can be used at the same time

Shielding of the switching elements 39, 40 and 41 against radiation from a previously flashed one, not with the Switching element series-connected lamp can be used.

When power is supplied to the circuit arrangement by means of the aforementioned device, first the flash lamp 31 ignited; thereby interrupts under the influence of the broadcast Energy the switching element 38 the connection between the conductor 35 and the conductor 42. When the Circuit arrangement is in turn supplied with current, the flashlight lamp 32 is ignited; the switching element 39 interrupts the connection between the current conductor 35 under the influence of the radiated energy the flash lamp 32 and the conductor 42.

The values of the resistors 43 to 45 are chosen so that the combustion flashlight lamps in the and that two or more flashlights are not ignited at the same time will.

The switching elements 38-41 can be formed by a strip made of a lead-tin alloy (40:60) as indicated in the previous example. The invention creates a simple, inexpensive, but reliable measure with which the disadvantages of the circuit arrangements for successive detonators of flash lamps in which combustion flash lamps are connected in parallel to each otheri the disadvantages that the circuit arrangement no longer works when a

ij of the lamps after flashing a relatively has low resistance.

1 sheet of drawings

Claims (6)

Patent claims: 1. Circuit arrangement for successively igniting combustion flash lamps, in which Combustion flashlight lamps are connected in parallel to one another in an electrical circuit, d a through characterized in that each flashlight lamp with its own switching element in series is switched, which is under the influence of the flashing ι ο radiated energy the electrical connection between at least one of the conductors of the Flash lamp and the circle interrupts. 2. Circuit arrangement according to Anspi uch 1, characterized in that the switching element au? one in The circle is made up of electrically conductive wire or strip that is under the influence the energy emitted when flashing melts. 3. A circuit arrangement according to claim 2, characterized in that the switching element consists of a locally blackened wire or strip made of a material having a melting point between about 85 ° C and about 400 ⁰ C is. 4. Circuit arrangement according to claim 3, characterized in that the switching element consists of a wire or strip of bismuth, cadmium, indium, lead, tin or an ^{alloy of these metals which melts between about 85 0} C and about 400 ° C with one another or with other metals . 5. Circuit arrangement according to claim 4, characterized in that the switching element consists of one Wire or strip made of a lead-tin alloy (40:60). 6. Circuit arrangement according to claim 1, characterized in that the circuit also has switching elements contains that under the influence of the energy emitted by a previously ignited lamp activate the next flash lamp in the circle. 40