DE1025266B - Method of manufacturing flash lamps - Google Patents

Description

Method of making flashlight lamps In the production of Light for photographic use by burning finely divided metals such as z. B. foils or thin wires in sealed glass flasks with oxygen or The amount of light generated depends on the amount of gas filled with high oxygen content of the metal to be burned. The metal to be burned needs a certain one Minimum amount of oxygen. This is the size of the glass bulb in which the combustion takes place takes place, prescribed. From an effort to increase the bulb size of such combustion flash lamps To decrease, there arises the need to increase the pressure of the oxygen charge increase to make more oxygen available in the glass flask for the combustion of the metal to deliver. Closing such lamp bulbs with increased oxygen pressure However, this presents difficulties and requires considerable expenditure on equipment.

The invention shows a way to quickly and easily the To increase the oxygen filling pressure in combustion flash lamps and thus also the The amount of light developed during the combustion of the bulb filling without enlarging the bulb to increase. According to the invention. after filling the glass flask with the finely divided Metal in wire or foil form and with oxygen under approximately atmospheric pressure and the sealing of the glass flask inside the flask by chemical decomposition Generates an additional amount of oxygen from oxygen-releasing substances. For this is located inside the combustion flash lamp in a suitable place small amount of the substance that gives off oxygen when heated. Such suitable substances are z. B. highly oxygenated compounds such as chlorates, perchlorates, peroxides i.a.

Potassium chlorate has proven to be particularly suitable for the purpose of the invention proved, because with him the temperature necessary for the development of oxygen reduced in a manner known per se by adding catalytically active substances can be. For this purpose z. B. Braunstein very suitable. So can by mixing of 2 parts of potassium chlorate with 1 part of manganese dioxide by heating it to about 200 ° the evolution of oxygen take place.

For the production of combustion flash lamps according to the invention in a glass flask. The finely divided metal intended for combustion in a known '\ @' also introduced. In addition, in the piston, for. B. in a metal bowl or -cup, a small amount of the above, oxygen-releasing glue by heating Fabric arranged. In itself, this substance could also be applied directly to the Kolhenwandung to be ordered. After installing the ignition device, the lamp bulb is in in a known manner filled with oxygen under approximately atmospheric pressure and then closed by melting or cementing the neck opening. By heating outside, which can be done in different ways, e.g. B. by high frequency heating or by heating with a burner, the required additional amount of oxygen is added developed from the introduced compound, so that the oxygen filling pressure inside the piston increases.

The development of oxygen in the already closed vessel must of course be steered in such a way that combustion of the metal filling is not yet initiated will. This can also be achieved with certainty if the developing temperature for which oxygen is kept very low.

According to the stoichiometric calculation, 1 mg of potassium chlorate is included complete decomposition 0.276 cm3 oxygen at normal pressure. This means that z. B. an additionally introduced amount of potassium chlorate of 18 mg still about 5 cm3 Oxygen supplies; thus, for example, the filling pressure for a piston volume of about 9 cm3 can be increased by 400 Tor r. It then stands for more combustion Oxygen is available so that a larger amount of metal is burned to emit light can be. The amount of light generated is thus compared with that of equally large Lamp bulb with normal oxygen filling developed, enlarged.

The pressure prevailing in the glass flask after the evolution of oxygen is taken up by the piston without further ado, because it is known that the Glass flask for combustion flash lamps to prevent bursting inside and / or Also coated on the outside with a layer of tough varnish. Even the one at the Combustion occurring temporary pressure increase is caused by such a glass bulb tolerate.

The drawing shows examples of the possible arrangement of the oxygen-emitting Substances specified inside combustion flash lamps; the same apply here Reference symbols for the same components. In Fig. 1 is a flash lamp with foil filling shown; it means 1 the piston wall, 2 the foil filling and 3 the ignition device. In the attached to a holding wire 4 pot 5 from z. B. is thin sheet iron housed the mixture of potassium chlorate and manganese dioxide according to the invention. The holding wire 4 is welded to one of the power supply lines 6 for the ignition device. In FIG. 2, one of the power supply lines 6 for the ignition device is extended and carries the pot 5. In the embodiment shown in Figure 3 is in place of one Pot 5 uses a flat container which is carried by the holding wire 4 and which absorbs the potassium chlorate-manganese dioxide mixture. The retaining wire 4 is with welded one of the power supply lines 6 for the ignition device. In Fig. -1 an embodiment is shown in which the oxygen-evolving mixture attached directly to the bulb landing at the top of the combustion flash lamp is. The one for the additional development of oxygen in combustion flash lamp bulbs Suitable substances do not interfere with the emission of light, as they are only present in small quantities are required and no light-impermeable fittings even during decomposition to develop. When the substances are arranged in metal bowls, the residues remain in the bowls, so that the light emission when burning the metal foils or -wires is not disturbed.

Claims (3)

PATENT CLAIMS: 1. Process for producing flash lamps with a filling of finely divided metals. such as B. foils or wires, and pressurized oxygen. characterized. that after the lamp bulb has been filled with oxygen at approximately atmospheric pressure and the lamp bulb has been closed. the additional oxygen pressure is generated by heating substances that are provided in the lamp bulb and release oxygen during chemical decomposition. 2. A method for producing flash lamps with metal filling according to claim 1, characterized in that a 1-mixture is used as the oxygen-releasing compound of about 2 parts of potassium chlorate with 1 part of manganese dioxide is used. 3. Procedure for producing flash lamps with metal filling according to claims 1 and 2, thereby characterized in that the heating is carried out by means of high frequency heating.