DE2948996A1 - Gas discharge flash tube with ignition electrodes - has metallic layer on outer surface of tube with supply lead - Google Patents

Abstract

The gas discharge flashlight tube is fitted with ignition electrode so that connection to the power supply lead is electrically and mechanically stable. The tube comprises a gass-filled glass bulb with a gas discharge space between two electrodes. The ignition electrode is fitted on the outside of the bulb and is linked to a supply cable. The outer surface of the glass is coated with an intermediate metallic layer (10). The supply lead (4) is soldered or welded to the intermediate layer. The intermediate layer is applied to the glass in the form of a paste and then heat-treated.

Description

Gas discharge flash tube with ignition electrode

The invention relates to a gas discharge flash tube with an ignition electrode and the features: 9) in a gas-filled glass flask located between zei Electrodes a gas discharge path; b) the ignition electrode is on the outside of the glass bulb attached; c) the ignition electrode has an electrical lead tied together.

Such a gas discharge flash tube is known and for example in "Philips Techn. Flundschau" 22nd year, 1960/61, No. 8, pp. 289-303, esp. 298. The gas discharge flash tube is ignited by a High-voltage pulse that is capacitive via the electrical supply line and the ignition electrode through the glass or quartz wall of the gas discharge bulb into the gas filling coupled and triggers a gas discharge there.

The ignition electrode consists of one wrapped around the glass bulb Ignition wire or from an ignition line made of conductive material or from a conductive material Coating that can cover the entire outside of the glass bulb.

The connection of the electrical lead with the ignition electrode is special mechanical and thermal loads as well as during flashing exposed to high levels of radiation. In many cases it must continue Be designed to save space. Should be throughout the life however, they ensure safe electrical contact.

One way to make this connection is to use the Loop the lead wire or the lead wire around the glass bulb and twist it and to fix the looping and possibly the twist with an adhesive. For the case that the looping part of the lead wire is not itself an ignition electrode if only a conductive coating is in contact, then such an adhesive is electrical conductive. To further mechanically secure such a twist is also another protective tube slipped over (see Japanese GM-Auslegeschrift 40594/77).

For manufacturing reasons, the adhesives used must be organic be. However, this results in only limited resistance to the thermal and exposure to radiation. That is why there is such a mechanical connection between electrical supply and gas discharge flash tube in the long run not reliable. The same applies to the way out instead of the wire loop to take a metal clamp.

Another solution, the ignition electrode not directly with the glass bulb to connect, but to lead them just so close to the piston outer wall that the Ignition pulse that can trigger gas discharge requires higher ignition voltages. About that In addition, the distance between the glass bulb and the ignition electrode must be ensured for reliable ignition be fixed.

The present invention is based on the object of a gas discharge Elitz light tube the ignition electrode is sufficiently electrically and mechanically stable with the electrical To connect supply line.

To solve this problem are in a gas discharge flashlight tube of the type mentioned at the outset, according to the invention, the following features are proposed: d) the outer glass surface has a metallic intermediate layer; e) on the metallic The electrical supply line is soldered or welded onto the intermediate layer.

The metallic intermediate layer is preferably applied as a paste, which is then firmly bonded to the glass by baking. Shape and composition of the metallic intermediate layer are determined by the respective intended use. For example, the paste for the metallic intermediate layer consists of a silver-containing one Mpoxy resin. It will be between one and five tenths of a millimeter thick applied and then baked at a temperature of about 2000C. The paste can also applied in the form available on the market as so-called "burn-in silver" become, i.e. essentially silver with a binder. The burn-in takes place in this case at temperatures of about 5000C, during which the binder evaporates and the silver forms a firmly bonded coating on the glass. The composition of the solder for the solder connection with the electrical supply line depends on the parties involved Materials. The welded connection is made, for example, via an ultrasonic or resistance welding process.

Regardless of the design of the metallic intermediate layer and the ignition electrode is in the gas discharge flash tube according to the invention secure mechanical connection between an electrical feed element and guaranteed by the glass bulb.

Also in the event that the electrical lead element is not itself The ignition electrode forms a secure electrical connection with its own Ignition electrode guaranteed.

Refinements of a gas discharge flash tube according to the invention consist in that the ignition electrode consists of a transparent, conductive coating exists, in which case the metallic intermediate layer makes the connection with the electrical Establishes supply line, or that the ignition electrode from the metallic intermediate layer itself is formed. An ignition electrode between two points of the metallic The intermediate layer of attached metallic conductors is used.

The electrical supply line can also be used as a mechanical holder Gas discharge flash tube be formed, wherein the electrical lead then advantageously consists of two metal pins.

Other configurations relate to the shape of the metallic intermediate layer, which can be designed as a point, line or area and preferably from one Ring around the glass bulb.

In the figures of the drawing are exemplary embodiments of an inventive Gas discharge blit light tube shown. The figures show: FIG. 1 a gas discharge flash light tube in cross section with a soldered connection, FIG. 2 shows a gas discharge flash light tube in cross section with welded connection, Fig. 3 shows a gas discharge flash light tube with a transparent Conductive coating as ignition electrode, Fig. 4 with a gas discharge flash tube a spaced wire as an ignition electrode; Fig. 5 shows a gas discharge flash tube with pin-shaped electrical leads.

In Fig. 1, 1 is the circular cross-section of a glass bulb designated. A metallic intermediate layer is coaxially located on the outside 2, also drawn in section. At an outer point of the metallic intermediate layer 2 is via a solder cone 3, a metallic lead wire 4 with the metallic Intermediate layer 2 connected.

FIG. 2 corresponds to FIG. 1 with regard to glass bulbs 1 and metallic intermediate layer 2. However, the lead wire 4 is via a weld 5 connected to the metallic intermediate layer 2.

Figures 3, 4 and 5 each show a gas discharge flash tube in longitudinal section. A tubular glass bulb 1 carries one at each end led through electrode 6 or 7. According to Fig. 3, transparent, conductive layer applied as ignition electrode 19. For example, it exists made of tin oxide. An intermediate layer 10 applied in the form of a ring makes contact with the ignition electrode 19 and provides the connection with a metallic lead wire 4.

According to FIG. 4, the metallic lead wire 4 is between two Soldering points 8 and 9 on metallic intermediate layers 10 and 11 and continued serves there as an ignition electrode 12, which runs at a defined distance from the glass bulb 1. In FIG. 5, two electrical leads are designed as pins 13 and 14 and via two soldered connections 15 or 16 and via corresponding metallic intermediate layers 17 or 18 connected to the glass bulb 1. These pins 13 and 14 also serve the electrical lead to the ignition electrode, not shown, for example is a conductive coating for the mechanical support of the entire gas discharge flash tube.

10 claims 5 figures

Claims (10)

Patent claims gas discharge flash tube with ignition electrode and the features: a) in a gas-filled glass bulb located between two electrodes a gas discharge path; b) the ignition electrode is on the outside of the glass bulb appropriate; c) the ignition electrode is connected to an electrical lead; not indicated by the following features: d) the outer surface of the glass carries a metallic intermediate layer (2,10,11,17,18); ej on the metallic intermediate layer (2,10,11,17,18) the electrical supply line (4,13,14) is soldered or welded on. 2. Gas discharge flash tube according to claim 1, d a d u r c h g it is not noted that the metallic intermediate layer (2,10,11,17,18) applied as a paste and firmly bonded to the glass by baking. 3. Gas discharge flash tube according to claim 1, d a d u r c h g e k e n n n e i n e i n e t that the ignition electrode is made of a transparent conductive Cover (19) consists. 4. Gas discharge flash tube according to claim 1, d a d u r c n g It is not noted that the ignition electrode is separated from the metallic intermediate layer (2) is formed. 5. Gas discharge flash tube according to claim 1, d a d u r c h g e k e n n n n e i c h n e t that as an ignition electrode between two points of the metallic intermediate layer (17,18) attached metallic conductor (12) is used. 6. Gas discharge flash tube according to claim 1, d a d u r c h g e k e n n n e i n e t that the electrical supply line is used as a mechanical holder the gas discharge flash tube is formed. 7. Gas discharge flash tube according to claim 6, d a d u r c h g e k e n n n h e t that the electrical supply line consists of two metal pins (13,1) exists. 8. gas discharge flash tube according to one of claims 1 to 7, d a d u r c h e k e n n -z e i c h n e t that the metallic intermediate layer (2,10,11,17,18) is punctiform, line-shaped or flat. 9. Gas discharge flash tube according to claim 8, d a d u r c h g e k e n n n e i n e t that the metallic intermediate layer (2) consists of a ring consists. one the 10. Gas discharge flash tube n-mach-Ü'che 1 to 9, d u r c h e k e n n n z e i c h n e t that the metallic intermediate layer (2,10,11,17,18) consists essentially of silver.