DE2354045A1 - Metal wrapped wire with nickel-iron core and inter. layer - between copper sheath and outer silver layer preventing alloying - Google Patents

Abstract

Metal wrapped wire with Ni-Fe core and a Cu sheath has an outer Ag layer over an inter. metal layer (I) preventing alloy formation between the Cu and the Ag. (I) pref. consists of Ni but can also be Cr, Pb or V and pref. is 1-4 um thick, whilst the outer Ag layer is 0.8-2 um thick. Prods. are used as lead-in wires for gas- and vacuum-tight sealing of electric lamps, esp. small lamps, e.g. socket-less miniature lamps or glass socket lamps. The finished lamps are resistant to oxidn., even when stored for long periods, so that there are no soldering or contacting difficulties and they remain reliable.

Description

Patent-Treuhand Society for electric light bulbs mbH, Munich Metallic sheath wire +)

The invention relates to a metallic sheathed wire, which is preferably can be used as a power supply wire for gas- and vacuum-tight seals of electric lamps.

The fuse wire is particularly suitable for small electrical
Larapen, such as socketless dwarf lamps with free power supply lines or glass base lamps. Such lamps have recently been used to an increasing extent in the electronics field to display operating or switching states. The lamps were used in printed circuits. Often, socketless lamps with their free power supply lines are also soldered directly into the circuits. A perfect connection with the circuits is only guaranteed if the power supply lines are free of oxide layers and easily solderable. One therefore has the ones that usually consist of copper sheathed wire
Power supply lines for these lamps to improve solderability
tinned.

+) 21 f 39

509819/0495

BATH ORIGINAL

However, it was found, especially when using dip soldering processes, that despite the use of tinned power cables, soldering and contact problems often occurred *

One reason for this is the easily occurring alloy formation be between the copper jacket and the liquid, hot solder, because the nickel iron core of the copper jacket wire forms it Alloy does not have a good solder joint. Furthermore, difficulties often arose when the lamps had such power leads stored for some time before installation and were exposed to the action of the atmosphere, so that detrimental corrosion and oxidation the free power supply lines could occur.

The aim of the invention is to overcome the difficulties outlined above of the new metallic clad wire. The metallic one Sheathed wire according to the invention is used for gas- and vacuum-tight sealing of lamps, power supply lines, which also if the manufactured lamps are stored for a longer period of time, they are resistant to oxidation, so that the lamps show no soldering or contact problems, but rather remain operationally reliable.

The metallic sheathed wire according to the invention contains a iron core with a copper jacket applied to it and is characterized in that it additionally has an outer silver layer which on an intermediate layer that is initially applied to the copper jacket and consists of a layer that prevents the formation of an alloy between the copper and the silver Metal is arranged. Nickel is preferably suitable for the intermediate layer. The intermediate layer can also consist of another Metal exist, provided that this precludes the rapid formation of alloys between copper and silver. Such metals are for example chromium or lead or vanadium. The intermediate layer preferably has a thickness of 1 / Ua to 4 .mu.m, while the outer syllable - layer has a thickness of 0.8 μm to 2 μm.

5098 1 9/0495 BAD ORIGINAL

• s »

It is already known to use power supply lines for incandescent lamps to be provided with a silver coating in order to prevent corrosion and also to achieve oxidation resistance (US Pat. No. 2,542,326). Even the use of copper sheathed wire pit «in kickel coating Socketless light bulbs recommended for the power supply lines (JA-PA 46-3655) · These proposals, however, are the most excellent Suitability of a sheathed wire with a nickel iron core and with a Copper jacket as well as with a nickel layer applied to it and with an additional outer silver layer for power supply lines, In particular, socket-less incandescent lamps cannot be found.

The new metallic sheathed wire provides tight seals. The free ends of the power supply lines can be soldered even after prolonged storage «The sheathed wire has a diameter of, for example about 300 / um. Of this, the central nickel iron core accounts for about 250, UBi, while the copper jacket arranged on it has a thickness of 20yum, the then following nickel layer has a thickness of about 2 .mu.m and the outer silver layer is only about 1 / µm thick. It can be seen that the known favorable melt-down properties of the copper sheath wire by the additionally provided, proportionately thin layers of nickel and silver are not altered.

However, the corrosion resistance and oxidation resistance are achieved through the outer silver layer, while the nickel layer arranged under the silver layer prevents the formation of an alloy between the silver and the copper when exposed to the temperature of the liquid soldering. -.-- ■ -.

Furthermore, the new clad wire gives an improved inside of incandescent lamps Contact with the tungsten filament · The otherwise through one unsafe contact if necessary. caused and referred to as "cracker" This eliminates interference with radio reception

50 98 1 9 / 0A95 BAD ORIGINAL

The invention is further explained in the accompanying drawings.

In Figs. 1 and 2, the metallic sheath wire is enlarged and in cross-section, however, not shown to scale.

Fig. 3 shows an incandescent lamp with free power supply line ends again, as it is used for display purposes in printed circuits.

The new metallic edge wire is designated ait 1. It consists of the nickel iron core 2 old the copper jacket 3. The nickel layer 4 and the outer silver layer 5 are applied to this.

The lamp vessel is denoted by 6. Inside is the tfolfrara light body 7 »that of the two power supply lines 8 and 8 * worn from the new metallic sheath wire. They are held together by the insulating bead 9. During the manufacture of the lamps When the lamp vessel 6 is fused with the closure part 10, the power supply lines are passed tightly through the fusing zone 11.

The free end of each of the power supply lines located outside the lamp vessel has a length of about 20 mm. The diameter of the lamp vessel is, for example, 4.2 mm and the total length of the vessel is about 11.5 em. The power supply lines have an outer diameter of around 300 μm. They consist of the metallic sheathed wire with a nickel iron core and a copper sheath as well as layers of nickel and silver applied to it. The outer silver layer has a thickness of about 1 / um. The layer underneath, made of the metal that prevents the formation of an alloy between the silver and the copper jacket, such as nickel, is about 2, inter alia, thick.

In the production of the metallic sheath wire, the oxrdations- and corrosion resistant current leads that remain solderable and tauchlötfähig after prolonged storage door, ron copper clad wire with a nickel-iron-core and with an overall diameter ron etva 400yum is assumed. The copper jacket is about 25 / U »to 30 / µm thick.

5 0 9 8 19/0495 BATH ORIGINAL

A layer of nickel about 4/1 thick is first applied to this wire by, for example, electrolysis. The outer silver layer is then deposited with a thickness of about 2 µm, also by means of electrolysis, for example. The sheathed wire obtained in this way is then drawn in a known manner to a final diameter of about 300 υτα . Instead of the intermediate layer made of nickel, an intermediate layer of approximately the same thickness made of chromium or lead or vanadium can also be provided.

The solderability of these power supply wires remains even after Meltdown received. The intermediate layer of nickel should suppress the oxidation of the copper jacket and at the same time a possible one Prevent alloying between the copper and the outer silver layer. The formation of alloys between copper and nickel on the one hand and between nickel and silver on the other hand is with the extreme temperatures during melting or soldering small amount. -

- patent claims -

BAD ORIOINAL 5098 19/049 5

Claims (5)

Claims 1.! Metallic sheath wire old nickel iron core and old one * copper jacket applied thereon, characterized in that it additionally has an outer silver layer which is on a on the copper jacket initially applied intermediate layer of an alloy formation between the copper and the silver preventing metal is arranged. 2. Metallic sheathed wire according to claim 1, characterized in that that the intermediate layer applied to the copper jacket consists of nickel. 3. Metallic sheathed wire according to claim 1, characterized in that that the intermediate layer applied to the copper jacket Chromium or lead or vanadium. 4. Metallic sheathed wire according to one of claims 1 to 3 * characterized in that the intermediate layer has a thickness ranging from 1 µm to 4 µm owns. 5. Metallic sheathed wire according to one of claims 1 to 4, characterized characterized in that the outer silver layer has a thickness of 0.8 µm up to 2 / um 50 98 19/049 5 ORIGINAL BATHROOM