US1786920A

US1786920A - Process for producing thin insulating layers upon wires

Info

Publication number: US1786920A
Application number: US331685A
Authority: US
Inventors: Rudenberg Reinhold; Schottky Walter
Original assignee: Siemens AG
Current assignee: Siemens Schuckertwerke AG; Siemens AG
Priority date: 1928-01-16
Filing date: 1929-01-10
Publication date: 1930-12-30
Anticipated expiration: 1947-12-30

Description

. J l u I Dec. 30 1930. R. RUDENBERG :TAL 1,736,920

lmocmss` Fog PnoDUcING THIN INSULATIG Lunas Uro!! WIRES Filed Jan. loflszs Patented Dec. 30, 1930 UNITED STATES PATENT oFF'ylpcE" nEINnoLD RUDENBERG, or BERLINGBUNEWALD, AND WALTER s cnorrxx, -or BERLIN-cHAaLo'rTENBURG, GERMANY, AssrGNoRs 'ro SIEMENS-sonnexnnrwnnxn i AKTIENGESELLSCHAFT, or BEaLIN's1EmENssTAIyr, GERMANY, A conroaArIoN OF GERMANY PROCESSEUR PBOD'UCING THIN INSULATING- LAYERS 'UPON WIRES Application mea Jnnunyy 1o, 1.929,A serial No. 331,685, and in Germany January 1e, 192s.

'Our invention relates to an improved proces s for producing thin insulating layers upon w1res.

It has already been proposed to coat wires,

5 more particularly wires carrying'high-tension electric current, with insulating substances consisting of thin layers or films, the

thickness of a plurality of these layers or films being less .than 0.01 mm.

The object of our invention is an improved process of applying these layers or films to wires. Our improved process consists substantially in directingthe vaporized insulating substance, preferably under a vacuum,

against the wire to be insulated and-precipi- 2@ passed and from which the vapor of the in-' tating it there in the form vof .a thin layer or film. In reducing our invention to practice we preferably employ an annular nozzle. through which the Wire to loe insulated is sulating medium issues.l Part or' the vapor is then precipitated upon the wire. The thickness of the insulating layer may be varied within wide limits by altering the speed of the wire. l

To apply ,a plurality of insulating layers or iilins to the wire, it is necessary to repeat the process describeda number of times. As it hasbeen ascertained that the dielectric 3@ strength of the insulation increases considerably'if the layerso different materials alternate, preferably layers of different insulating substances, it 1s according to our improved process possible to coat the wire in a single continuous operation with a plurality of layers or films of diderent insulating materials/ by drawing it successively through a number of the applying devices of the kind described. Y l

By means or our improved process not insulating layers only, but also layers of metals tension transmission lines, hundreds of such thin films have to be applied to the conductor. It is then necessary to provide a corresponding number of nozzles one behind the other. The apparatus for carrying out this r 'process then'requires considerable s ace.

This trouble maybe avoided by assing the conductor slowly pastv one or a p urality of nozzles, the conductor and the nozzles re'volying ata high speed in opposite directions. If,

for instance, a single nozzle only is employed a` layer or coat is formed on the surface of the wire during one revolution and during the next revolution a further layer, which according to the feeding speed of the wire overlaps the underlying layer more or less, or in other words, the nozzle produces upon the conductor a thin insulating band of a definite width, which overlaps andl winds itself upon the condutor-in the form of a helix. If more than one nozzle is employed multiple helixes withv overlapping layers in `the form of bands are obtained. Each nozzle may either spray the same insulating substance against the surface of the conductor or an insulating substance of diiferent nature may be used for each nozzle.

In the drawing affixed hereto and forming part of our specication an apparatus for carrying out oui-.improved process is illustrated by way of example.

Referring to this drawing, 1 is a wire,

which is slowly drawn between the

nozzles

3, 4 located upon the ring 2. The nozzles rotate at a high speed around the axis of the wire and project the insulating substance in the form of a vapor or in an atomized ,state against the surface of the wire. To' accelerate the condensation of the Vapor the Wire is first passed through a tank 5 filled with liquid a1r or other cooling agent. After the wire has passed beyondthe nozzles it is covered with a plurallty of layers or thin insulating lms', ,which as roughly indicated in vthe drawing overlap or are superposed 1n the manner of roongtiles.'

If 1000 superposed layers for instance, should be applied to the wire, the nozzles 'are adapted to rotate at a speed of 3000 `revolutions per minute and if each nozzle produces an insulating band of 8 inches the Wire l is drawn through between the nozzles at a speed of 2 feet per minute.- If the bands produced by the nozzles are narrower the speed of the Wire must be correspondingly reduced. This also applies if the number of revolutions of the nozzles is smaller. By regulating the Width of the band, the number of revolutions of the nozzles and the rate of feed of the Wire, coats of any desired number of layers may be obtained upon the Wire. Should the speed of travel of the Wire then become too low, the wire may be pulled in succession through a plurality lof devices of the described kind.

As already pointed out our improved process is preferably carriedl out in a vacuum chamber or at least in 'an atmosphere comparatively free from dust to prevent breaks in the continuity of the layer caused .by particles of dust deposited. When Work` ing in a vacuum the further advantage is obtained, that the insulating material need not y be raised to a particularly high temperature', because at the one hand it evaporates at a lower temperature than atmospheric pressure and at the other hand cooling of the stream of vapor by conduction is avoided.

Various modifications andchanges may be made Without departing from the spirit and the scope of the invention.

We claim as our invention:

1. In thel process of producing thin insulating layers of less than 0.01 mm. thickness upon Wires, the alternate precipitation of diferent'insulating substances from the gaseous state upon the surface of the Wire.

2. In the process of producing thin insulating layers of less than 0.01 mm. thickness upon Wires, the alternate precipitation of different insulating substances from the .gaseous state upon the surface of the strongly cooled wire.

3. In the process of producing thin insulating layers of less than 0.01 mm. thickness upon Wires, the alternate precipitation of different insulating substances from the gaseous state under a vacuum upon the surface of the Wire. n

4. In the process of producing thin insulating layers of less than 0.01 nim. thickness upon Wires, the alternate precipitation of different insulating substances from the gas.- eous state under a vacuum` upon the surface of the strongly cooled wire.

t 'In` testimony whereof We ax our signaures. 4

REINHOLD annemasse. WALTER scnorrnv.