DE1113524B - Selenium rectifier - Google Patents

Description

Selenium rectifier The invention relates to the manufacture of small rectifiers, the electrodes of which consist of wires that simultaneously form the electrode leads. Such rectifiers are z. B. for electronic systems for automation or needed for data processing, telephony, etc.

Efforts to date to produce small rectifiers have led to an embodiment in which the small-area rectifier plates held together with a resilient clamp are held together by a cast resin casing. Another embodiment consists in the use of a small plastic cup in which the rectifier plates are held in place by a filling compound.

Efforts to downsize components have also been made specified a rectifier whose electrode system consists of two interpenetrating Loops consists of spring wire. However, this construction is very unstable. That's why the rectifier must be kept in a housing, whereby the Bauelernent becomes correspondingly larger again. In addition, this is a known rectifier no defined contact area guaranteed. Finally, there is also a simple one Stacking of the rectifier elements excluded.

In the selenium rectifier according to the invention, these disadvantages become overcome in that a practically closed wire loop is formed, which carries the entire lamellar layer structure hanging in it. In the below The exemplary embodiments described are further possible configurations of the rectifier specified.

1 shows a rectifier element, the carrier electrode of which consists of a wire 1 bent in a circular shape. The wire loop encloses the selenium layer 2. The cover electrode consists of the wire 3 which is passed through the selenium layer 2 perpendicular to the plane of the paper. The previously usual carrier plate for the layer structure has thus been replaced by a loop-shaped bent wire 1 , the free end la is used at the same time as a lead wire in order to produce circuit connections. The wire ends la and lb are expediently firmly connected to one another, which is achieved with the aid of known methods, for. B. by pressing or cold welding can be done. Instead of the previously sprayed-on cover electrode, the wire 3, which is also used at the same time as a feed wire, serves as such. The material for wires 1 and 3 can be selected based on previous experience in rectifier construction with regard to the material of the carrier and cover electrodes. The carrier electrode wire 1 is expediently made of nickel-plated iron wire, while a cadmium alloy is to be selected for the cover electrode wire 3.

The introduction of the selenium layer 2 into the carrier electrode wire 1 can take place in various ways, for example by temporarily immersing the finished bent carrier electrode wire in a selenium melt or by melting a selenium kome directly into the carrier wire loop. After completion of the selenium layer, the cover electrode wire 3 is pushed through it, which is expediently done under or after heating the wire and / or the selenium.

All measures can be used that have so far proven to be useful for the production of selenium rectifier elements or the like. In particular, the so-called cover formation method appears to be advantageous, i. H. the conversion of the selenium layer into the rectifying state only takes place after the construction of the rectifier element , i.e. the "layer sequence": carrier electrode wire - selenium layer - cover electrode wire, has been completed.

Another embodiment of the rectifier according to the invention is shown in FIG. 2, in so far different from that of FIG. 1 is replaced as the cover electrode wire in this case by the usual sprayed layer-shaped lid electrode 4. In addition, the carrier wire loop has two free wire ends la and lc, which are preferably connected to form a unit.

3 is intended to illustrate how the rectifier elements can be manufactured continuously. The wire D, unwound from a roll in the direction of the arrow, is formed into carrier electrodes 1 at fixed intervals, into which the selenium layer 2 and finally the cover electrode wires 3 are introduced. The individual rectifier elements are od after partial or complete preparation of the rectifier element by cutting the wire at the desired location S ", S2, S3. Like. Won. The wire D may also be in intervals, two, three or more rectifier elements are cut.

In FIG. 4 it is shown schematically that instead of round or flat wires, profiled wires can also be used as carrier electrodes. These wires are also bent into loops of circular shape or the like in order to accommodate the selenium layer. In the embodiment of FIG. 4, two rectifier elements are shown one above the other, of which the lower one from the z. B. circularly curved profile wire 5 a (see. Also Fig. 1) as a carrier electrode which contains the selenium layer 5 b on which the layered cover electrode 5 c is attached. The lower part of the carrier wire 5a is denoted by 5d. The top electrode 5c of this rectifier element, if appropriate by applying pressure, in good electrical contact with the lower portion 6 d of the base electrode 6a of the overlying element which 6 b and on this contains the selenium layer, the top electrode 6c. In FIG. 1 , "7" indicates that the rectifier element according to the invention can be embedded in a synthetic resin, in particular cast resin.

The shape of the carrier loop is to be selected as required. Instead of the circular configuration, which is shown in the exemplary embodiments, z. B. angular wire structures can be used. Furthermore , it can be useful in individual cases to replace the cover electrode wire with a tube.

Claims (2)

PATENT ANS PR ÜC111 F: 1. Selenium rectifier, in particular small rectifier, the electrodes of which consist of wires simultaneously forming the electrode leads, characterized in that a practically closed wire loop (1) covers the entire. ten lamellar layer structure hanging in this wire loop. 2, rectifier according to claim 1, characterized in that the cover electrode wire (3 ) penetrates the selenium layer (2). 3. Rectifier according to claim 1, characterized in that the cover electrode consists in a known manner of a sprayed-on metal layer (4). 4. Rectifier according to claim 1 to 3, characterized in that the carrier electrode wire (1) is profiled. References considered: British Patent No. 579,218.