DE1141680B - Matrix switch for telecommunication systems, especially telephone exchanges - Google Patents

Description

Matrix switches for telecommunication systems, in particular telephone exchange systems By combining protective tube contacts with ferrite rods, the so-called Ferreed relay formed. These relays are constructed in such a way that in parallel a ferrite rod is arranged on both sides of the protective tube contacts, which carries excitation windings. To achieve a good magnetic closure the protective tube contacts and the ferrite rods or cores are through at their ends a magnetically conductive molding compound connected to one another. By the excitement of the Windings can turn the two ferrite cores of the relay into such a magnetic State that their magnetic flux is over the protective tube contacts closes and actuates this. After the excitation ceases, the contacts are through held the magnetic flux of the ferrite rods in the actuated state. An opening of the contacts can be achieved on the one hand that by appropriate excitation of the windings of a ferrite core whose polarity is reversed, so that the magnetic fluxes of the two ferrite rods are now in series and no longer run over the contacts. On the other hand, the magnetic flux of the Ferrite rods are brought to the zero value so far that they do not tip over yet, however, the flow is no longer sufficient to hold the contacts in the actuated position.

Such relays have great advantages. So can a very short excitation impulse the ferrite rods tip into the state of excitation, and the magnetic emanating from them Feld can then operate the contacts even though the excitation current has long since subsided is. Another advantage is that these relays have no holding current and neither Need holding windings. Since it is also possible to have two excitation windings on each ferrite rod to be arranged and only with coincident excitation of both windings the ferrite rod in Such a relay offers itself to overturn the other magnetization state as a switching element for the construction of matrix switches. However, it is the disadvantage that the ferrite rods are relatively expensive and then also such a matrix switch inevitably becomes expensive.

The invention relates to a matrix switch with several columns and lines for telecommunication systems, in particular telephone switching systems through which the protective tube contacts of each switching point are carried out in the manner of the Ferreed relay the magnetic flux of two ferrite rods arranged on either side of the protective tube contacts be actuated, but only approximately half for such a matrix switch normally required ferrite rods and thereby great cost savings enables.

According to the invention this is achieved in that each line or each Split two strips of magnetically held together, preferably by a frame having conductive molding compound, in which alternately a ferrite rod and parallel to this inserted the protective tube contacts assigned to a switching point with their ends are so that each arranged between the protective tube contacts of two switching points Ferrite rod for contact control of the protective tube contacts of both switching points alternately can be used.

This training achieves that, for example, in place of twenty ferrite rods with a column of ten switching points only eleven ferrite rods are needed.

The invention is illustrated by means of one in the drawings Embodiment described. 1 shows the matrix switch according to FIG Invention, fragmentary in plan view, FIG. 2 shows a section along the Line A-B through the matrix switch of Fig. 1.

The matrix switch shown has ferrite rods 1 and per switching point for example four protective tube contacts 2 to 5. The ferrite rods and protective tube contacts are arranged in columns 6 that. a ferrite rod at the beginning and end of each column and that within this column there is a ferrite rod and the one Alternate protective tube contacts assigned to the switching point. This arrangement will achieved that in the same column on both sides of the protective tube contacts one switching point each a ferrite rod is located, similar to the Ferreed relay, but only requires a total of eleven ferrite rods for ten switching points will. As can be seen in particular from Fig. 2, the ferrite rods and protective tube contacts are each column 6 on its top and bottom in a respective strip 7 and 8 from magnetic conductive molding compound embedded, which serve as a holder and at the same time a good magnetic connection between the ferrite rods and the protective tube contacts produce. The columns 6 with the strips 7 and 8 are held together by a frame 9; which can consist of non-magnetic material.

As shown in FIG. 2, each ferrite rod carries two windings, one each Row winding 10 and a column winding 11. Only if both windings coincide are excited, the ferrite rod in question can be tilted into the magnetic state are: To operate the contacts of a switching point, the column winding this column and the two row windings of the rows between which the protective tube contacts of the switching point are excited, as indicated by the arrows for a switching point is shown for example. Only for those on both sides of the contacts Ferrite rods are energized both windings, which become ferrite rods, as in the known ones Ferreed relays, flipped into the state of excitation, and their magnetic field closes the contacts of the switching point, which also after the excitation of the windings has ceased to exist be held in the actuated position by the magnetic field.

By appropriately sized counter-excitation of the two windings of both ferrite rods the magnetic flux can be brought to zero in a known manner that the contacts open again. Instead of the individually applied to the ferrite rods Windings, common row and column coils can also be used.

Claims (1)

PATENT CLAIM: Matrix switch with several columns and lines for telecommunications systems, in particular telephone exchanges, in which the protective tube contacts of each switching point are actuated in the manner of the Ferreed relay by the magnetic base of two ferrite rods arranged on both sides of the protective tube contacts, characterized in that each line or each column (6) has two strips (7, 8) of magnetically conductive molding compound, preferably held together by a frame (9), in which a ferrite rod (1) and, parallel to this, the protective tube contacts (2 to 5) assigned to a switching point are alternately inserted with their ends so that each ferrite rod arranged between the protective tube contacts (2 to 5) of two switching points can be used alternately to control the protective tube contacts of both switching points.