DE1224364B - Memory from magnetic ring cores - Google Patents

Description

Memory from magnetic ring cores The invention relates to a memory from magnetic ring cores, which are arranged in the manner of a matrix, in a carrier Insulating material are housed, on the outside of which the control, reading or the same lines except for the line pieces passing through the magnetic ring cores are pre-applied in the form of printed circuits, the connections of the Cable runs in the area of the magnetic ring cores after assembling the memory formed through plugged conductor pieces connected to the ends of the cable runs are.

In a known magnetic core memory, the are in the form of each a turn through the cores running lines for controlling, reading Od. Like. Served, manufactured on the principle of printed circuits. For this a multitude of ferromagnetic cores are placed in recesses of a carrier plate, which preferably consists of photosensitive glass, embedded and then the wiring on both sides of the carrier plate is fixed via the potting compound Cores and through one or more holes provided in the center thereof with a printing process, photo-etching, metal spraying or the like Procedure made. The disadvantage is that the memory produced in this way Magnetic cores immersed in the acid bath to produce the printed cable runs must be, whereby there is a risk that they of acid residues when soaking not be completely removed, be destroyed.

Magnetic core memories are also known in which all of them form a matrix level belonging magnetic cores are arranged between plates made of insulating material. These Insulating panels are with both the outside of the panels and the inside towards conically widened openings with a maximum of the inner diameter of the magnetic ring cores same smallest diameter for feeding the row and column wires as well preferably with grooves that are essentially tangential to the openings for the recessed and fixed wiring of the read and blocking pulse wires. The disadvantage is that in such a magnetic core memory, the lines of individual Wires are formed which are assembled by hand and threaded through the cores have to. This type of manufacture of the magnetic core arrangement is time consuming and therefore expensive.

There is also a memory of the type described above is known, in which the conductor pieces of Rivets, in particular hollow rivets, are formed. These hollow rivets are not used only as an electrical connection, but also as a fastening means for the carrier plates, from which the carrier is constructed. The disadvantage is that memory is very difficult can be produced in which several conductor pieces passed through the core openings should be, as is usually desired. For this purpose, several coaxially arranged Hollow rivets are used, whereby the number of carrier plates increases considerably, because the ends of the hollow rivets against each other by the additional carrier plates must be isolated.

The present invention is based on the object of the last To improve the memory structure mentioned so that even with several line bushings the core openings result in a very simple storage structure and it still does is possible, the line connections going through the cores by machine to manufacture.

The invention solves this problem in that for pushing through several conductor pieces each running through a magnetic ring core in the carrier Individual bores arranged in parallel next to one another are provided that through this the conductor pieces are plugged in and the conductor pieces rod-shaped solid conductor pieces are.

For the machine production of those going through the cores Conductor connections can be of the type known in the shoe machine industry Machines built using heel nailing machines that use the wire for each Remove the puncture point from a supply spool and automatically Cut to the right length. The resulting pins are then through the pre-drilled carrier plates encountered while z. B. upset at the ends. Even soldering the ends of the conductors to those that are preferably somewhat protruding from them Wires can be in a known manner, for. B. by rope soldering, take place automatically.

The storage medium preferably consists of two outer carrier plates, one or both of which each form the recess for a magnetic ring core or it has an intermediate plate, each of which alone is the recess for one Forms magnetic ring core, the bores in the carrier outer plates being fitted in alignment are. It is therefore not necessary, even if there are several by the magnetic ring cores Running ladders to build the carrier from .a large number of carrier plates.

According to another feature of the converge the holes for the through = the magnetic core leading through conductor pieces in the insulating plates towards the core. This makes it possible, despite the small diameter of the used Magnetic ring cores, the connection points on the outsides of the insulating panels to be kept at a sufficient distance from each other.

In order to achieve a clean separation of the soldered connection points, can according to another feature of the invention, the holes at their ends, be sunk, with a strip of planar surface between the sinks stop.

The soldering can then be done in such a way that all have a magnetic ring core piercing wires first through a common soldering point with the conductor ends be connected and then the solder is mechanically or galvanically removed so far, that only the solder connection of each wire with the associated conductor end stop.

Since a large magnetic core memory is expediently made up of several - individual storage disks is assembled in stack form, one of the lines can go through all of them Cores belonging to a stack and aligned with one another are passed through smoothly be. These lines can also be operated completely automatically using a suitable magazine be threaded where = at the ends on either side of the stack of storage disks can be connected in the manner desired in each case. Leave here too use printed circuit boards to make the connections, their Conductor pieces are soldered to the ends of these lines that run through the whole stack can be.

The invention is illustrated below with reference to in the drawing Embodiments described in more detail. In the drawing, F i g. 1 is a partial plan view to a storage disk of a memory according to the invention, FIG. 2 a partial section through this storage disk, F i g. 3 shows a partial section through a modified embodiment a storage disk, FIG. 4 and 5 sectional views through further embodiments of the invention and FIG. 6 is a diagrammatic representation of a memory according to FIG of the invention, consisting of several storage disks combined into a stack. The in -F i g. 1 storage disk of the invention shown schematically in plan view The memory consists of an insulating plate 1, on the outside of which is fully extended Lines shown conductor pieces 2 applied in the form of "printed circuits" are and from an insulating plate 3 (see. Partial section in F i g. 2), which also on their outside in the form of »printed circuits«, with dashed lines Lines shown has conductor pieces 4. Between the insulating plates 1 and 3 magnetic ring cores 5 are arranged. For this purpose, as shown in FIG. 2 can be seen, Another insulating material plate 6 can be used, which has openings 7 in which the magnetic ring cores 5 are inserted and in which they are pressed together the insulating panels 1, 3 and 6 are held. ..

According to another, in ü 'i g. 3 embodiment of the invention shown The magnetic ring cores 5 can also be placed in matching recesses 7 'of the one insulating material plate 3 housed and held by the other insulating plate 1 pressed against it se nm. An intermediate plate 6 is then omitted.

The outer insulating plates 1 and 3 are provided with holes 8, which open into the interior of the magnetic cores 5. A perfect escape to ensure the holes 8 in the two outer insulating plates 1 and 3, are these aligned with each other by means of Z®utrierstifte 9 and after tightening Sehraubanmutt®rn firmly connected to each other. -After F i g. 2 are the holes 8 arranged in the insulating panels 1 and 3 parallel to each other. In these holes 8 short pieces of wire 10 B are set, whose over the outer sides of the plates 1 and 3 protruding ends have been connected to the conductor pieces 2 and 4, e.g. B. by Soldering, SchwQißen, Stguchen or the like. These pieces of wire 10 can be bare because they are inevitably kept at a distance from one another by the bore.

To be small even when using magnetic ring cores. Diameter .. flawless soldering of a wire end with the end of a conductor section in this way to enable that between the soldered connections or the ends of the conductor pieces If there is a sufficient distance, the holes 8, as in FIG. 3 shown, converge towards the interior of each magnetic core 5.

In the case of the one shown in FIG. 4, the ends of the parallel bores 8 are provided with depressions 11. However, parts of the flat surface of the insulating plate remain between these depressions 11. A soldered connection between the conductor pieces 2 and 4 with the ends of the wire pieces 10 can then be made in such a way that all soldered connections are first made jointly by means of a single solder bead 12 and then the solder is mechanically or galvanically removed to such an extent that as from F i g. 5, only the soldered connections between the wire ends and the conductor ends remain. The solder fills the depressions 11 of the holes B.

F i g. 6 shows a schematic diagram of one from individual storage disks 13 constructed in the manner described above Magnetic core memory. There is an additional bore 14 for each magnetic core provided by the one activation line 15 or the like. Out is. These lines 15 are aligned throughout the stack of storage disks 13 passed through, these reversing their direction at the end of the stack. The connecting pieces at two ends of these lines 15 can be shaped again of printed conductor pieces 16 can be arranged on an insulating plate 17.

The top view of FIG. 1 shows that in the memory according to the invention the reversal of direction between two adjacent magnetic cores piercing lines is guaranteed by itself and the task of at least two lines to lead in the same direction of current flow through a core, easily detachable is.

If one takes the current direction in the sense of the arrows in FIG. 1, it can be seen that each of the conductors 18 and 19 penetrates a magnetic core in one direction and the conductor 20 penetrates this magnetic core in the opposite direction. The choice of the direction of current flow can in any case be made so that it is adapted to the selected memory organization.

The arrangement of the printed lines (see FIG. 1) is such that there is no crossing on one side. The connections are provided once at the top and once at the bottom for the excitation lines. For the one excitation line shown in FIG. 1. runs vertically, the current direction is reversed from column to column, ie, cores following one another in the current flow direction are flown through alternately in one or the other direction.

Claims (5)

Claims: 1. Memory from magnetic ring cores, which in the manner of a Arranged matrix, housed in a carrier made of insulating material, on the Outside the control, read or the like lines except for through the Line pieces in the form of printed circuits that lead through magnetic ring cores are brought up, the connections of the line runs in the area of the magnetic ring cores after assembling the memory by pushing through with the ends of the cable runs connected conductor pieces are formed, characterized in that for pushing through of several conductor pieces each running through a magnetic ring core (5) in the carrier is provided with individual bores (8) arranged parallel to one another, that the conductor pieces are inserted through this and the conductor pieces are rod-shaped Solid conductor sections (10) are. 2. Memory according to claim 1 with two outer carrier plates, one or both of which each form the recess for a magnetic ring core or with an intermediate plate, each of which is the only recess for a magnetic core , characterized in that the bores (8) in the carrier outer plates are aligned. 3. Memory according to claim 1, characterized in that that the bores (8) for the conductor pieces passing through the magnetic core (5) converge towards the core in the insulating plates (1, 3). 4. Memory after one of claims 1 to 3, characterized in that the bores (8) at their ends are recessed, with a strip of the flat surface between the recesses stop. 5. Memory according to one of claims 1, 2, 4, 5 with several to one Stack of combined carriers with magnetic ring cores, characterized in that one of the lines through all aligned magnetic cores belonging to a stack is passed through smoothly. Documents considered: French patent specification No. 1222 553, 2nd addition (No 76 555).