PL87005B1 - - Google Patents

Description

The subject of the invention is a device for looping reading windings in memory arrays. There is a device for looping reading windings in memory arrays, containing a matrix frame with cores through which co-ordinates of both X and Y directions are threaded, and needles at the end of the wire intended for making read winding. The loops of the reading winding are made by hand, with the size of the loops, their arrangement and the correctness of the rounds depending on the quality of visual inspection and the subjective abilities of the operator. The disadvantage of this device is the lack of auxiliary devices for laying and shaping the read winding, and in particular petJi this winding at the edges of the matrix. This is conditioned by the low quality of matrices, introduces subjectivity into the process of their production, lowers work efficiency, requires employing highly qualified operators and heavy operator's eyesight. There is also a known device for piercing matrix cores with co-ordinates and reading windings with manual forming of loops of reading windings on the edges. matrix. Such a device includes a vibrating table and a special frame-mask in the form of a plate with through holes, the shape and dimensions of which correspond to that of the cores. The holes are arranged in places corresponding to the location of the cores in the memory matrix taking into account a 45 ° twist of the core axis with respect to the directions of the X and Y coordinates. Adhesive tape is glued to the mask on one side in such a way that each hole is a cell to which the bottom sticks to the ferrite core. The mask is placed over the cores with an adhesive layer facing the cores. The cores, bouncing chaotically as a result of the action of the vibrator, stick to the bottom of the cell. This device allows the cores in the mask to be sewn in this way with the wire of the reading winding before they are threaded with the wires of the coordinate windings, which facilitates the process of making loops of the reading windings. In addition, the mere fact of immobilizing the cores in the cells on the edges of the matrix also helps in the performance of the loops of the reading windings, in particular in the part of visual inspection of their dimensions. two half branches of the reading winding% 87 005 and which may be the cause of additional electrical disturbances during the matrix operation. This, in turn, reduces the quality of the memory matrix. When using super-miniature cores, making masks becomes impossible. When piercing the cores immobilized in the mask cells, the cores are subjected to high mechanical stress, which leads to their damage and an increase in the percentage * of non-production. The removal of the adhesive tape from the mask and then the separation of the mask from the stitched matrix also leads to frequent damage to the cores. The aim of the invention is to remove the indicated inconveniences by designing a device for looping reading windings in memory arrays, which would be characterized by simplicity of construction and convenience of operation, creating identical loops in the half-branches of the reading winding, irrespective of the operator's qualifications, with a simultaneous reduction of the load on his eyesight. of the read winding conductors comprises, according to the invention, a template plate connected to the matrix frame and placed parallel to the plane of the matrix to be produced, to which template plate is attached at least one movable bar Iana along the lines of the opposite loops of the reading winding, whereby holes are made in the template plate and in the movable strips in places corresponding to the arrangement of the loops of the reading winding in the memory matrix. of the reading winding in the matrix, with the diameter of the pins corresponding to the internal diameter of the loop roundness and the diameter of the holes in the template plate and movable strips. The device designed in accordance with the invention allows to simplify the labor-intensive operation of shaping the loops of the reading windings. This device can be used to produce ferrite memory arrays with any arrangement of cores at the intersection of coordinate wires, and ferrite three-dimensional memory elements in the form of cubes, bundles, etc. of memory with practically unlimited capacity from cores of any dimensions, including superminiature, according to any known arrangement topological arrangement of the reading windings in the matrix, including the location of the reading winding in the direction of the diagonal of the plate, or the memory cube. The use of the device according to the invention provides a significant reduction in the operator's eyesight load, and allows employing less qualified personnel in the production of ferrite memory arrays. The device according to the invention is reliable in operation and simple to manufacture. The device according to the invention is described in more detail in the example of the drawing which schematically shows a device for looping windings of reading memory matrices. The device according to the invention comprises a frame 1 of the matrix 2, on to which the co-ordinates 3 with cores 4 are attached, through which the co-ordinates 5 of the second direction and the reading winding 6 are threaded. The conductor 61 of the read winding 6 has a needle 7 at its end to facilitate the production of the read winding. Parallel to the frame 1 of the matrix 2 there is a template plate 8, which is rigidly attached to the frame 1 during the production of the reading winding 6. In the plane of the template plate 8 there is at least one movable bar 9 for shaping the loops 11 of the matrix 2. Device according to The invention may be provided with several similar movable slats 9. Within the field of the template plate 8 and within the field of the movable strip 9, fixed by means of the retaining elements 12 to the template plate b, holes 13 for the pins 14 are provided exactly opposite to each loop 11 produced The diameter of the pins 14 corresponds to the inside diameter of the loop 11 of the reading winding 6 and the diameter of the holes 13 in the template plate 8 and the sliding strips 9. The pins 14 are inserted into the holes 13 with minimal play. The operation of the device according to the invention is as follows. To the frame 1 of the matrix 2 is attached a template plate 8 with movable strips 9 fixed by means of fixing elements 12. On the frame 1 are fastened the ends of the XY 3 co-ordinates with previously threaded on them. core wires 4. A X 5 common wire is passed through each first core 4 of each Y 3 coordinate perpendicular to the Y coordinate 3 wires. The ends of the X coordinate are attached to the frame 1 at the locations provided. Then the second X 5 common wire is threaded through the second row of cores 4, the ends of which are also fixed on the frame 1. Using the needles 7, the wire 61 of the reading winding 6 is threaded through the cores 4 pierced by two wires X - according to the topological diagram of the matrix 2 - in in the direction from the center towards the edges of the matrix 2. Before pulling the wires 61 forming in the middle of the matrix 2 loops 11 of the reading winding 6 into the appropriate holes 13 in the template plate 8 two spikes 14 are inserted, through which the first pair of loops 11 are formed. follow the next two horizontal rows of cores 4 with 87005 3 co-ordinates X 5, and then, with needles 7, pierce these two rows of matrix 2 with conductor 61 of read winding 6 from the edges of matrix 2 towards its center. In the places where the loops 11 are formed on the edges of the matrix 2, the holes 13 in the fixed movable strips 9 are inserted into the next two studs 14. By pulling the wires 61 of the reading windings 6, the next pair of loops 11 of each winding 6 is formed 6. Next, in a similar manner to piercing each section of the matrix 2 with the reading winding 6 shaped at the edges of the matrix and its individual fields in the form of loops - the cols 14 are inserted one by one into the holes 13 in the template plate 8, and then into the holes 13 in the movable strip 9 and the wires 61 that are pulled up. all the cores 4 of the matrix 2 are connected with the reading winding 6. After the operation of piercing the matrix 2 is completed, the moving strips 9 are brought closer to the opposite loops by means of the positioning elements 12. Thus, the wires 6 are tightened! the windings 6 on the pins 14 are reduced, which allows the easy removal of the pins 14 by inverting the entire frame 1, after which the finished matrix is removed from the template plate 8. EN

Claims (1)

1. For patent protection Device for looping reading windings in memory arrays containing a matrix frame with cores through which the X and Y coordinate wires are threaded, and needles at the ends of the reading winding wires, characterized by the fact that it has a frame attached to the frame (1) of the matrix (2) parallel to the plane of the matrix to be produced a template plate (8) to which is attached at least one movable bar (9) located along the lines of the opposite loops (11), fixing elements (12) for determining the position of the movable bars (9) and pins (14), the number of which corresponds to the number of loops (11) of the matrix (2), while holes (13) are made in the template plate (8) and movable strips (9) in places corresponding to the location of the loops (11) of the reading winding (6) ) of the matrix (2), and the diameter of the pins (14) corresponds to the inner diameter of the loop (11) and the diameter of the holes (13) in the template plate (8) and the movable blades (9). PL