SU942127A1 - Method of indexing ferrite cores in a pattern - Google Patents

Description

(54) METHOD OF ORIENTATION OF FERRITANE HEARTS IN STENCIL

Claims (2)

The invention relates to computer technology, in particular, to the technology of manufacturing aa-type devices on ferrite cores. Known methods orientashsh ferrite cores in the stencil. One of the known methods is that the ferrite cores are loaded into the device to the through grooves, then they are vibrated all over the device and at the same time create suction through the grooves of the device by creating a vacuum 1. The disadvantage of this method is that under the influence of vibration, the ferrite cores move chaotically, collide, which leads to their partial or complete destruction. In addition, the speed of this method is quite low due to the filling of the slots of the device with splinters from ferrite cores. The closest to the proposed method is to fill the surface of the stencil with grooves with ferrite cores, place the stencil on the vibrating table, create vibration and simultaneously impact the ferrite cores with a magnetic field of one direction, the lines of force perpendicular to the surface of the stencil with grooves 2. Disadvantage This method is the presence of mechanical vibration, which leads to the destruction of ferritic cores - 1, which reduces the reliability of filling the stencil fit m ferrite cores and the speed of the installation and their orientation in the slots of the stencil. The purpose of the invention is to improve the speed of installation and orientation of ferrite cores. This goal is achieved due to the orientation of ferrite cores in the stencil, which involves placing ferrite cores on the stencil surface with grooves of a single-field magnetic field on the ferrite cores whose lines of force are perpendicular to the surface of the stencil with grooves, simultaneously with the impact of the critical-polar magnetic field, is affected by an additional non-polar magnetic field whose lines of force are parallel to the plane of the location of the trajectory ETA with the slots in a direction of alignment grooves. The drawing shows one of the variants of the device for orientation of ferrite cores into the stencil grooves in two projections. The device contains katupzhi, creating a unipolar magnetic field 1, coils, creating an additional magnetic field, 2, chamber 3, ferrite cores 4, stencil 5, grooves 6. Stencil 5 is installed in chambers 6 with grooves 6, while sides sticked with sticky tape. Pour the ferrite cores 4 on the stencil 5 and create using cutters. 1 and 2 magnetic fields whose lines of force are directed in a mutually perpendicular direction The impulses of a magnetic field, the lines of force of which are directed perpendicular to the surface of the stencil 5, must be single-pole so that the ferrite cores rush upward under the action of the floor gravity forces, magnetic field pulses, the lines of force of which are directed parallel to the surface of the stencil 5, must alternate polarity, since under the influence of this field ferrite cores not only are oriented in ol direction positioning grooves 6, but also moved along the direction of orientation first in one direction and then - else. In the absence of alternating polarity of the pulses of an additional magnetic field, the ferrite cores will be distributed unevenly on the surface of the stencil 5, which will drastically reduce the speed of the filling and orientation process with the ferrite cores 4 of the slots 6 of the stencil 5. In the case where the stencil has cell slots directed at an angle to a friend, you can install a system of coils that create an additional magnetic field so that the direction of the power lines of each additional magnetic field coincides with ION respective slots stencil. Instead of pulsed additional fields, a constant magnetic field can be used, it is necessary that the direction of the stencil slots coincide with the direction of the constant magnetic field, and the stencil must be angled to the direction of the magnetic field lines to create a uniform distribution of the ferrite cores on the stencil surface. The proposed method of orientation of ferrite cores in the slots of the stencil allows directional orientation of the ferrite cores along the slots of the stencil, which leads to a sharp reduction of co-acrony between the ferrite cores, and hence their destruction. All this contributes to the increased speed of filling the stencil grooves with ferrite cores and increases the reliability of the matrix made from these ferrite cores. The invention of the method of orientation of ferrite cores in the stencil, which consists in placing ferrite cores on the surface of the stencil stencil, the effect of a unipolar magnetic field on the ferrite cores, the lines of force of which are directed perpendicular to the surface of the stencil of the grooves, in which, by drawing, the direction of the lines is perpendicular to the surface of the stencil with the grooves of the ferrite cores. and the orientation of the ferrig cores, simultaneously with the action of a unipolar magnetic field, are affected by an additional multipolar magnetic field, with The sludge lines of which are directed parallel to the stencil layout plane with grooves in the direction of the slot placement. Sources of information taken into account during the examination 1. USSR authorial inscription: No. 560254, cl. Gil 5/12, 1976. 2. US patent number 3.117.368, cl. 29-155.56, publ. 1970 (proto. Type).