SU485508A1 - Control method of reed switch - Google Patents

Description

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There is a known method of controlling a reed switch for opening by passing a current of a certain value through contact "cores; reed switch located in a closed state under the action of an external magnetic field (including the holding field). However, the contact pressure between the contact cores may decrease to zero, and the contact cores will open. In addition, after the first opening of the contact cores, while maintaining the effect of the external field, their periodic closing and opening, i.e., vibration, occurs unchanged. Vibration is stopped either by welding the contacts or by reducing the current through the contact cores. In both cases, the contact cores remain closed while maintaining the influence of an external magnetic field.

In a number of cases (if desired, use fepKOH as an element of self-dissipating contact, when short circuits are passing through it; or if a demand signal needs to be applied along a reed-controlled circuit, for example, when there are parasitic ones external magnetic field) it is necessary that when the current passes through the hernicle, its contact cores ensure that the controlled circuit is completely open without vibrating the contacts and remain in a closed state while maintaining the effect of the external magnetic field. the floor

The proposed method of controlling the reed switch by passing a current through its contact cores, which are previously in a closed state with an external magnetic field equal to the retention rate, eliminates contact vibrations and ensures a long open state of the reed switch when the current disappears through its contact cores and retains the effect of external magnetic field

For this purpose, the external magnetic field is reduced to the magnitude of the hold and I provide the current through the contact center-of-a-side jets of such a size that for the given voltages on the open hedge and the nature of the load switched by him, the gap between the contact cores bridge (extinction of the arc), most of the smallest of the gaps between the contact cores, corresponding to the intersection of the traction and the opposing characteristics of the reed switch. The proposed method is illustrated in the drawing, where 1 is the opposing characteristic of the reed switch; 2 t of telling characteristics; O-initial gap between the contact I and the cores; O is the limit value of the gap corresponding to the intersection point of the opposing counterpoint closest to the closed state of the contact cores; a reed switch 1 and its traction characteristic 2 for a given magnetizing holding force. In the absence of current through the contact cores, the contact pressure between them is determined by the segment AB. With an increase in the current through the contact cores, the contact pressure between them decreases and, at a certain value of current, they open. If the current of | jt: 3 closed contacts is determined when the voltage between them is in the open state is set so that, given the nature of the load when the contact is softened, the gap of the metal bridge passing through them (or arc extinction) | appears when the gap is smaller than the values of O. The vibrations of the contact cores over the cycle B-A-B are observed. If, however, the current is set so that the breaking of the metal bridge (arc extinction) occurs when the gap is i larger than Q, the contact cores open and remain in the open state when the gap between them corresponds to point F. By varying the magnetisation force of the reed switch at the absence of current through its contacting cores, it is possible to change the magnitude of the current through contact cores and the voltage across them, which will ensure the opening of the reed switch without vibration of its contact. heart-, NIKOV. The subject of the invention. A control method for a reed switch to open by passing a current through its contact cores, which are in a closed state under the action of an external magnetic field, is required to ensure reliable complete opening of the reed switch contacts. while maintaining the influence of an external magnetic field, reduce the external magnetic field to a magnitude of retention and then pass a current through contact cores of such magnitude that for given voltages on an open reed switch and character capacity of the load, the gap between the contact cores corresponding to the pa.-vpryu metal bridge (arc extinction), $) is also the smallest of the gaps between the contact cores corresponding to the intersection of the traction and opposing characteristics of the reed switch.

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