SU741337A1 - Electromagnetic relay with two stable states - Google Patents

Description

made of a thin flexible transversely magnetized magnetoelastic, covers one of the groups of magnetically controlled contacts, for example 3. A bridge magnet 6 is located between the contacts 3 and the magnetic conductor 5 on one side of the contact gaps 7 of the magnetically controlled contacts.

A flexible magnet in the form of a flat rectangle can be magnetized transversely by placing it between the poles of a magnetized device, after which the magnet is shaped like a radially magnetised cylinder, etc.

A cylindrical magnet made of a hard material can hardly be magnetized in the radial direction. The working magnetic flux passes along the longitudinal axis of the magnet and the magnetically-controlled contact, and the scattered flux is shunted by a flux-path covering the permanent magnet, which excludes the magnetic influence of the contact group 3 on the contact group 4.

The working magnetic flux of the magnet creates a magnetomotive force sufficient to overcome the elastic force of the magnetically controlled contacts and keep them in a closed state.

The core 1 is made of a magnet of a flexible saturable material with a rectangular hysteresis loop, which has a hysteresis section of the magnetization reversal loop, which is close to horizontal. An example of such a material is molybdenum or another permalloy. In this case, the operation of the relay should be examined in the saturation region of the magnetic material.

The operating point is located on the horizontal hysteresis section of the magnetic reversal loop. This improves the stability of the relay operation, excluding the possibility of re-closing the open-ended magnetically controlled contact of group 3 with a further increase in the control current (exclusion of the second trigger points).

In order for the relay to operate, it is necessary to apply a current to the cutter 2 of such magnitude and direction as to

the flow was directed towards the flow of a constant magnet 6, and was large enough to saturate the heart | ika 1.

When a current flows through the coil, the junction groups 4 are closed and the contacts of group 3 are open. After the current is disconnected, the relay contacts return to their initial state, since the contacts of group 4 are opened by the action of the elastic forces of the contact springs, and the contacts of group 3 are closed by the action of the magnetic forces of the permanent magnet 6.

Thus, the proposed relay, using conventional magnetically operated contacts for closure, allows to obtain a relay that performs the functions of closing, opening and switching.

Claims (2)

1. Electromagnetic relay containing short-circuiting magnetically controlled contacts, control coil and core inside it, saturated with control coil in nominal mode, and magnetoconductors covering magnetically controlled cocktails and connected to the ends of the core, characterized in that, in order to expand functionality, a permanent magnet made of a magnetoelastic magnetized Perpendicular to the axis of the magnetically controlled contacts is inserted into the relay, the magnetically controlled contacts are divided into two groups s, and the specified permanent magnet is located between at least one the magnetic circuit and only one group of magnetic contacts. 2. Electromagnetic relay according to claim 1, in which the core is made of a material with a rectangular hysteresis loop. Sources of information accepted but attention in the examination 1, USSR Author's Certificate No. 369642, cl. H 01 H 1/66, 1970 (prototype), f. s eleven