SU411537A1 - - Google Patents

Description

one

The claimed invention relates to the field of polarized relays on magnetically controlled contacts.

Polarized switches on magnetically controlled contacts are widely used in automatic control systems. In a series of control systems, polarized switches on magnetically controlled contacts are required to operate in a wide range of temperatures and operating voltages on the control windings with high resistance to mechanical effects.

The known switch designs do not fulfill the entire set of requirements, since even with a slight excess of the operating voltage over the operation voltage, the second contact (opening) is reversal and the contact is closed.

In addition, due to the influence of the magnetizing field of the permanent magnet, the intercontact gap of the open contact decreases or the contact pressure of the normally closed contact decreases, which affects the switching capabilities of the switch and leads to a decrease in vibration resistance.

For the purpose of newer sensitivity, the magnet is mounted so that its pole planes are parallel to the longitudinal axis of the magnetically controlled contact, the magnetic core with two pole plates located along one side of the magnetically adjustable contact with the gap between them and the other end of the magnet is fixed at one end of the magnet - magnetic core, the plate of which is located along the other side of the magnetically controlled

contact.

FIG. 1 shows a magnetic switch circuit diagram using a switching contact; in fig. 2 - diagram of the interaction of magnetic flux when using

switching contact; in fig. 3 is a diagram of the magnetic circuit of the switch using the contact for closure; in fig. 4 is a diagram of the interaction of magnetic fluxes when using a contact for closure.

The non-switch magnetic system consists of two magnetic cores 1, 2, having pole plates 3-5, made, for example, in the form of hemispheres, between which a magnetically controlled contact 6 is installed, so that

the working gap does not overlap with the zero p. tastins.

The magnetic circuit 1, 2 is connected to the poles of the permanent magnet 7 so that the zero-pole plates 4, 5 of the magnetic core 2 are magnetized

I-permanent magnet is the same, and the plate 3 of the magnetic circuit 1 has the opposite polarity. On the pole plates there is a coil with plowing control 8.

When using a switching contact, in which all three leads are made of ferromagnetic material, two of them, forming a normally closed contact, are placed on one side of the glass ampoule. For example, the CEM-3 contact is made so that the movable tab is opposite the pole plate connected to the N pole of the permanent magnet so that the working surface of the movable tongue is positioned mainly perpendicular to the direction of the flux of the permanent magnet Fp. In the initial state, the movable tongue 9 is pressed against the fixed tongue 10 not only by elastic forces, which determine the contact pressure, but also by the flux of the permanent magnet Fp passing through the movable tongue 9 and the fixed tongue 10 from the pole plate 3 to the pole plate 4. Magnetic The flow FPP passing through the working gap from the movable tongue 9 to the contact 11 tends to tear off the movable tongue 9 from the fixed tongue 10, but this force is less than the holding force of the tongue 9 against the fixed tongue 10. When the control winding is 8 m The fullest control flow of the flux passing through the tab 9 and through the worker will fold in the working gap with the flux of the fixed magnet Fshg, and the magnetic flux of the control of the ful passing through the fixed tongue 10 will be subtracted from the flux of the permanent magnet Phil and fold with the flux of the permanent magnet Fpp, as a result of which the tongue 9 is transferred to the contact 11 and after removal of the voltage from the winding will be held due to the magnetic flux of the permanent magnet Fpp- To return the tongue to its original position, a current is supplied to the winding reverse polarity or a second winding is provided, which creates a magnetic flux of control in the opposite direction, while the magnetic flux Fu will be subtracted from the flux of the permanent magnet Fpp and fold with the flux of the permanent magnet FplV as a result of this, under the action of elastic forces, the tongue 9 returns to the fixed tongue 10 .

Along with switching contacts, relays with break-open contacts are widely used, which use make contacts. In this case, the working gap between the movable tabs 12 and the fixed contact 13 of the magnetically controlled contact 14 is located between the pole plates 3 and 4, while the flexible tab is located on the side of the magnetic circuit 2 having two pole plates 4 and 5 of the same polarity.

Such a contact setup can increase the magnetic flux of a permanent magnet,

a magnetic flux through the working gap of the magnetic contact, in this case, the magnetic flux consists of a magnetic current Fpp passing along the tongue 12, and a magnetic flux Fggl passing perpendicular to the plane of the tongue 12 to the pole plate 4.

When the control winding of the relay operating, for example, on opening, is turned on, the magnetic flux Fu passing along the tongue 12 is divided into two streams: Fu.- ,, going to the pole plate 3 and folding the flux with a constant magnet flux Fpl, and magnetic flux F st. going towards the pole plate 4 and directed towards the flow of the permanent magnet Fpp-As a result of the interaction of the magnetic fluxes of the control and the permanent magnet, as well as with the internal forces of the catch 12, the contact 12 opens. When changing ppm the magnet can be obtained operating modes: closure, closure with memorization and opening. When operating in the flip-flop mode, there is very little difference between the opening and closing currents. When operating in the memory closure mode, the limits of operating voltages are greatly extended.

The presence of large (compared to inter-contact) air gaps between the terminals of the contacts and the pole plates influences the magnitude of the blocking force of the mobile tongue due to the constant magnet current. To increase the blocking force by reducing the air gap, consisting of one of its working contact gap and the air gap, a gasket 15 of a magnetically conductive dielectric, such as ferroelastic, is installed between the terminal of the contact 11 and the pole plate 5.

Subject and d on and e and

Claims (3)

1. A polarized switch containing a magnetically controlled contact located inside the winding and a permanent magnet, characterized in that, in order to increase sensitivity, the permanent magnet is mounted so that its pole planes are parallel to the radial axis of the magnetically controlled contact on one The magnetic circuit is fixed to the end of the magnet with two pole plates placed along one side of the magnetically controlled contact with a gap between them, and a magnetic circuit is installed at the other end of the magnet, the pole being Astina which is located along the other side magnitoupravl emogo contact. 2. The switch according to claim 1, which is also distinguished by the fact that the petals of the switching contact and the contact for a short circuit are located between opposite-polar pole plates, while the switching contact faces the magnetic circuit having one pole plate. 3. Switch on n. 1, distinguish