SU415746A1 - - Google Patents

Description

one

The invention relates to the field of automation and is intended to control the position of ferromagnetic bodies.

Known nut switches contain a sensing element with a source of magnetizing force and a magnetically controlled contact and controlling a ferromagnetic body associated with the object being monitored and having the ability to displace a magneto-controlled contact. In such switches, the source of the magnetizing force can be a permanent magnet or a direct current electromagnet. However, the operation stability of the switches made with permanent magnets is not high enough due to the time variation of the properties of the magnet material, caused, for example, by the presence of vibration and shock loads. The stability of the operation of switches made with direct current electromagnets depends on the stability of the supply voltage.

To increase the stability of operation in the proposed switch, the source of the magnetizing force is made in the form of a U-shaped magnetic circuit, between the rods of which a magnetic contact is placed, with a crossbar extended in both directions and placed on the crossbar and its three sections winding connected sequentially and according to .

FIG. 1 is given the constructive scheme of the described switch; in fig. 2 - his electrical circuit.

The switch consists of a sensing element 1 (in the drawing, its contours are limited by dotted lines) and a control ferromagnetic body 2 associated with the object under control or being part of it. In the sensitive element 1 between the rods 3 and 4 of the U-shaped magnetic circuit, a magnetic control contact 5 is placed. On the central part 6 of the crossbar of the magnetic conductor and its extensions 7 and 8 there are three identical sections of the electromagnetic winding 9. Electrically, the sections of the winding 9 are interconnected in series with and according to. The screws 10 on the rods x 3 and 4 are made of magnetically soft material and are designed to adjust the moment of operation of the switch. Winding 9 owls: locally with the elements of a magnetic circuit, an electromagnet forms, the field of which is used to control the pin 5.

Such an implementation of the switch allows to increase the reliability and stability of its operation.

When DC voltage is applied to the excitation coil, the magnetic core is magnetized. At the same time, there are streams from each of the sections of the excitation coil, some of which are closed through the magnetically controlled contact 5, causing the normally open contacts to close and the normally closed contacts to open (the initial state of the non-switch). The elements of the magnetic circuit of the electromagnet are chosen so that the central part 6 of the bar of the magnet cable is saturated at a voltage slightly below the nominal. The end sections 7 and 8 of the non-cladding, on which the end sections of the winding 9 are located, are less saturated (or not saturated at all). Since all three sections of winding 9 are connected in series and according to, the scattered streams of the extreme and central sections, respectively, in rods 3 and 4 are set against each other, partially kompensnru each other. When the magnitude of the supply voltage changes, for example, when it decreases, the scattered fluxes of the outer sections of the winding 9 decrease by a greater amount than the notes of the scattering center section. As a consequence, the compensating effect of the fluxes of the outermost winding sections on the notes of the central section in the bars 3 and 4 becomes less and the resulting flux through the magnetically adjustable contact 5 changes slightly. When a fret is approached or passes through the sensitive element 1 of the switch of the controlling ferromagnetic body, a bypassing of the magnetic flux occurs, closing through the magnetically adjustable contact 5, which causes its normally open contacts to open and the normally closed contacts to close (the non-switch is triggered). Due to the stabilization of the flow closing through the magnetically adjustable contact, the position of the control ferromagnetic body, corresponding to the moment of operation of the switch, with the oscillating power supply of the electromagnet and the voltage remains almost unchanged. The subject was invented and a traveling non-switch containing a sensitive element with a source of magnetizing force and a magnetically controlled contact and but not only on the coder that does not control the ferromagnetic body, which is connected with the object being monitored and which has the ability to push the controlled contact when moving. , differing from the fact that, in order to increase the stability of the non-switch operation, the source of the magnetizing force was extracted in the form of a different magnetic conductor, between the rods of the second host and the magnetic restraint, owed to both sides by the non-clavier and placed on the crossbar and its favors by three sections of the winding, connected in series and according to. I WI