SU725234A2 - Contact-free change-over switch - Google Patents

Description

The invention relates to switching devices of low-current electrical circuits used in radio engineering, automatic control systems, telegraphy, typewriting and is an improvement of the known device described in ed. St. No. 427476 ..

Auto switch St. No. 427476 contains a housing, a head, a magnetic system and a magnetosensitive element, the magnetic system is made in the form of a horseshoe-shaped permanent magnet, pressed into the case, and a freely moving ferromagnetic armature with a head shank, between which, in one of the two air gaps at the end of the permanent magnet is magnetically sensitive an element, one of the poles of a permanent magnet can be shorter than the other by the thickness of the magnetically sensitive element, and the anchor is made stepwise and the height of the step is equal to INE magnetosensitive element.

Known proximity switch by author. St. No. 427476 has the disadvantages that the magnetically sensitive element is directly adjacent to the pole of the permanent magnet both in the initial (anchor is pulled) position of the device and when removing the anchor to the length of the stroke. Therefore, even with a maximum air gap, the magneto-sensitive element is affected by a significant magnetic flux emanating 5 from the pole of the magnet. This circumstance precludes obtaining the maximum possible difference in induction acting on the magnetically sensitive element and, accordingly, leads to a decrease in the level of 10 output electric signal, i.e., to a decrease in the reliability of the contactless. switch.

In addition, the magnetic flux emanating from the second pole of the permanent magnet15, when the armature is removed (especially with small movements of the armature) closes through the working air gap to the armature, which also reduces the difference in magnetic induction acting on the magneto-sensitive element. This also reduces the reliability of the proximity switch.

The aim of the invention is to increase the reliability of the proximity switch. 25 The goal is achieved due to the fact that in the well-known proximity switch according to ed. St. No. 427476, introduced ferromagnetic plates mounted on one or both poles of a permanent 30th magnet.

The increase in the difference in magnetic induction is achieved due to the fact that one pole of the permanent magnet is supplied with a ferromagnetic plate, which is mounted on the pole 5 of the permanent magnet shortened by the thickness of the plate, between its end and the magnetically sensitive element.

A further increase in the difference in magnetic induction is also achieved due to the fact that the second pole of the permanent magnet is equipped with a second ferromagnetic plate located between the end of the pole of the permanent magnet and the armature.

In the open state of the magnetic system, due to a change in the direction of closing of the main magnetic flux, the magnetic field induction acting on the magnetically sensitive element decreases, which leads to an increase in the magnetic induction drop, that is, to an increase in the reliability of the proximity switch.

The drawing shows a longitudinal section of a proximity switch.

The proximity switch includes a 25 horseshoe-shaped magnetic system containing a permanent magnet 1 with ferromagnetic plates 2 mounted on the ends of its poles and an armature 3 also of ferromagnetic material. In one of 30 of the air gaps of the magnetic system, a magnetically sensitive element 4 is located at the end of the plate 2. Magnet 1 is rigidly fixed in the housing 5. The shank of the head 6 abuts anchor 3. 35

The proximity switch operates as follows.

In the initial state, the armature 3 is drawn and the length of the air gap of the magnetic system is equal to the thickness of the magnetically sensitive element 4, while the main magnetic flux, closing through the ferromagnetic plates 2 and the armature 3, acts on the magnetically sensitive element 4. When the head 6 is pressed, the armature. 3 45, the working air gap of the magnetic system increases and changes.

singing of the direction of closure of the main magnetic flux. Now it closes through the inner side surfaces of the ferromagnetic plates 2 and the air gap between these surfaces, bypassing the plane of the magnetically sensitive element 4. This circumstance leads to an increase in the difference in magnetic induction acting on the magnetically sensitive element.

Tests have shown the operability and reliability of the proximity switch.

Claims (1)

The increase in magnetic induction drop is achieved due to the fact that the pole of the permanent magnet is supplied with a ferromagnetic plate, equal to the pole of the permanent magnet shortened by the plate thickness, between its end and the magnetically sensitive element. A further increase in the magnetic induction differential is also achieved due to the fact that the second pole of the permanent magnet is supplied with a second ferromagnetic plate located between the end of the pole of the permanent magnet and the core. In the open state of the magnetic system, by changing the direction of the main magnetic flux, the induction of the magnetic field acting on the magnetically sensitive element is reduced, which leads to an increase in the magnetic iodine differential, i. E. to improve the reliability of the proximity switch. The drawing shows a longitudinal section of the contactless switch. The proximity switch includes a horseshoe-shaped magnetic system containing a simple magnet 1 with ferromagnetic plates 2 fixed at the ends of its poles and measles 3 also made of a ferromagnetic material. In one of the air gaps of the magnetic system at the end of the plate 2 is located the magnetically sensitive element 4. The magnet 1 is rigidly fixed in the housing 5. The shank of the head 6 rests on the measles 3. The contactless switch works with the front part. In the original case, the measles 3 are pulled and the length of the air gap of the magnetic system gap is equal to the magnetically sensitive element 4. When the main magnetic flux is closed through the ferromagnetic plates 2 and the measles 3, 3 moves away, the working air gap of the magnetic system increases and changes. and the direction of closure of the main magnetic circuit. Now it closes through the inner sided surfaces of the ferromagnetic Plastine 2 and the air gap between these surfaces, along with the plane of the magnetic sensitive element 4. This circumstance leads to an increase in the differential magnetic induction acting on the magnetic sensitive element. Tests have shown the reliability and reliability of the contactless switch. The invention of the contactless switch lo aut. St. No. 427476, characterized in that, in order to increase the reliability of operation, one or two ferromagnetic plastics are inserted in it, mounted on one or both poles of a permanent magnet.