RU1802883C - Device for inspection of integrity of two ferromagnetic parts - Google Patents

Abstract

Usage: in the devices of automation and telemechanics in railway transport. SUMMARY OF THE INVENTION The use of reed switches for monitoring the integrity of ferromagnetic parts, 2 sludge.

Description

The invention relates to electrical engineering and can be used in switching automation devices and mechanisms in which the integrity of mobile ferromagnetic elements must be monitored.

The purpose of the invention is to increase reliability.

The device is depicted in FIG. 1,2.

Permanent magnets 3 and 4 are installed inside the two controlled movable ferromagnetic elements 1 and 2. In this case, one of their opposite poles N and SB with a given control position 1 (II) is sent to the terminals of the reed switch 5 (6), which is placed in a separate ferromagnetic noise-shielded screen 7, while others are in contact with the body of the controlled movable elements 1 and 2, which are interconnected at a certain distance I and are connected in the control zone by a fixed ferromagnetic element 8. To reduce the scattering fluxes, the side surface The spine of the magnets is coated with diamagnetic material.

When ferromagnetic elements 1 and 2 are moved to one of the specified control positions, for example, I (II), the working magnetic fluxes Фт and magnets 3 and 4 are added, and their resulting working magnetic flux Ф is closed via reed switch 5 (6), controlled by movable elements 1, 2 and the fixed element 7 connecting them. The resulting magnetic flux Φ includes a reed switch 5 (6), actively monitors the presence and integrity of ferromagnetic elements 1,

2 in a predetermined control position I (I), In order to exclude the influence of external magnetic fields on the proposed method, the ferromagnetic elements 1, 2 used

3 and the reed switches in the screens 7 are placed in a one-piece noise-protective ferromagnetic casing 9 (see Fig. 1).

With the next or simultaneous movement of the ferromagnetic elements 1 and

00

about

Yu

00

00

s

with

2 from the given position I (I) to another control position II (I) switch off the reed switch 5 (6), and then in the new position II (I) turn on the reed switch 6 (5) with the obligatory direction of the pole N of one element 1 to one the output of the reed switch, and the pole S of another ferromagnetic element to another output of the reed switch.

If one of the elements, for example, 2 is broken in position I, the broken part (due to gravity, it falls together with the magnet to the bottom of the protective housing), the magnetic circuit opens and the reed switch 5 (Fig. 2) turns off.

If the broken part (shown by the dashed line in Fig. 2) for some reason remained in position I in the same place, then when the ferromagnetic element 2 is moved to a new position II, the air gap 6, which depends on the distance, is increased at the break point nor G, and turn off the reed switch 5.

The magnitude of the magnetic constant of the permanent magnets is selected from the sizes depending on the air gap Ј the distance between the first control position I (the number of control positions is not limited) and the stationary ferromagnetic element 8, the mass of the used ferromagnetic elements, and also on the type at 0

changeable reed switches. In this case, the minimum air gap between the magnetically removable terminals of the reed switches and the movable elements 1, 2 is kept within predetermined limits.

Claims (1)

SUMMARY OF THE INVENTION A device for monitoring the integrity of two ferromagnetic parts mounted parallel to each other in a protective housing, characterized in that, in order to increase reliability, it is equipped with two reed switches, two permanent magnets and a ferromagnetic shunt, said permanent magnets are mounted on the free ends of the ferromagnetic the parts are flush with the surface of the ferromagnetic parts, the ferromagnetic shunt is placed between the ferromagnetic parts on the opposite side with respect to the permanent magnet m, these reed switches are installed between the free ends of the ferromagnetic parts and the ferromagnetic shunt at a distance of 5 from each other so that their longitudinal axes are parallel to the longitudinal axis of the ferromagnetic shunt, while the side surfaces of the permanent magnets are covered with diamagnetic material, and the protective case is made of ferromagnetic material. 5 0 0