SU762047A1 - Magnetically controlled contact - Google Patents

Description

The invention relates to electrical switching devices and circuits can be used in the relay designs, switches, switches and other switching devices with manual or mechanical control used in various control systems regulated ^{I February 5} tion, control, computing devices of various branches of engineering.

Magnetically controlled contacts are known, ferromagnetic contact parts of which, sealed in a sealed cylinder, are jammed under the influence of a magnetic field of a certain size created by a winding or a permanent magnet [1].

The disadvantage of such magnetically controlled contacts is the dependence of the release parameters on the load current. 'five

The closest invention to the proposed is a magnetically controlled contact containing two ferromagnetic contact parts, soldered to opposite ends of a sealed container and _m made in the form of spirals with contacting sections at the ends [2].

However, in the specified device also

there is a dependency of the release parameters

2

from the load current, which reduces the reliability of operation of the magnetic contact.

The purpose of the invention is to improve the reliability of operation.

The goal is achieved by the fact that the contacting areas are perpendicular to the longitudinal axis of the magnetically controlled contact in the central part of the sealed container.

FIG. 1 and 2 show the direction of the magnetic induction vectors relative to the selected coordinate system; in fig. 3 - the proposed magnetic contact; in fig. 4 - section A — A in FIG. 3

The magnetically controlled contact (Fig. 3) consists of a sealed cylinder 1 with movable ferromagnetic helical contact parts 2 sealed into its opposite sides, the contacting portions 3 of which are located in the center of the spiral across the longitudinal axis of the magnetically controlled contact, and between them a working gap 4 is set.

It is known that when a load current flows, a transverse magnetic field is created

762047

3

load current, demagnetizing in the longitudinal direction of the contact details.

The load current flowing through the contact parts creates an annular magnetic field around them and magnetizes the contact parts in the transverse direction. At the same time, the control magnetic flux, through the contact details, pro- gram magnetizes them in the longitudinal direction. Thus, the material of contact parts that are in a closed state in the presence of a load current is simultaneously under the influence of two orthogonal magnetic fields (Figs. 1 and 2) - the longitudinal control field Bp. _Σ material contact pieces characterized by a new value of relative magnetic permeability and the magnetic induction Β _Σ (Figure 2), wherein the magnetic induction vector B ^ .rezultiruyuschego magnetic field corresponds to the Saturation and ₂₀ which is non- angle φ with the longitudinal axis Ζ contact pieces and substantially greater than the longitudinal _ induction vector B _s ._ Reduced longitudinal induction value B _r to the value 2 ^ reduces the tractive force developed in the working gap, and as a consequence of the 25, to an increase in the magnetic flux release.

In the proposed magnetic contact when the load current flows along the ferromagnetic contact parts of them

helical portions provide an additional magnetic field transverse contacting portions 3. Additional magnetic field .kompensiruet transverse field _{to the} switching current b (FIG. I and 2). As a result, the value of the longitudinal induction in contact parts does not depend on the load current and the magnetic flux of releasing the contact has a constant value, which makes it possible to increase the reliability of operation of the magnetic contact.

Claims (1)

Claim Magnetically controlled contact containing two ferromagnetic contact parts soldered to opposite ends of a sealed container and made in the form of spirals ς by contacting sections at the ends, characterized in that, in order to increase reliability, the contacting areas are perpendicular to the longitudinal axis of the magnetic contact in the central part of the sealed container .