SU1327200A1 - Magnet=controlled contact - Google Patents

Abstract

The invention can be used in protection relays, in automation and control devices. The aim of the invention is to increase the switching capacity by providing arc suppression and return coefficient. The magnetically controlled contact (G) contains two contact cores 1 and 2 installed in a balloon 3. On their working surfaces in the zone of overlap permanent magnets 4 and 5 are installed. To increase the switching capacity of the MC by increasing the transverse magnetic field Permanent magnets are magnetized in one direction parallel to the longitudinal axis G. The saturation of the contact core sections during the operation provides a high return coefficient. 1 Il. o (l

Description

The invention relates to electrical engineering and can be used in. protection relays, automation and control.

The purpose of the invention is to increase the switching capacity by providing arc suppression and return coefficient.

The drawing shows a magnetically controlled contact (L), a longitudinal section. The lagged W is larger than in W without PF contains two contact cores (CS) 1 and 2 of ferromagnetic material, mounted in cylinder 3, and permanent magnets 4 and 5. The permanent magnets are located on the working surfaces of the CS and are magnetized in one direction parallel to the longitudinal axis J. Moreover, magnetic fluxes from the control field F and from the constant

F magnet in COP is folded. The control field F can be created by winding with a current or a permanent magnet (not shown).

W works as follows.

; When the control winding MDS is increased to the value of the VF actuation, the F electromagnetic force exceeds the counteracting force and the CS closes. When reducing SchS to MDS, lowering FF opens.

 When triggered in the process of approaching the CS, the repulsive force of the permanent magnets increases. In addition, the CSs at the places of installation of the permanent magnets are saturated with their approach, due to the appropriate choice of the operating point on the magnetization curve due to an increase in the magnetic flux of control.

Thus, in the proposed J with closed CS, the opposing force Pj, p is greater, and the electromagnetically force P is smaller compared to the MC. Without permanent magnets. Therefore, the return coefficient W

KB Ro / RS "RPG /

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VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, Projecto st., 4

above When the MC is opened, an electric arc arises between the CS. Under the action of the transverse magnetic field of the permanent magnets, the arc moves to the edge of the CS, expands and quickly goes out.

Since the total opposing force with small gaps in the pre

when removing the control signal of its QC, it disperses with greater speed, which also contributes to the higher switching capacity of G. This causes a greater reliability of the G function, since the likelihood of CC flashing decreases.

In the proposed Ж, permanent magnets can be magnetized after it has been manufactured, which simplifies the production technology J.

An increase in the switching capacity, as well as in the return coefficient G, also occurs if the magnetic fluxes of the control Φ and of the permanent magnets Φ in the CS are directed oppositely. However, the return coefficient W in this case increases to a lesser extent, since the sections of the CS are not at ayc.

Claims (1)

Invention Formula A magnetically controlled contact containing a cylinder, two contact cores mounted at opposite ends of the cylinder, and two permanent magnets mounted on working surfaces of contact hearts NIKS in the zone of their overlap, characterized in that, in order to increase the coupling capacity by providing an arc suppression and return coefficient, said permanent magnets are magnetized in one direction parallel to the longitudinal axis of the magnetic contact.