SU765897A2 - Sealed contact control method - Google Patents

Description

The invention relates to electrical engineering and can be used in the design of switching elements of automation.5

From the main auth. No. 625262 is known for controlling a reed switch, whose internal volume is filled with gas, by acting on the reed switch by an external magnetic field, at times Q of supply and removal of which the gas is ionized inside the cylinder l.

However, this method of controlling a reed switch has drawbacks that restrict its speed and reliability, i.e. on the ionized gas gap, due to its considerable resistance, the voltage drops when the switched current flows, it reaches the nominal value of its value only after reliable contact closure. The change in the value of the switched current when closing and opening the contacts causes transient processes, which are accompanied by arc formation, which is the main cause of erosions of their contiguous surfaces.

The purpose of the invention is to increase speed, reed. 20

This is achieved by the fact that at the time of ionization of the gas inside the reed switch cylinder, the circuit switched by a reed switch includes a source of electromotive force allowing to create a rated current in the switched circuit prior to contact closure. This source compensates for the voltage drop across the ionized gas gap when a switched current flows through the latter and can be connected in series with it.

The drawing shows one of the possible constructive accomplishments of the reed switch with a possible inclusion scheme.

The reed switch consists of a sealed glass cylinder 1, and I have cavities 2, 3 and 4. Cavity 2 is evacuated, and cavities 3 and 4 are filled with neon. In cavity 2 there are ferromagnetic contact electrodes 5 and 6, the corresponding current leads 7 and 8 of which pass, respectively, through cavities 3 and 4. An additional electrode 9 is introduced into cavity 3, and electrodynamic type 10 separated into cavity 4. from the corresponding current leads 7 and 8 gas gaps.

To the current lead 7 is connected via a load 11 a positive output of a DC source 12, and to a current lead 8 - a negative lead. A negative terminal of the controlled current source 13 is connected to the electrode 9, and a positive terminal is connected to the 1 O electrode.

The reed switch is controlled as follows.

During the creation of a magnetic field directed along the axis of the balloon 1, the source 13 excites the EMF, thereby increasing the strength of the electric field in cavities 3 and 4 to a value sufficient for ionization of gas in them, and reduce the resistance of the branch between the current leads 7 and 8, and connect in series with the switched circuit, the source 13. The source 13 is turned on according to the source 12 and sets in the switched circuit a rated load current 11, which determines the equality of the potentials, between the contact electrodes 5 and 6, which reach the absence of rehodnyh processes at the time of closing their contiguous surfaces. After reliable closure of the contacting surfaces of the contact electrodes 5 and 6, the source 13 excites an emf whose value is insufficient to ionize the gas in cavities 3 and 4, and the gas is deionized, thus achieving the source 13 from disconnecting from the switched circuit. Before turning off the magnetic field, the source 13 again excites an emf sufficient to ionize the gas a in cavities 3 and 4, thus reducing its resistance and connecting to the current leads 7 and 8 the source 13, which excites a current equal to the switched current. The direction of these currents in the contact zone of the contact electrodes 5 and 6 are opposite, which achieve equality

the potentials between them and the absence of transients at the moment of their opening when the magnetic field is turned off. After dividing the contacting surfaces of the contact electrodes 5 and 6, the source 13 reduces the emf to zero, and the gas in cavities 3 and 4 deionizes, which increases the resistance between the current leads 7 and 8, disconnects the source 13 from them, and ends the process of commutation.

The use of the invention allows a greater degree of control over the change in current at the moments of switching of electrical circuits than in

5 of the prototype, i.e. perform switching with greater speed and more smoothly, which is especially important in circuits with reactive loads, as it allows you to refuse

0 spark arresting circuits.

In order to reliably control the reed switches, their operating voltage should be less than the sum of the gas ionization voltages in the additional ionization cavities. At the same time, these spaces can be filled with either inert or other types of gases, substances in the gaseous state, for example, mercury vapor or a mixture of the listed components.

Claims (1)

Invention Formula Control method reed on 5 author. St. 625262, characterized in that, in order to increase the switching speed, at the moments of gas ionization, an additional 0 source EMF. Sources of information taken into account in the examination 1. USSR author's certificate 625262, cl. H 01 H 1/66, 1978.