DE877344C - Process for the operation of electromagnetic disturbance devices in closed pressure vessels - Google Patents

Description

In the; U.S. Patent 820,174 is a method of operating electromagnetic Stirring devices in closed pressure vessels described, in which the windings of .Salenoids or magnets through a branch circuit of the alternating current. network are operated with current rectified by means of a dry rectifier, the other bypass circuit actuating a mercury switchgear. The area with regard to switched currents and. with regard to switching frequency is included limited by the application and service life of mercury switches. The reason for this is the constant, frequent switching off of the current in the high self-induced voltage generated by numerous turns of the solenoid or magnet winding as well as the strong self-induction current and the associated strong spark formation in the mercury switching element.

This method is now: improved according to the invention in that the connection and disconnection of the current while avoiding a mercury switching organ directly through one. mechanically. actuated spring contact causes and the elimination the self-induction voltage to a known per se for solenoid or magnet winding protective resistor connected in parallel with non-linear resistance characteristics leaves.

In carrying out the modified method of the previous mercury switch is .and 8 omitted iv with actuating coil according to the invention for one, used hereinafter described and shown in the schematic illustration protective resistor 1 8 having non-linear resistance characteristic. After switching on the spring contact ii then flows through the windings of the solenoid 5 or a magnet winding an electric current of predetermined strength, through the protective resistor connected in parallel, i8 with a non-linear resistance characteristic but a current flows whose strength is less than that at the first moment is in the consumer circuit, but then as a result of the rapidly increasing ohmic resistance, depending on the .non-linear resistance characteristic in the protective resistor 18, immediately drops to a fraction of the consumer current intensity. In the switched-on state, the current consumption in protective resistor i8 therefore remains a minimum compared to the current consumption in solenoid 5 or in a magnet winding. - When switching off, the one that has become de-energized falls. Protective resistance 1 8 , due to its non-linear resistance character, the ohmic resistance instantly drops to a minimum value. The strong self-induction current flowing back from the windings of the solenoid 5 or a magnet winding then makes its way through an additional O'hm resistance; represented by the treasure resistance 18, which is so low that the self-induction voltage can be limited to only twice the value of the operating voltage or lower without further ado non-linear resistance characteristics, which can consist not only of one part, but also of several individual parts connected in parallel or @ one behind the other and, either from known elements, such as rectifiers, tube rectifiers, dry rectifiers, glow discharge vessels, semiconductor materials, etc., or from specifically for The present method created devices with non-linear negative resistance characteristics are formed and can be used for direct and (or) alternating current. Elements of various types, e.g. B. linear resistors and semiconductor materials, can be combined to form such a resistor.

Claims (2)

PATENT CLAIMS: i. Method for operating electromagnetic stirring devices in .closed pressure vessels according to patent 82o 17q:, characterized in that the windings of solenoids (5) or magnets, which are operated from the alternating current network via a secondary circuit with rectified alternating current, have a protective resistor known per se ( i8) is connected in parallel with a non-linear resistance characteristic to eliminate the self-induction voltage, with the electrical current being switched on and off via another alternating current operated auxiliary circuit by a mechanically moved spring contact (ii), the contacting of which is controlled by a controllable circuit in this auxiliary circuit @ Motor (i2) via gear (r5), adjustable cams. (i6 "16a) and roller (i7) is effected in such a way that .der agitator (i) works independently of the mains frequency with a variable number of strokes and variable lifting speed. 2. Device for carrying out this method according to claim i, characterized in that a connected in parallel to the windings of solenoids (5) or magnets known protective resistance (i8) with non-linear resistance characteristics several parallel or series-connected individual elements of the same or of various types, suitable for direct and alternating current; consists.