SU484A1 - AC Generation Method - Google Patents

Description

The authors proceed from the following considerations: with ordinary electromagnetic excitation of a tuning fork (and other material oscillating systems) using contacts connected to an oscillating part (for example, a fork of a tuning fork), contacts have a detrimental effect on the operation of the system; contacts are often clogged, oxidized, etc., and the amplitude of change of contacts affects the frequency of oscillation of the system. The present invention is intended to provide a method for exciting a tuning fork (or other material system) without the use of contacts associated with it. The idea of the method is that oscillations of the system cause periodic changes in the near magnetic field. These changes cause stronger periodic changes in the magnetic field, which in turn excite oscillations of the material system. FIG. 1 shows a corresponding diagram, and FIG. Option 2. An electromagnet 15 is placed against one of the branches of the tuning fork 9 (Fig. 1) (eg, telephone). The oscillations of the tuning fork cause in the winding of the electromagnet 15 an induced EMF acting on the grid of the cathode relay (lamp). Variations in the cylinder current cause changes in the magnetization of the electromagnet 10 and excite the tuning fork. The variable capacitor 10 serves to control the phase. 12 - cylinder battery. Transformer I-14 transmits energy to the external circuit. Thus, in the anode circuit of the cathode relay, // in series are included: first, the winding /, 7 of the transformer used to use the received current, and, secondly, the self-induction coil 10 shunted by a variable capacitor, in front of which is placed the second branch tuning fork 9. Another variant is proposed (Fig. 2) of the aforesaid method in which vibrations of the tuning fork / 7 induce