SU104103A1 - Primary electric clock - Google Patents

Description

The subject of the invention is an electric primary clock, made in the form of a magnetic generator of electrical oscillations with a synchronization winding fed by current pulses from a pilot (balance) contacts, the electromagnet of which is connected through a rectifier to series-connected alternator current windings.

Parallel to the electromagnet, the load is included in the same circuit in the form of secondary clock mechanisms or synchronous electric motors, vras, through the clocks of the clock hands.

The magnetic generator is connected to the AC network through a ferroresonant voltage regulator, the secondary winding of which is connected to the rectifier and is used to power the sub-magnet windings of the generator. Tuning the loop to the desired frequency is done by measuring the capacitance or the number of turns in the oscillating circuit.

The described device differs from the known devices in that, in order to maintain the frequency of the electric current, feeding the synchronous motors of the clock, a magnetic generator of electrical oscillations is used.

The utility of the proposal lies in the possibility of the use of synchronous clockwork mechanisms.

The drawing is a schematic diagram of the described device.

The device consists of a ferroresonant stabilizer Tp, which is necessary to maintain a stable voltage value when the voltage of the magnetic generator network varies, on the core of which the windings W-- of alternating current are placed.

In addition, there are a bias winding W, a synchronization winding Wy and a winding circuit WK. The alternating current is fed from the winding II Tr through the windings W of the magnetic generator and through the demodulator V. to the rectifier B.,.

The demodulator B is assembled on germanium diodes of the TGC of the TGC according to the bridge scheme and is necessary for extracting the frequency F, which feeds the load Z.

As this load, a secondary clock mechanism or a synchronous motor can be used, which rotates the hands of a clock through a gearbox. The load is shunted with capacitance C, the purpose of which is to give parallel puls of a frequency of 50 Hz (mains) and select the frequency F.

The Ilir / voltage is fed to the rectifier B, which is also assembled according to the scheme of the bridge on DGC germanium diodes.

The rectified voltage from B is sent through the smoothing element C.J-Other to the bias winding Wg, since only if there is a constant magnetising the core of the magnetic generator it is possible to create a stream of even harmonics in the middle rod of the magnetic generator, and consequently, oscillations F in the circuit.

The choke dr is needed to attenuate the current of even harmonics in the winding Wo and improves the smoothing of the voltage pulsations received from rectifier B.

WK winding is a loop winding and, together with R-, determines the frequency F, which can be different and is determined by these windings Wr, and C ..

On the rim of the tambourine (balance), an attachment J made of steel armco or similar is installed; A nozzle 2 of insulating material is mounted on the opposite side.

Electromagnet P is located with a certain displacement relative to the neutral position of the model (balance). The contact / Ci is exactly neutral.

During the operation of the magnetic generator, the rectifier B. passes through only one half-cycle of the current frequency F, which is fed to the electromagnet P, which attracts the balance nozzle and swings the next.

The oscillating waveform (balance) starts to close the contact and sends current pulses through the winding W, which synchronizes

the operation of the magnetic generator with the frequency of the tandem (balance), and the frequency F will entirely depend on the tiger (balance). Resistance R is used to set the amplitude of balance oscillations.

The message to the balance of the pulse, as well as synchronization, occurs every half-period of oscillation of the frequency F.

Adjusting the loop to the desired frequency is made by changing the capacitance Cg or the number of turns of the winding.

The dimensions of the clock depend on the power of the plant and are determined by the load, the latter may consist of several clock synchronous motors or secondary clocks.

Subject invention

Primary electric clocks powered by an alternating current network through a ferroresonant voltage regulator, having a counterpart (balance) with an electromagnet controlling its oscillations, the contact and output circuit of the load — in the form of synchronous motors or secondary clocks, that open during these oscillations. In order to maintain the frequency constancy of the electric current supplying the indicated electric motors, a magnetic oscillator with synchronization winding is applied, feeding and pulses rectified current through the contact pendulum, which electromagnet is connected via rectifiers to the alternating current magnetic generator winding having a winding bias, fed by a rectifier current from the secondary winding of the stabilizer.