SU410360A1 - - Google Patents

Description

one

A known method for removing the non-isochronous characteristic of the balance regulator of clockwork mechanisms is to measure the diurnal variation of different balance oscillation amplitudes with a graphical representation of the measurement results on a mobile data carrier.

When the non-isochronous characteristic is removed in this way, a separate recording of the amplitude of the n daily variation as a function of time is performed. In order to plot the non-isochronous characteristic, these records must be averaged over time in one way or another. This reduces the accuracy of measurements, does not allow to automate the process, makes it time consuming and inconvenient for quick analysis of results.

The proposed method makes it possible to increase the accuracy and automate the measurement process due to the fact that during each measurement of the daily course the amplitude of balance oscillations is kept constant for a period of time sufficient to measure the daily course with the required accuracy and the amplitude is changed according to a discrete program with simultaneous movement information on the amount proportional to this change.

The drawing shows a block diagram of the device that implements the proposed method.

In the contact microphone 1 stack investigated the clock mechanism. The electric motor 2 through the gear wheel 3, which engages with the crown of the winding drum 4,

creates in the clockwork a twisting moment, supporting continuous fluctuations of the balance oscillator. A voltage source 5 is used to power the motor. The microphone is connected to the function blocks 6 and 7. An output of block 6, designed to measure the amplitude of balance oscillations, includes a comparison circuit 8. The second input of circuit 8 is connected to the output of sensor voltage 9 s discretely a variable output level, and the second output of sensor 9 is with engine 10, which advances the paper tape of recorder 11. The output of comparison circuit 8 is connected with engine 2.

A functional unit 7 for measuring the diurnal stroke is connected to the recorder 11 via a pen 12.

The tested clock with an unstuffed motor is installed into microphone 1, the crown of the winding drum is engaged with the wheel 3. Emergence of anchor descent during operation of the electric impulses is transferred from the microphone to the functional blocks 6 and 7. From block 6, the results of measurements in the form of voltage proportional to the amplitude co3

The balance is transferred to the sravpepi 8 circuit. The second input of this circuit gets the reference voltage from sensor 9. The sravpepi 8 circuit selects the difference between the two paprnds, which corresponds to the difference between the actual amplitude of the balance oscillations and that which is in the program sensor 9. The voltage from the output of the comparison circuit 8 creates on the engine 2 an extra steep w, ny moment, which causes the difference in amplitudes to be bullet, thus maintaining the amplitude constant for 10 seconds, sufficient for Measurements daily course with the required accuracy on the function block 7, whose voltage iapr neremeschaet pen recorder 12 11.

After the specified time has elapsed, a command is issued to change the reference voltage of the sensor 10 supplied to the circuit of step 9, and to turn on the engine 11, which resembles the paper mite, but the voltage will change.

Thus, on the ribbon, a stepped line is obtained, expressing the dependence of the daily course on the amplitude of the vibration of the balapse.

The proposed method can also be applied in electronic-mechanical balance hours. In this case, balance fluctuations are kept constant by means of a feedback system, similar to that described, with the engine serving as a balance. For discrete amplitude change

They use a nanometer sensor with a discretely guided loop, with an output level.

Due to the fact that with the YesEpium method, the diurnal rate as a function of amnlitude fluctuations in the balance is immediately obtained, the accuracy of determining the peisohrony is improved by comparison with the limestone method when the third (intermediate) parameter is present, which then has to be eliminated. The possibility of spontaneous spine and isochronous characteristics can also automate the process of removing the non-isochropic characteristics.

Subject invention

The way to remove the characteristics of a ballistic regulator of watch mechanisms by measuring the daily variation at different amplitudes of the balance oscillation with a graphic image of the measurement results on the mobile device, characterized in that, in order to improve the accuracy and automate the measurement process, for each measurement of the daily variation of amplitude the oscillation balance of the balance is sustained by pushing for a period of time sufficient to measure the diurnal stroke value with the required accuracy, and the measurement the amplitudes are produced by a discrete program with simultaneous advancement of the information carrier by an amount proportional to the change in voltage.