SU1509823A1 - Device for stabilizing oscillator amplitude - Google Patents

Abstract

The invention relates to instrumentation, in particular, to the watch industry, and in particular to devices for stabilizing the amplitude of oscillations of a balance-spiral oscillator. The purpose of the invention is to improve the accuracy of the movement of clockwork mechanisms by stabilizing the amplitude of oscillations of the oscillator. The device for stabilizing the oscillation amplitude of the oscillator comprises an electric motor 10 of winding 20 control circuit, a gearbox 11, a spring motor 12 and a transmission mechanism. A new device is a winding motor control scheme, through which the device obtains information about the actual oscillation amplitude of the oscillator, compares it with a given amplitude and generates a mismatch signal acting on the winding electric motor 10, as a result of which the oscillation oscillation amplitude is maintained at a predetermined level . 2 Il.

Description

SP

about

3150

The invention relates to instrumentation, in particular, to the time industry, namely to devices for stabilizing the amplitude of oscillations of a balance-helix oscillator.

The aim of the invention is to improve the accuracy of the movement of watch movements with a balance-helix oscillator.

Figure 1 shows a functional diagram of the device for stabilizing the amplitude of oscillations of a balance-helix oscillator; on - a combined trigger control circuit with an inductive oscillation amplitude sensor of the oscillator.

A device for stabilizing the amplitude of oscillations of a balance-helix oscillator type contains regulator 1 and a trigger regulator 2 (Fig. 1), consisting of stroke 3 and an oscillator 4 type balance-helix.

Regulator 1 is implemented as follows. At the input of the regulator 1 there is an induction sensor 5 for oscillating the oscillations of the oscillator 4. The output of the sensor 5 is connected to the input of the converter converter 6. The output of the converter converter 6 is connected to one of the inputs of the comparison circuit 7 and to the input of the waiting multivibrator 8 The output of the waiting multivibrator 8 is connected to the second input of the comparison circuit 7. The output of circuit 7c is equal to the input of a pulse amplifier 9, the output of which is connected to a winding electric motor 10, represented by, for example, a stepper motor of an inductor type. The motor 10 is connected to the input of the gearbox 11, made, for example, according to the type of gear reducer. The output of the gearbox 11 is connected to the input of the spring motor 12, the output of which is connected to the input of the trigger regulator 2 via the transmission mechanism 13.

The trigger controller 2 and the sensor 5 of the oscillation amplitude of the oscillator are made according to the scheme shown in Fig.2. The release knob is a combination of the stroke and the oscillator (oscillatory system).

with

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15

20 25

35 40 45.

50

55

In turn, the turn has the following device. On the axis 14 mounted in the supports 15 and 16, fixed anchor (running) wheel 17, which is connected to the anchor fork, 18, mounted on the axis 19, installed in the supports 20 and 21.

The oscillator is arranged as follows. The supports 22 and 23 have an axis 24, on which a balance is fixed, made in the form of two disks 25 and 26 of magnetically soft material, a double roller 27 with a pulsed stone 28, a spiral spring (spiral) 29, the other one whose end is fixed on the base 30 clockwork.

The induction sensor 5 of the oscillation amplitude of the oscillator contains two permanent magnets 31 and 32 fixed respectively on the balance disks 25 and 26 and facing each other by opposite poles, and a cup 33 made of copper insulated wire placed in the gap of the permanent magnets, moreover, the geometrical axis of the coil is located parallel to the axis 24 of the oscillator and passes through the paths of motion of the geometrical. centers of permanent magnets 31 and 32.

To balance the permanent magnets 31 and 32, balance weights are mounted on balance disks 25 and 26.

34 and 35..

I.

The device works as follows.

With oscillations of the oscillator, the magnetic field of the permanent magnets 31 and 32 intersects the turns of the coil 33, inducing an induced emf in them. Suppose that when the magnetic field intersects the permanent magnets of the left side of the coil 33, an inductive EMF of positive polarity is induced in it. As the balance moves further in the same direction, the magnetic field of the permanent magnets will cross the right side of the coil 33, as a result of which an inductive EMF of negative polarity will be induced in it. Thus, the output signal of the sensor 5 will be different, and in shape it will be close to a sinusoid. This signal contains information about the amplitude of oscillations of the

Cycl torus, i.e. the amplitude of the output signal of the sensor is directly proportional to the .-. amplitude of oscillations of the oscillator.

In the amplifier-converter 6, the polar signals are amplified and converted into single-pole square-wave pulses, which are then divided by the tracking frequency, and increased in duration.

With the transducer amplifier 6, single rectangular pulses, the amplitude of which is proportional to the oscillation amplitude of oscillator 4, are fed to one of the two inputs of the comparison circuit 7. At the same time, the same pulses from the amplifier-converter 6 are fed to the input of the standby-multivibrator 8, which at the moment of arrival of the pulses generates rectangular pulses coinciding in phase, frequency and duration with the pulses of the amplifier-converter 6. At the same time, the magnitude of the amplitude impulses generated by zhussdim multivibrator 8, designed in such a way that it is equal to the amplitude of the pulses at the output of the amplifier-converter

6dl case when the oscillation amplitude of the oscillator 4 corresponds to the desired (specified) amplitude.

From the output of the waiting multivibrator 8, the signals arrive at the input of the circuit

7, which is performed on the operational amplifier. In scheme 7

I comparison is the comparison of the signals of the waiting multivibrator 8, which correspond to a given amplitude of oscillations of the oscillator. 4, and the signals of the amplifier-converter 6, which correspond to the actual amplitude of oscillations of the oscillator.

During the operation of a clock mechanism, the oscillation amplitude of the oscillator, as a rule, is reduced compared with the amplitude corresponding to the initial value. The reasons for the decrease in amplitude are as follows: decrease in the torque of the spring engine in the process of spring unwinding, loss of the elastic properties of the winding spring, deterioration of the lubricant state in the friction units, etc.

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The comparison circuit 7 generates a mismatch signal (rectangular pulses), characterizing deviations 5

the actual amplitude of oscillation of the oscillator 4 from the specified amplitude. The error signal is amplified by a pulse amplifier 9 and is fed to a winding motor 10, which is driven by a spring motor 12 through a gearbox 11. Rotational torque

0 spring engine increases. Through the transmission mechanism 13 rotate-. The torque of the spring motor 12 goes to the trigger regulator 2 and the oscillation amplitude of the oscillator 4 melts. The winding of the spring motor 12 will occur until the oscillation amplitude of the oscillator 4 reaches a predetermined value (in this case, the matching signal becomes zero).

In the following, the process of maintaining the oscillation amplitude of the oscillator 4 at a predetermined level 5 (stabilization process) will be repeated as often as the oscillation amplitude of the oscillator 4 decreases in relation to the predetermined amplitude. The review process is the main stabilization mode.

It is very rare, but there are cases when the oscillation amplitude of an oscillator at some interval of time will increase with respect to the initial moment. In this case, the comparison circuit generates a reverse polarity mismatch signal that does not pass through the input stage of the pulse amplifier 9, therefore, the spring motor does not wind up.

Thus, automatic monitoring and processing of the oscillation oscillation amplitude information is performed and the winding motor is turned on at the right time, which allows maintaining the oscillation oscillation amplitude within the specified limits and, consequently, improving the accuracy of the movement of the clock mechanisms with a balance-type oscillator. spiral.

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Claims (1)

Invention Formula A device for stabilizing the oscillation amplitude of an oscillator, containing a winding motor connected in series with a control circuit, a gearbox, a spring motor and a transmission mechanism, characterized in that, in order to improve the accuracy, the control circuit is made in the form of an oscillation oscillation amplitude sensor, transducer amplifier , Scheme & I Comparison, Extending Multivibrator 5 "25 L 1b w 19 guv and a pulse amplifier, while the output of the oscillation amplitude sensor of the oscillator is connected to the input of the converter converter, the output of which is connected to the first input of the circuit. comparison and through a standby multivibrator - with the second input of the comparison circuit, the output of which is connected to the input of a pulse amplifier. ; ha l.2 Figg