DE817870C - Device for checking the accuracy of watches - Google Patents

Description

Device for checking the accuracy of clocks With a few exceptions, all types of wrist and pocket watches in use today have a period of oscillation of the restlessness of Sec., So that there is a tick sequence of 5 ticks per second. In order to check the accuracy of such a clock without long-term monitoring, various devices have been developed that either work on a stroboscopic basis or enable the clock to be observed with the help of a cathode ray oscilloscope.

The invention relates to a test device in which the ticking the test clock recorded by means of a microphone and displayed on the screen of the oscilloscope tube is made visible. With the devices of this type that have been customary up to now, a time diversion is used of the oscilloscope uses a quartz-controlled oscillator with frequency divider to generate a comparison frequency. By installing this standard oscillator, which must be temperature-independent, voltage-independent and operationally reliable, increases in price the device is very strong.

In order to overcome this problem, according to the invention of a normal clock via a microphone and a pulse amplifier of the cathode ray controlled, while from the watch to be tested also via microphone and pulse amplifier influences the time deflection perpendicular to the time axis will. As a normal watch, it can be the normal or existing watchmaker's watch Comparison clock can be used, and the device is largely independent of Fluctuations in operating voltages, - temperature influences and other factors affecting the accuracy the parameters influencing the measurement. As the microphone and pulse amplifier for normal clock and test clock of the same type can be designed, the device also cheap to manufacture. A mistake in the accuracy of the test The clock from 5 to 10 seconds per 24 hours can be set in a short time, and it is also immediately recognizable whether the clock to be tested is ahead or ahead of the normal clock pursues.

In contrast to the stroboscopic method, which is one of the mains frequency When using a driven stroboscopic disc, this method has greater accuracy to achieve, since the mains frequency is often not sufficient for a clock regulation Has constant frequency. In addition, the distortion-free reproduction of the Tick pulse on the oscilloscope tube given a possibility of the sound image to be observed while the tick in the stroboscopic display turns into a flash of light is transformed, of no further. Allows conclusions to be drawn about the course of the clock.

By using a normal clock with the corresponding tick sequence clocks that have a tick sequence other than 5 ticks / sec. have with this Check device.

However, this possibility also exists with a stroboscopic one Method that uses a non-synchronously driven stroboscopic disc to which A flash of light each is thrown from a normal watch and the watch to be tested. Of the Another advantage of the method described here is the possibility of sound analysis in that there is always a synchronized time axis on which the. pulse the test clock migrates, while the stroboscopic method produces two images, of which in the rarest cases one stops and their mutual Displacement is the measure of the inaccuracy of the test gauge.

In order to achieve proper control of the time base, It is advisable not only to increase the tick impulse, but to transform it into one To transform a square pulse and by differentiating this pulse a new one To form a pulse, the duration of which corresponds to the edge of the square pulse. Against it the ticking of the clock to be regulated can only be used increasingly for distraction, so that from the form of the impulse conclusions can be drawn about the rate and operation of the clock can be drawn.

The device not only allows the clock to be regulated in the shortest possible time, but also an immediate check in all positions, at different temperatures, with different spring tensions of the mainspring etc.

An exemplary embodiment of the subject matter of the invention is shown in FIGS 2 shown.

The basic circuit diagram of FIG. I shows a cathode ray tube i with the two baffle systems 2 and 3. A normal clock 4 is nearby a microphone 5 arranged so that the ticking of this clock in a pulse amplifier 6 can be reinforced. The impulses control the time deflection after corresponding transformation the cathode ray tube. The watch 7 to be tested is placed in the vicinity of the microphone 8 brought, and the impulses amplified in the amplifier. become the baffle system 3 supplied. A time axis is written on the screen of the Braun tube, above which the ticking pulse of the clock 7 rises. If both clocks go exactly the same, like this the impulse stops. However, if the clocks are unequal, the impulse wanders slowly to the right or left on the time axis, depending on whether the clock is 7 or follow up. From the time that the impulse for a complete traversal of the Time axis is required, the inaccuracy of the clock can be calculated.

The structure of the pulse amplifier is shown in detail in FIG. An amplifier tube is connected to the contact microphone 5 via an input transformer io controlled. This is switched to A operation with transformer coupling. Secondary side is demodulated by dry rectifier ii in Graetz circuit and the negative Impulse tapped. This is in the next stage 12 by override in transforms a square pulse with a sharply rising edge. This one will in front of the grid of the third tube 13 via a capacitor 14 and a resistor 15 differentiated so that on the grid of this tube, which is strongly negatively biased is, a sharp positive impulse arrives, which opens the tube and the between the anode and the zero potential connected capacitor i6 discharges.

In the pause between the pulses, the capacitor overcharges the anode resistance, which with the capacitor has a time constant of about i / b Sec. This creates a sawtooth voltage of at the anode of the tube 13 5 Hz, which is conducted to the horizontal baffles of the Braun tube i. It is advisable to use a clock with a perfect ticking noise as a normal clock, an unintentional triggering of the tube 13 during the charging time of the capacitor to prevent.

The pulse amplifier for the test gauge has the same circuit as stages i and 2 of the timing amplifier. The impulse can optionally be differentiated or not differentiated are fed to the baffles, since differentiated Impulse emigration is easier to determine, while using the not transformed impulse the sound can be observed better.

In order to achieve greater accuracy, it is possible to use an ioshop The clock can be used as a normal clock or a frequency multiplication of the 5 Hz pulse on a higher frequency. Because the timeline is divided by this measure it is useful to shorten the pulse of the watch to be tested in order to make the observation to facilitate. This is done appropriately by differentiating the impulse and Screening out the steep pulse edge.

Claims (5)

PATENT CLAIMS: i. Device for checking the accuracy of clocks with the help of an oscilloscope, characterized in that the time deflection of the cathode ray from a normal clock via microphone and pulse amplifier and from the clock to be tested also via a lblikropl, cii; - and pulse amplifier a deflection of the perpendicular to the time axis Beam is controlled. 2nd device according to claim i, characterized in that the one derived from the ticking of the normal clock Impulse converted into a rectangular impulse and after differentiation for control of the time deflection device is used. 3. Apparatus according to claim i or 2, characterized in that that the pulse derived from the tick of the clock to be tested optionally without conversion is fed to the deflection circuit in a differentiating switching element. 4. Device according to claims 1 to 3, characterized in that a clock with a clock is used as a normal clock is used and the tick pulse of the test gauge is differentiated. 5. Device after Claims i to 4, characterized in that the ticking pulse of the normal clock only occurs is multiplied in frequency and then fed to the time deflection device.