DE2461116C3 - Device for measuring the eccentricity of record grooves - Google Patents

Description

It is known to occur when pressing records. that the spin obtained; illusion slightly eccentric runs with respect to the plate center hole. As a result, when the record is played, the Tonearm slightly back and forth in a radial direction in addition to its inwardly helical shape Movement, and an audible WOW disorder can and does result from it, when this back and forth movement exceeds a very small extent.

There has therefore been no lack of attempts to achieve such an eccentricity with the help of a special device test so that the workers involved in production can quickly and easily decide whether a Record originating from the production is to be discarded or not.

For example, from US-PS 30 00 005 such a device is known in which the by an eccentric / i did the grooves causing a WOW movement Swing arm the output signal of an oscillator in affected with respect to the frequency. However, the known device has the disadvantage that the guide tip of the swivel arrr.s in the spiral grooves of the to testing rotating record runs and that the eccentricity with the help of a swivel arm carried along Driver arm is determined due to a change in rotational movement and rest position, the not only matched to the function of the swivel arm and the ijenaU scanning and display device, but also through the action of frictional forces must be fixed in a certain way. The known device is therefore due to its corripli * decorated design comparatively, expensive and prone to failure.

The object of the invention is to provide a simple, accurate working and easy to use and robust device for 'measuring the eccentricity of To create record grooves.

This object is achieved by the invention specified in claim 1. In the inventive The device therefore runs through the guide pin of the swivel arm in the circular inner groove and through Horizontal movements of the swivel arm are the amplitude of the output signal of a differential transformer influenced whose primary coil is connected to an oscillator.

The horizontal swing arm movements are so on a differential transformer with a rotatable Kernelemeut, which is connected to the swivel arm, transferred, with the special Advantages of such a transformer e.g. its simplicity, high accuracy, linear dependence of the Output voltage from the angle of rotation of the core element, long service life and robustness as well as compactness are. The horizontal movement of the swivel

M karms influenced the output signal of the differential transformer becomes a display device ζ. Β. a digital indicator for numerical display of the groove eccentricity supplied, whose signal input can be interrupted if necessary in order not to read a to enable flickering and non-fluctuating numerical values.

An exemplary embodiment of the invention is explained in more detail below with reference to drawings. It shows 1 shows a partly pictorial partly schematically reproduced Representation of the device according to the invention and

F ί g. 2 is a circuit diagram of the device. The device shown in Fig. 1 is suitable for Measurement of the eccentricity of a designated 10

υ spiral grooves in a record 11 relative to the Axle pin receiving plate center hole 12. The record is supported by a turntable 13, which is rotated in a suitable manner about an axis 14. the disk axle pin IS in the hole 12 tight

■ to is fitted in. The plate groove is circular Groove 16. which lies radially inward of the spiral groove 10 and, during operation, the playback arm needle is the spiral grooves eccentric with respect to the hole 12 or the axle 14 molded or pressed so

ί> occurs a Slorfactor known as output WOW. when the tonearm swings horizontally back and forth slightly during playback. In the invention, as can be seen, took advantage of the fact that a possibly present [xzcnln / ilat der Spiralril

'· "System is accompanied by the F.xzentri / ity of the circular groove 16, which is / was concentrically at first glance and yet may extend around the hole 12 and the Aihse (4 eccentrically, wherein usually the Fx / entri / iiai comparatively low, trot / dem / u bcanstan

·> That is. when it creates a noticeable WOW.

The device has a swivel arm 17 provided, which has an axis of rotation 18 which is in Distance from and practically parallel to the axis 14. The arm 17 carries a pin 19 or a needle.

w) the tip of which travels in the circular groove 16 when the record 11 rotates about the axis 14 on the turntable. The latter is of course in central alignment with the hole 12. The arm therefore pivots back and forth about the axis 18 to an extent that is due to the "eccentricity of the groove 10 and thus the circular ¹ UiIIe 16 ifi with respect to the hole 12 and the axis 14 is determined. Furthermore, a Difiefenlialtransformalor 23 is with a

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rotatable core element 24 is provided which is responsive to the pivoting of the arm 17 and thereby the AC output signal of the differential transformer affects the amplitude of the Corresponds to the amplitude of the arm swing; switching means are also provided for processing and evaluation of the output signal producing a reading showing the peak amplitude (peak value) of the output signal. This display shows you at a glance if it is done with the aid of a pointer recognize the degree of the groove eccentricity so that the operator operating the apparatus can immediately pick up the record can discard when the eccentricity value exceeds a predetermined value, the transition from a not too beaniandenden to an objectionable WOW.

The differential transformer 23 also has a primary coil 25 to which a relatively high carrier frequency (based on the WOW frequency; applied by the oscillator 26. A voltage induced in the two secondary coils 27 md 2G, which are connected against each other in series, so that the two voltages in the secondary coil have opposite phase, the resulting output voltage of the transformer is the difference between these two voltages. Rotating the Core element generates a linear increase or decrease in the resulting output voltage.

The transformer output voltage is demodulated in the demodulator 30, e.g. B. by rectification and filtering, generating an alternating current voltage with a relatively slowly increasing and decreasing amplitude at 22, which is a direct measure of the degree of pivoting of arm 17.

After DC amplification at 31 to 32, the signal is filtered in the low pass filter 33 for removal any undesired high-frequency components that may be present (e.g. those of over 1 Hz), whereupon high and low signal peaks are detected in the voltage peak detector 34 and subtracted from one another are generated by generating a differential voltage at 35 which is displayed in the display device 36. If the displayed value corresponding to the creasing eccentricity exceeds a predetermined value, then the record is discarded. The display device 36 can be used to provide a suitable numerical Specification consist of a digital display device in a dashboard. A switching system 37 can be provided to interrupt the signal input to the display device at short time intervals (e.g. by pressing a trigger switch in the Display device or by switching on a known threshold and holding voltage) in order to display the Reading of a non-flickering umi not fluctuating Numerical value during the interruption time to enable.

The differential transformer 23, the oscillator 26, the demodulator 30 and the amplifier 31 used are customary in trade. Furthermore, the amplifier 32, the low-pass filter 33, the peak detector 34, the Display device 36 and the current interruption device 37 known and / or from the with The present description is trusted by a person skilled in the art.

jo composable. The circuit diagram shown in Fig.2 is not the subject of the invention. It comprises the specified components 31, 32, 33, 34, 36 and 37. Deviations from this circuit diagram are possible.

For this purpose 2 [JIuIl drawings

Claims (2)

Patent claims: 1. Device for measuring the eccentricity of spirally arranged and in a circular, record grooves ending radially inwardly with respect to the disc center hole, with a horizontally and vertically movably mounted swivel arm, which at its free, front end carries a guide pin which is guided by the groove during the measuring process and which mechanically transmits horizontal movements to the end of the swivel arm facing away from it, and with an oscillator whose output signal is based on changes in direction in the horizontal swing arm movement is influenced and fed to a display device for displaying the groove eccentricity is, characterized in that the pivot arm (17) at its that in the circular groove (16) running guide pin (19) facing away from the end of the rotatable core element (24) a differential transformer (23), the primary coil (25) of which with the oscillator (26) and whose secondary coils (27, 28) are connected to the display device (36). 2. Apparatus according to claim 1, characterized in that the display device has means which hold the displayed value in the display for a specified time.