DE904599C - Recording of push-pull sound recordings - Google Patents

Description

Recording of Push-Pull Sound Recordings The invention relates to to the recording of push-pull sound recordings and in particular to the recording of push-pull sound tracks in single or multiple double-pointed script. The invention but can also be used with push-pull intensity writing when recording a dynamic compensation for the loss that occurs when covering small amplitudes, is provided.

Push-pull recordings are those records in which two audio tracks are recorded phase shifted by 180 °. Such push-pull recordings are known.

There are two types of jagged push-pull recording distinguish between the recording: once the so-called A push-pull type (based on to the A @ counter-clock amplifier) and the so-called B push-pull script (based on to the B push-pull amplifier). In the case of the A font, the light spot is in the rest position over the gap.

The film therefore has a resting exposure. Located at the B font the light spot is in the rest position on the lower or the upper edge of the recording gap.

The B script has no background noise, but has the major disadvantage that the small amplitudes are recorded distorted because the amplitudes only from the point where the tip of the recording light reaches the upper edge of the gap Has, so lies over the entire gap, become linear. It therefore occur during playback strong distortion at small amplitudes.

The A font is therefore preferably used for recording. These However, recording has basic noise, especially with small amplitudes is disturbing.

It was therefore suggested that the parts of the soundtrack not be used for the recording can be used to blacken the positive at small amplitudes, so that the average transparency over the entire soundtrack at 'small amplitudes gets smaller. This blackening is achieved by the light spot that makes the recording through an additional aperture, the so-called noiseless aperture covers, which is moved in the rhythm of the envelope of the sound vibrations. Through this the corresponding areas are made transparent in the negative and blackened in the positive.

The known noiseless diaphragms have such a position in relation to the recording diaphragm or to the recording light beam, -that they almost coincide with this and only let light fall on a small part of the film, which afterwards becomes transparent in the positive is.

The movement of such a noiseless = aperture when recording a Double-serrated writing is such that with small amplitudes the aperture goes far into the gap protrudes and recedes accordingly at large amplitudes. The noiseless} aperture thus moves in the direction of movement of the recording diaphragm.

In a, push-pull recording, however, the two move, for example triangular recording beams push-pull across the gap, d. H. is moving one triangle of light awf closes the gap, the other draws back accordingly: In the case of small amplitudes, the noiseless 4 apertures must therefore approach one another, move away from each other at large. So their movement takes place in the opposite direction Direction and is in antiphase.

This counter-rotating movement of the noiseless diaphragms can only be passed through cause complicated mechanical devices and therefore has great disadvantages.

The invention now relates to an improvement and a simplification this aperture. According to the invention, the two noiseless apertures are based on the same Side of the receiving gap arranged so that they are in one direction and in the same Phase can be moved across the gap. This enables you to control the drive mechanism very easy to design for these bezels. Another inventive idea exists therein, the panels from a single piece, for example a piece of sheet metal; to make. However, the effect obtained is the same as above. With small amplitudes protrude the noiseless diaphragms far into the gap; they give way for large amplitudes return. An embodiment of the invention is based on the drawings, in which the same reference numerals are chosen for the same parts will be explained.

FIG. I shows the arrangement of the noiseless diaphragms that has been customary up to now; Figures 2 and 3 show noiseless bezels in accordance with the present invention; Fig. Q. and 5 show the positive sound recordings made with these diaphragms.

In Fig. I, i denotes the receiving gap over which move the light triangles 2 and 3 in a push-pull manner. The arrows denote respectively the directions of oscillation of the recording diaphragms or the corresponding direction of movement the noiseless aperture. 5 and 6 denote the noiseless apertures, which are in the previously known version in the opposite direction and in opposite phase have to move.

2 shows the diaphragm design according to the present invention. With i the receiving gap is designated, over which the light triangles 2 and 3 move. With q. is called the noiseless aperture, which is in the rhythm of the enveloping of the recorded sound vibrations. These screens move according to the invention in phase and in one direction across the gap. Have at small amplitudes the noiseless; diaphragms roughly the position shown, so that a large part of the The sound track is blackened in the positive. With larger amplitudes, the diaphragms give way accordingly return.

Fig.3 differs from Fig. 2 in this; that the apertures 3 and 2 are drawn as opaque diaphragms that affect the recording gap modulate falling light according to the sound vibrations. The noiseless aperture also moves in phase and in one direction across the receiving gap. In the case of small amplitudes, the outer edges and the center of the two sound tracks become blackened accordingly. With large amplitudes, the noiseless diaphragm 2 recedes, so that the blackening in the positive is a minimum.

From these explanations it can be seen that with the 'diaphragms, such as they are shown in Figs. 2 and 3 respectively, @Block-pulltoon recordings, as shown as positive in Figs. q, and 5 are shown, can be achieved at small amplitudes have a strong blackening and where the medium transparency for small Amplitudes is small.

Claims (2)

PATENT CLAIMS: i. Arrangement for background noise-free recording of Sound recordings in push-pull type, characterized by two noiseless apertures, which are moved in phase and in the same direction across the receiving gap. 2. Arrangement according to claim i, characterized in that the two diaphragms from consist of a single piece: