DE371528C - Method and device for producing sound wave photograms - Google Patents

Description

It is known to produce photograms of sound waves in such a way that a. in its size and shape constant wedge-shaped light beam in front of an or several slots of a diaphragm swings back and forth in such a way that the through the wedge-shaped Light beam given a shape, image of the vibrations on a photographic Plate results.

ίο According to the invention] are now used to manufacture from sound wave photograms not light bundles of constant dimensions used, but rather those that change their design and configuration according to the sound waves.

, 15 elongation change, making symmetrical on the film Images of the sound waves are generated. The change in the light beam can for example, by placing one or more flat backs on the membrane

Äo consolidated mirror take place, with the membrane is influenced in some way by the sound waves. Instead of a membrane with The mirrors attached to it can also change the light beam with the help of a controlled by the sound waves and thereby changing its opening shape, brought about from bendable parts, existing structures and cathode tubes in that the sound waves act as electrical oscillations on the cathode rays.

With reference to the drawing, the production method of the sound wave photograms is intended below as well as some example facilities for this purpose are explained.

In Fig. Ι it is an aperture in which there is a slot b . A light bundle c with a small diameter shines on the center of this diaphragm; accordingly, on the film d located behind the slit, a thin one becomes

Strip e photographed. By magnification \ tion of the beam is c, as in Fig. 2, the strips e also increased. In this way, symmetrical images of the sound waves are generated on the film as shown in Fig. 3. Instead of a radial bundle of light, a differently shaped bundle of light that changes in the axial direction to the slot b - such as e.g. B. shown in Fig. 4 - find use. Here the light beam c is shown, for example, as a square.

In Figs. 5 and 6 it should be shown in which way these changes in the light beam, which are dependent on the sound waves, can be generated. In these two figures, α means the aperture, b the slit, c the bundle of light cast on the film d by one or more i mirrors f. The mirror ^!

or the mirrors / are with their flat back! side attached to the membrane g and so flexible that they can make the light beam convergent, parallel or divergent, depending on the deflection of the membrane · g, which is influenced in any way by the sound waves. The lamp h is used to illuminate the mirror. The mirror f, which can also be composed of several parts, can be circular, four-

3c angular, planar, lenticular or in any other shape, but always with the task of changing the cross-section or the extent of the light beam in front of the slit b etc., depending on the movement of the membrane, in order to thereby produce the desired photograms in the manner indicated above.

Instead of the mirror or mirrors attached to the membrane, devices according to FIGS. 7 and 8 can be used in which the sound waves act on the design of an opening. In Fig. 7, m and η denote two deflectable parts which are attached to 0 and p and of which 0 is fixed, while p is connected to the membrane g . Only one of these parts 0 or / »can also be used. Here, however, the recording is not so clear. When the diaphragm g is bent to the left (Fig. 7), a larger gap g is formed; when the diaphragm is bent to the right (Fig. 8), a small gap g or no gap at all, depending on the setting. If a sufficiently strong light source directed onto the gap g is used , symmetrical sound wave photograms are likewise generated on the film arranged behind it. Furthermore, sound waves can act on cathode rays and also reproduce photograms of the type described above. In this. In this case, the sound waves are sent as electrical oscillations into the coils marked i in Figs. 9 and 10, which are placed in a known manner around a cathode tube (e.g. Braun's tube). Due to the magnetic action of the coils i , the cathode ray bundle c is tied up or expanded so that the magnetic vibrations of the coils i directly change the cross section or the extension of the cathode ray bundle c without mechanical effects, so that in this way the production of sound wave photograms is also possible is.

In Figs. 9 and 10, α denotes a diaphragm, b denotes a slit, and d denotes the moving photographic film. For the purpose of changing the shape or design of the cathode bundle c as: circle ,, flat band. \ ^r iereck etc. are used here, special magnets k, I arranged in the vicinity of the cathode tube.

Claims (4)

Patent Claims: 1. Method for producing sound wave photograms with the aid of a Light beam generated in front of the slit of a diaphragm, characterized in that the light beam, depending on the sound waves in the direction of the slit diaphragm, in go its design or extent is changed. 2. facility for carrying out the procedure; according to claim 1, characterized in that the change in the light bundle takes place by means of one or more mirrors (f) fastened with the flat rear side on the membrane (g) influenced by the sound waves. 3. Device for carrying out the method according to claim 1, characterized in that the change of the light beam takes place by changing an opening (q) which is formed by two deflectable parts (m, n) , one ends of which is fixedly mounted and the other ends connected to the membrane (g) . 4. Device for carrying out the method according to claim 1, characterized in that that the change of the Lichtbündis is brought about with the help of a cathode tube by the sound waves act as electrical vibrations on the cathode rays. 1 sheet of drawings.