DE642810C - Ferromagnetic light control device, especially for the production of optical sound recordings - Google Patents

Description

Ferromagnetic light control device, especially for manufacturing of optical sound recordings The invention relates to a light control device, in particular. for the production of optical sound recordings in which a highly permeable Vibrating body is controlled electromagnetically by the speech currents. As a vibrating body a highly permeable one oscillating in the irregularly homogeneous magnetic field is advantageous here Iron flakes used. This iron plate is on a torsion body, the can be a wire or a ribbon attached. The iron plate. can either control the light yourself by @it opening a gap more or less, or by moving a mirror corresponding to a beam of light thrown on it deflects the vibrations. A thin steel wire is usually used as the torsion wire or steel tape is used. _ Some of these devices are known. they have the Disadvantage that the zero position of the oscillating body can easily change and that the Adjustment of the natural frequency is associated with difficulties.

The invention shows an advantageous way, the natural frequency and to set the rest position of the vibrating body independently of each other in operation., The natural frequency is set by adjusting the effective length of the torsion wire is changed. According to the invention, the torsion wire is expedient in four places clamped, namely the two wire ends, as usual, are stored firmly and between the ends two further slidably arranged clamping points, for. B. releasable pairs of jaws are provided. With adjustment of these movable jaw pairs the natural frequency of the recording device changes.

The rest position of such an electromagnetic oscillation system leaves also change independently of the aforementioned setting options, and that happens according to the invention in that the displaceably arranged Jaw pairs between the clamping points around the central axis of the torsion wire be pivoted, whereby the torsion wire is also in the same angle turns. The mirror attached to the torsion wire rotates with it, so that its cube position can be adjusted.

The invention is explained with reference to the drawing: Therein means i.a mounting plate on which the entire Liehtstener device is attached; z is a Terminal board, to whose terminals the amplified microphone currents are to be connected. The currents flow through the coils 3, which are pushed onto the soft iron pole pieces ¢ are and a The magnetic field oscillates in the rhythm of the microphone currents generate that controls the rotating mirror. 13 is the torsion wire on which the control plate is attached. The two ends of the torsion wire i3 are fixed at rä and 15, respectively clamped variably by the jaws 7 and 8 respectively the screws 16 and 18. The surrounding bolts are used for variable clamping 9; by means of the screws 17, the jaws 7, 8 are against the head of the bolts g pressed. If one wants the free length of the torsion wire 13 and thus the natural frequency change, you only need to loosen the two screws 17 and the surrounding bolts to move with the jaws 7, 8 until the wire 13 is the desired has free length.

When changing the rest position of the oscillating body, proceed as follows: By turning the screws 26, one of which is expediently provided for each surrounding bolt 9, the latter are pivoted about the torsion axis: At the same time, the split jaws 7 pressed together by the bolts 17 rotate, 8 and thus the torsion wire around its axis, ie the rest position of the oscillating body changes. The bolt 26 presses the free ends of the bolts 9 against the bolt 27. This presses itself via a helical spring 28 against the screw bolt 29. So you can change the zero position of the torsion wire continuously in any direction by turning the bolt 26. The tension of the spring 28 can be readjusted by screws on the Bol - :: # n 29. Under certain circumstances, tss -. 'Can also be expedient to provide an identical screw bolt on the counterpressure side instead of the one @zens 26 and to omit the resilient counterpressure bolts 27, 28, 29. The setting of the zero position is then a bit more complicated, but also more precise and safer.

The invention can of course also be applied to similar light control organs use.

Claims (2)

PATENT CLAIMS i. Ferromagnetic light control device with between the pole pieces arranged oscillating body, characterized in that between the clamping points (1 or 16) of the wire or tape (13), which the oscillating body carries slidable clamping devices comprising the wire or tape (13) (7, 8, 9) are provided so that the natural frequency of the vibrating body is set can be. 2. Ferromagnetic light control device according to claim i, characterized in that that the arranged between the two clamping points (io, 16), the wire or the band (13) comprising clamping devices (7, 8, 9) about the wire or band axis are pivotably arranged so that the rest position of the vibrating body can be adjusted can.