DE19606334C2 - Laser beam deflection unit - Google Patents

Description

Laser beams with low power and in the visible light range are used today in a variety of ways for show and effect purposes used. They are distracted in various ways to get interesting in the projection Generating patterns. So z. B. transmit the vibration from speakers to mirrors, which then Deflect the laser beam according to the audio signal. But due to the loose coupling of the mirrors, the generated one stands Light effect in no strict relation to the audio signal. Also stepper motor driven, Processor-controlled deflection method known. These can create a variety of patterns. Intricately built High-speed mirror galvanometers let the generated figures pulsate in time with the music.

From the patent DE 38 02 145 C1 an optoelectric device is known in the fixed energized coils forces on an all-round movable optical element equipped with permanent magnets exercise. This device can only be operated in a horizontal position. About other properties and Areas of application are not given. Because the relatively heavy permanent magnets were moving High deflection speed is not expected.

The aim of the invention is to create a laser beam deflection unit which produces figures which are strictly related to the stereophonic sound event emitted via the loudspeaker system and which produces a flat pattern. This deflection unit essentially consists of 4 moving coil systems FIGS. 1, 1-4. These move the deflecting mirror 10 centrally mounted thereon via a cross-shaped, partially flexible transmission system 9 . The moving coil systems consist of permanent magnets with annular air gaps. In these air gaps the moving coils 5-8 move, which are attached to the elastic guide elements 11 in such a way that they can move axially back and forth in the air gap about their rest position. Two diametrically opposed systems work together in opposite phases. The Systems 1/4 and the systems 2/3 are fed from different sources of alternating current, for. B. from the speaker outputs of a stereo amplifier. If e.g. B. a positive half wave pulls the moving coil 5 in the system 1 into the gap, the same half wave pushes the moving coil 8 in the system 4 out of the gap. Systems 2 and 3 work analogously. The transmission element 9 is movably coupled to the voice coils at its 4 end points. The 4 arms are made of a partially elastic material, which must be rigid in the longitudinal direction to allow the movement of the voice coils of one system on the mirror, but not to hinder the movement of the other system. That can e.g. B. can be achieved by providing the arms with a flat cross section, as shown in Figs. 1 and 2. The mirror can be tilted in any direction from its rest position. The laser beam can thus be deflected in any direction from its rest position. With single-channel or monophonic control, straight lines are created, the length of which depends on the amplitude. When controlled with a stereo signal, a curved continuous line is created which moves quickly across the entire projection surface. This moving pattern is closely related to the stereo signal and conveys a completely new experience of music enjoyment through the audiovisual coupling.

Claims (1)

1.Laser beam deflection unit with two pairs of diametrically opposed coil systems, the connecting straight lines of the pairs being perpendicular to one another, the pairs acting together on a deflecting mirror and each pair being electrically connected in phase opposition and fed with electrical signals which come from AC sources, the coils of the coils systems ( 1 to 4 ) partially elastic suspended and guided in air gaps plungers ( 5 to 8 ) which are movable in the axial direction, each of the four plungers ( 5 to 8 ) is movably connected to one arm end of the transmission element ( 9 ) and the four arms of the transmission element ( 9 ) consist of a partially elastic material with a flat cross section.