DE2165502A1 - ARRANGEMENT IN ELECTRICAL LIGHT SYSTEMS FOR GENERATING LIGHT IMPULSES - Google Patents

Description

Arrangement in photoelectric systems for generating light pulses In order to become independent of a constant light source in photoelectric systems, it is known, in the radiation range of the light source and this downstream one to provide a number of passage openings having rotating diaphragm, by means of whose light pulses (light-dark) are generated. These light pulses become one selective amplifier fed to a trigger member in the form of a cutting device or the like. Controls.

By changing the speed of the rotating diaphragm and / or by There is a variation in the number of light passage openings in the diaphragm Possibility to change the repetition frequency of the light impulses, so that such light barrier systems Can be used more universally than in the case of working with constant light and its amplification and fluctuations in light intensity do not have a negative effect on the function of the System impact.

The present invention is based on the object of an arrangement for the generation of light pulses in photoelectric systems to be found in the Compared to the known pulse generation by mechanical means without moving parts and therefore also works without acceleration and practically inertia, and the in addition, a control of the pulse frequency and the light intensity in a simple manner and also has a cost-saving effect.

This object is achieved in that, according to the invention, the light source a liquid crystal located in the beam path is arranged downstream, which is connected to a pulsating, variable-frequency voltage is connected. It has proven to be special proved advantageous, a nematic liquid crystal lying in the beam path to use.

In a further embodiment of the invention, it is also provided to change the amplitude of the pulsating voltage.

This gives the opportunity to act on the photosensitive element Adjust the amount of light reaching the respective purpose by appropriately Depending on the amplitude, different turbidity states of the crystal can be achieved.

At least in some cases, it can also be useful to use a Provide a constant DC voltage base value, to which the appropriate pulsating Voltage is superimposed (response threshold).

The invention is illustrated below with the aid of a basic circuit explained in more detail.

In the figure, 1 represents a light source, which is a lens or a Lens system 2 is assigned. With 3 a liquid crystal is designated, the one further lens 4 is arranged downstream, which the light on the photosensitive organ 5 focused. An ohmic resistor 6 is connected to the photosensitive member 5 connected in series and this series connection is connected to the voltage U. Between a capacitor 7 is connected to the resistor 5 and the photosensitive member 6, its other coating to the input 8 of an amplifier 9 and at the same time to the bleeder resistor 10 is performed.

The RC element formed from the capacitor 7 and the resistor 10 acts here as a 1> inference element, i.e. only the voltage across the resistor is applied 10 processed further.

In the case of constant light, the voltage across the resistor 10 and remains thus also the voltage of the amplifier practically unchanged, since the capacitor 7 charges to the corresponding value and the voltage across resistor 10 has a lowest value accepts. With pulsating light (light-dark), which is caused by the change in the blood crystal lying voltage Up and / or whose Frequen is achieved, reach corresponding Pulses to the input 8 of the amplifier 9, whereby at its output 11 the desired Control variable is available.

The arrangement of parts 1-4 can be varied as desired This means that the light source can, under certain circumstances, be at a considerable distance from the liquid crystal have, furthermore, the optics (lenses 2 and 4) can each be designed as it is advantageous for the particular case of need. Under certain circumstances, the one or the other lens is completely eliminated.

The predeterminable DC voltage that can be adjusted in terms of its value is designated in the figure with Ugl.

Expectations:

Claims (4)

Claims 0 arrangement in photoelectric systems for generation of light pulses, characterized in that the light source (1) is in the beam path lying liquid crystal (3) is arranged downstream, which is connected to a pulsating frequency variable Voltage is connected. 2. Arrangement according to claim 1, characterized in that the amplitude the supply voltage can be changed. 3. Arrangement according to claims 1-2, characterized in that a pulsating voltage is superimposed on an applied DC voltage. 4. Arrangement according to claims 1-3, characterized in that the value of the applied DC voltage wälil- resp. is adjustable.