DE2362863C3 - - Google Patents

Description

The invention relates to a method for observing and / or sighting a target in different Spectral ranges using an artificial radiation source and a device to carry out this procedure.

From the DT-Gbm 19 14 347 as well as from the DT-AS 20 165 there is a telescopic sight with monocular view and two beam paths are known, one of which is intended for daytime operation and the other for nighttime operation is. Depending on the time of day or brightness, one can be set with the help of an adjustable prism of the two Sirahlengganges are optically coupled with the view. Different from this type of rifle scope the distance vision device described in the DT-AS 10 34 390 essentially by the fact that in place of a switchable prism optionally an image converter tube or an additional optics - according to the observing radiation area - can be inserted. The image converter tubes have a disadvantageous effect here or their photocathode upstream optical members, such as lenses, field lenses and the like Impair the contrast and image brightness. Both devices are also only for monocular observation intended.

From DT-OS 20 60 897 there is also a task of the invention in the improvement and shortening the process of identifying a target within an observed scene. Solved this object is achieved according to the invention. that via a binocular insight first of all the a first image is presented to an eye in the beam path assigned to it, then the contrast of this Image through a full screen or ground glass that can be inserted into the beam path to below the contrast of a second image of the same scene is reduced, which is seen by the other eye over the one assigned to it, a beam path containing an electronic image intensifier is observed. That way it will It is possible that of two images offered to the human eyes, the last one with greater contrast - that is, the image that was originally or before the shadowing was the less contrasting one - of the brain is processed automatically, resulting in faster processing of the identification process contributes.

An advantageous development of the invention provides that to generate the second image, the scene or partial areas of the same are illuminated with the help of a pulse laser, the natural daylight through interference filters faded out and only the reflected radiation according to the known gated viewing process is displayed on the screen of the imager. This allows for adverse, in particular through Haze, weak fog, snow, etc. improve the range in poor visibility conditions. When combined With a laser rangefinder, a clear target distance measurement can also be carried out, which is part of the identification process.

As far as the actual contrast regulation is concerned, the same can be done in a simple manner regulate that one on the eye side evenly coated with a light-reflecting paint and through indirect Illumination diffusely illuminated aperture is used. It can be useful if the brightness of the scene is measured and the brightness of the light source is adapted to the brightness of the scene will. According to a further feature of the invention, this light source can consist of a white light bulb.

hen. their spectral behavior through a special color filter is determined.

In the following, an exemplary embodiment is given with reference to a drawing the invention explained in more detail:

In the case of an observation device with binocular viewing and an artificial light source 8, for example observed a scene not shown in the drawing with the left eye 1 via a daytime watch 3 and aimed at a perceived goal within that scene. The right eye 2 is during this Time set on the screen of a keyed image intensifier 4 for gated viewing operation, on which the same scene as shown in daytime telescope 3. The gated viewing channel is equipped with an in the drawing for laser rangefinder not shown in detail equipped. Since the brain automatically adjusts itself to the higher-contrast image, the lower-contrast image of the luminescent screen is suppressed without additional drawing, so that the Observer observed the scene through daytime telescope 3. However, as soon as he has perceived the goal and the identification process is carried out with the combined laser range finder-gated viewing system is, the optical beam path 6 for the left eye 1 can be switched on in the direction of the Double arrow swivelable, in the present exemplary embodiment with an un; structured surface provided full aperture 5 are interrupted, so that the human brain now automatically on the higher contrast Image is deflected in the beam path 7 and an observation of the target via the gated viewing channel becomes possible. In another embodiment it is also possible instead of the full screen 5 use a 5 'focusing screen.

1 sheet of drawings

Claims (5)

Patent claims: 1. Procedure for observation and / or sighting a target in different spectral regions using an artificial radiation source, characterized in that I first have a binocular view of one eye (1) in the sirahlengang (6) assigned to it. a first image is presented, then the contrast of this image through one in the beam path | 6) insertable full screen (5) or focusing screen (5 ') fcis under the contrast of a second image of the same Scene is reduced, that of the other eye (2) via the one assigned to it, one electronic »Chen image intensifier (4) containing beam path (7) is observed. 2. The method according to claim 1, characterized in that to generate the / wide image Scene or parts of it illuminated with the help of a pulse laser, natural daylight faded out by interference filters and only the reflected radiation according to the well-known gaied viewing method is displayed on the screen of the image converter (4). 3. Device for performing the method according to claim 1, characterized in that a On the other side with a light reflecting color evenly coated diaphragm (5) illuminated diffusely by indirect lighting (8) finds. 4. Device according to claim 3, characterized in that the brightness is measured dtr scene and the brightness of the light source (8) is adapted to the brightness of the scene. 5. Device according to claim 3, characterized in that the light source (8) consists of a white light lamp exists whose spectral behavior is determined by a special color filter. 40 image intensifier and associated optics equipped binocular night vision device, which can be used, among other things, designed as a head attachment for shooting with light weapons. In this case, a lens reproduces the image incident via a roof prism on the photocathode of the amplifier tube. Following the course of the beam path, the image reaches the eyepiece via a semi-transparent glass plate and a concave mirror. The latter has the shape of a meniscus lens and, together with a converging lens arranged on the other side of the semitransparent plate, forms a so-called Galilean telescope. Here, the viewing channels assigned to the two eyes of the shooter are designed identically in a conventional manner. It is therefore an observation glass intended for night-time operation, which, however, does not allow for quick identification of targets. Not only is the integration of a rangefinder missing, but also any indication of the possibility of utilizing the ability of the human brain to automatically adjust one and the same image to the higher-contrast one of two different contrast areas offered to it via the two eyes