DE19938658B4 - Night vision attachment for a rifle scope and night riflescope - Google Patents

Abstract

Night vision attachment for a Scope or night riflescope with a housing (1) and one in the housing (1) recorded image intensifier (6) or image converter, which consists of incident residual or infrared light Output-side image generated in the visible spectral range, thereby characterized in that the image intensifier (6) or image converter via a cylindrical receiving body (12) either on its input-side optical component (7) or on its output-side component (9) on the housing (1) is included.

Description

Night vision attachments for a rifle scope are for example in the EP 0 152 418 B1 described. These usually have an input-side imaging optics for low-luminance residual light in the visible and / or near-infrared spectral range and an image intensifier arranged coaxially with the input-side imaging optics. The image intensifier generates an equally large, brightness-enhanced image in the visible spectral range from an input-side residual light image. The image intensifier contains a photosensitive photocathode, a microchannel plate following the photocathode and an anode which fluoresces in the visible spectral range. The resulting image on the anode is then imaged to infinity via a subsequent observation-side imaging optics, in whose focal plane the anode is.

To shorten the length of corresponding night vision attachments are in the in the EP 0 152 418 B1 described intentions in the visible beam path two deflecting mirrors or deflecting prisms provided so that the input side optical axis and the output side optical axis of the attachment are offset in parallel. However, this beam offset leads to a corresponding offset between the target in the scope and the actual target, so that the accuracy is reduced with the angled Nachtsichtvorsatz.

Furthermore, for example, from the GB 1 242 162 Night sight riflescopes are known in which the imaging optics in the beam path of the visible light is arranged coaxially to the imaging optics on the input side of the image intensifier. In such a coaxial arrangement, of course, no corresponding beam offset occurs.

Out US 5,414,557 A a night vision device is known in which a picture intensifier is arranged in a housing, which generates an output image in the visible spectral range from incident infrared light. In this case, both the input and the output side optical components are accommodated on a housing. With a temperature-induced expansion of the recording, the optical properties of the optical components can be adversely affected.

It it turned out that the with night vision attachments or night vision riflescopes achievable accuracy depending on varied the most varied boundary conditions. In particular, after as before the accuracy depends very much on the ambient temperature. The previously known night vision attachments and night vision riflescopes are therefore for sniper use, at Target accuracy from 3 cm to 100 m in a temperature range from -40 ° C to + 70 ° C required are only partially suitable. It is therefore the aim of the present Invention, a night vision attachment for a riflescope or a Night sight riflescope to provide, also for the sniper insert suitable is.

This Goal is inventively a night vision scope or a night sight riflescope with the features of claim 1 solved. Advantageous embodiments of the invention will become apparent from the Characteristics of the dependent Claims.

at the attachment or the telescopic sight according to the present invention is the image intensifier - or the Infrared light into visible light converting image converter - in the casing of the attachment or riflescope via a cylindrical receiving body received its input or output side optical components on the housing. It has become proved that the Target accuracy achievable with the attachment or scope the almost unpredictable thermal expansions of the housing of the Image intensifier or Image converter are conditional. By taking the image intensifier or Image converter on its optical components have such dimensions the converter or amplifier housing no Influence on the location of the optical and optoelectronic components, such as photocathode and anode, the image intensifier relative to the optical axis of the rest optical components.

Between the inner cylinder wall of the receiving body and the housing wall of the image intensifier or Bildkonverters is preferably in the radial direction over the whole length of the cylindrical receiving body extending air gap provided so that the housing of the image intensifier or Image converter can expand or shrink unhindered, without the radial position of the optical and optoelectronic components of Image intensifier / image converter to influence.

Due to the inclusion of the image intensifier or image converter on the input or output-side optical components, relatively large tilting moments can occur on the receptacle of the amplifier / converter in the event of impacts against the attachment or the telescopic sight. So that these moments do not lead to a break of the connection between the receiving body and image intensifier / image converter, it is also advantageous if in the air gap between the receiving body and the housing of the image intensifier / image converter several, preferably three pads of soft plastic material, for. B. permanently elastic silicone, are provided. These plastic pads are in the direction of the optical axis of the device in about the center of Bildver Stronger / Bildkonverters each offset by 120 ° about the optical axis provided. In the case of impacts, these plastic pads compensate for the moments that act on the connection between the receiving body and the optical components of the amplifier / converter. At the same time, thermal expansions or shrinkage of the plastic upholstery do not interfere since the plastic upholstery can escape through corresponding holes in the cylindrical receiving body when expanded. The expansions of the plastic cushion in the axial and tangential direction are therefore only slightly larger than the diameter of the holes in the receiving body.

at a first embodiment is the image amplifier / image converter taken at its entrance window on the receiving body. The receiving body points to a translucent Glass plate on, on which the receiving body with the entrance window of the image intensifier / image converter is glued. Both windows are preferably over the entire surface with each other cemented.

at a second embodiment is the image amplifier / image converter on an output image conductor of the image intensifier / image converter on receiving body added. In this embodiment is the receiving body double cylindrical design. The outer cylinder wall of the receiving body is on the housing of the attachment or telescope and the inner cylinder wall of the recording body surrounds the image conductor of the amplifier / converter a sleeve. These surrounded the image ladder sleeve-shaped inner cylinder wall is then glued to the image guide.

So far the housing of the image intensifier / image converter flush in the axial direction with the end of the picture leader completes or even in achsialer Direction over extends beyond the image guide, has the housing of the image intensifier / image converter an annular gap surrounding the image guide.

In the training as a night vision attachment for a riflescope forms the entire attachment preferably a coaxially arranged afocal system with 1: 1 image, ie the input-side optical components and the output side optical components coaxial with each other are arranged. Because with such a coaxial arrangement no design-related beam offset or beam deflection occurs, let yourself in combination with the inclusion of the image intensifier / image converter on his optical components achieve maximum accuracy.

following Details of the invention with reference to those shown in FIGS embodiments explained. In detail show:

1 a section through a night vision attachment according to the invention;

2 an enlarged view of the image of the image intensifier / image converter in the embodiment in 1 ; and

3 a detailed representation of the image of the image intensifier / image converter in an alternative embodiment, wherein the image intensifier / image converter is accommodated at its entrance window on the receiving body.

The night vision intent in 1 has a housing ( 1 ) on. On the input side is the housing ( 1 ) through an objective lens ( 2 ) and on the output side through an eyepiece ( 10 ) completed. On the bottom, the housing ( 1 ) a prism clamping ( 17 ), with which the entire night vision attachment can be mounted on a rifle.

The input-side imaging optics has a conventional structure as Cassegrain mirror objective with a primary mirror ( 3 ), a secondary mirror ( 4 ) and a focusing optics ( 5 ) on. The objective lens ( 2 ), the primary mirror ( 3 ) and the secondary mirror ( 4 ) are on corresponding sockets fixed to the housing ( 1 ). The focusing optics ( 5 ) is received in a socket, which in the direction of the optical axis relative to the housing ( 1 ) is displaceable. For the focusing movement is a set screw ( 11 ) intended.

Seen in the light direction, the focusing optics ( 5 ) an image intensifier ( 6 ). This image intensifier ( 6 ) also has a conventional structure consisting of an entrance window ( 7 ), an entrance window ( 7 ) subsequent photocathode ( 6a ), one of the photocathode ( 6a ) subsequent channel plate multiplier ( 8th ) with a photoanode ( 8a ) and one of the photoanodes ( 8a ) following image guide ( 9 ). The picture director ( 9 ) represents a so-called Twister and serves to rotate the on the photo anode ( 8a ) and through the eyepiece ( 10 ) observed image. The optical and optoelectronic components of the image intensifier are in the usual way by a housing ( 6b ) made of silicone material, in which, inter alia, the supply device for the microchannel plate ( 8th ) is housed, surrounded.

The photocathode ( 6a ) is in the focal plane of the input from the objective lens ( 2 ), Primary mirror ( 3 ), Secondary mirror ( 4 ) and focusing optics ( 5 ) formed lens arranged. That on the photocathode ( 6a ) image is taken from the amplifier to an image of the same size in the visible spectral range on the anode ( 8a ) strengthened. That on the anode ( 8a ), reversed image is replaced by the following Twister ( 9 ) into an upright, right-angled image. That on the exit surface of the twister ( 9 ) resulting image is through the eyepiece ( 10 ) observable. All optical and optoelectronic components, including the optical and optoelectronic components of the image intensifier ( 6 ), are arranged on the same optical axis. The focal length of the eyepiece ( 10 ) corresponds to the distance between the eyepiece ( 10 ) and the exit surface of the Twister ( 9 ) and at the same time the focal length of the input-side lens of objective lens ( 2 ), Primary mirror ( 3 ), Secondary mirror ( 4 ) and focusing optics ( 5 ). The overall system thus forms an afocal system with 1: 1 mapping. Consequently, there is no enlargement or reduction.

The recording of the image intensifier ( 6 ) on the housing ( 1 ) of the intent is enlarged in 2 shown. The housing ( 6b ) of the image intensifier has on the output side, ie on the side of Twister ( 9 ) has an annular gap. The warm-up body ( 12 ) is designed as a double-walled cylinder. The outer cylinder wall of the receiving body ( 12 ) is connected to the inner wall of the housing ( 1 ) lost. The inner cylinder wall ( 13 ) of the receiving body ( 12 ) surrounds the Twister ( 9 ) of the image intensifier sleeve-shaped and is with the Twister ( 9 ) glued. For the gluing of the inner cylinder ( 13 ) a completely and completely curing adhesive is used, since such adhesives have a relatively small thermal expansion and consequently the maladjustments occurring due to temperature fluctuations are low. The receiving body ( 12 ) itself is made of metal. The dimensions of the receiving body ( 12 ), in particular the wall thickness of the inner and the outer cylinder are chosen so that between the receiving body ( 12 ) and the housing ( 6b ) of the image intensifier ( 6 ) a substantially U-shaped air gap ( 14 . 15 ) remains. This air gap ensures that the housing ( 6b ) can expand or shrink depending on the ambient temperature, without influencing the radial position of the optoelectronic components of the image intensifier (US Pat. 6 ) relative to the optical axis (OA).

The cylindrical receiving body ( 12 ) has a total of three radial holes ( 18 ) approximately in the middle in the direction of the optical axis (OA). In these holes ( 18 ) are small amounts of permanently elastic silicone, the upholstery ( 16 ) form introduced. The silicone pads ( 16 ) fill the air gap ( 15 ) only to a very small extent, so that thermal expansion of the silicone pad ( 16 ) also no negative influence on the position of the optoelectronic components of the image intensifier ( 6 ) to have. At the same time, the silicone pad ( 16 ) ensures that the moments occurring in any impact on the splice between the Twister ( 9 ) and the inner cylinder ( 13 ) are compensated. This ensures that the position of the image intensifier ( 6 ) or its optoelectronic components are kept stable despite the very one-sided recording of the image intensifier.

According to the embodiment (3) is contrary to the embodiments below 1 and 2 the image intensifier ( 6 ) at its entrance window ( 7 ) on the receiving body ( 12 ). In this embodiment, the receiving body ( 12 ) a simple metal cylinder, on the light entrance side through a translucent glass plate ( 19 ) is completed and is thus formed substantially cup-shaped. The glass plate ( 19 ) of the receiving body ( 12 ) is with the entrance window ( 7 ) of the image intensifier glued in turn with a completely hardening adhesive.

Also in the embodiment according to 3 the receiving body ( 12 ) three radial holes ( 18 ), in which pads made of permanently elastic silicone ( 16 ) are provided.

In the 1 The arrangement shown can be used both as a night vision attachment and as a night riflescope. In the first case, the arrangement is preceded by a conventional riflescope lens side, so that the emerging from the eyepiece of the intent collimated light beam falls into the lens of the riflescope. In this case, the header should have a magnification of 1: 1; As a result, a consistent accuracy is guaranteed even when occurring tilt angles between the optical axis of the attachment and the optical axis of the riflescope. In the second case, the target end can also be inserted directly into the eyepiece of the 1 view seen arrangement. In this case, the inclusion of a target mark would have to be supplemented additionally. In addition, when used as a night riflescope, a magnifying magnification can be realized by providing a shorter focal length for the eyepiece than for the objective.

In the embodiments illustrated in the figures, the image intensifier ( 6 ) designed for the amplification of residual light in the visible or near infrared spectral range. Alternatively, instead of the image intensifier, an image converter, which converts an input-side infrared image into a visible image, may also be provided. The input-side imaging optics must of course be suitable for infrared. Likewise, in the embodiment according to 3 the glass plate 19 form of infrared-transmissive material.

Claims (10)

Night vision attachment for a rifle scope or night rifle scope with a housing ( 1 ) and one in the housing ( 1 ) recorded image intensifier ( 6 ) or image converter which generates an output image in the visible spectral range from incident residual or infrared light, characterized in that the image intensifier ( 6 ) or image converter via a cylindrical receiving body ( 12 ) either on its input-side optical component ( 7 ) or at its output side component ( 9 ) on the housing ( 1 ) is recorded. A night vision attachment according to claim 1, wherein between the cylinder wall of the receiving body ( 12 ) and the housing ( 6b ) of the image intensifier or image converter an air gap ( 14 . 15 ) is provided. Night vision attachment according to claim 2, wherein in the air gap ( 15 ) several upholstery ( 16 ) are provided from permanently elastic plastic. A night vision attachment according to claim 3, wherein three cushions are provided from permanently elastic plastic. Night vision attachment according to claim 4, wherein the cushions ( 16 ) consist of permanently elastic silicone. Night vision attachment according to one of claims 1-5, wherein the image intensifier ( 6 ) or image converter at its input window ( 7 ) on the receiving body ( 12 ) is recorded. Night vision attachment according to one of claims 1-5, wherein the image intensifier ( 6 ) or image converter on its output image guide ( 9 ) on the receiving body ( 12 ) is recorded. Night vision attachment according to claim 7, wherein the receiving body ( 12 ) is double-cylindrical, the outer cylinder wall of the receiving body on the housing ( 1 ) of the attachment is received and the inner cylinder wall ( 13 ) of the receiving body the image guide ( 9 ) of the image intensifier ( 6 ) or Bildkonverters sleeve-shaped surrounds. A night vision attachment according to claim 8, wherein the housing ( 6b ) of the image intensifier ( 6 ) or Bildkonverters one the Bildleiter ( 9 ) surrounding annular gap ( 14 ) having. A night vision attachment according to any one of claims 1-9, wherein the header comprises input-side imaging optics ( 2 . 3 . 4 . 5 ) and an output-side imaging optics ( 10 ), wherein the input and output imaging optics are arranged coaxially to each other and the intent forms an afocal system with 1: 1 image.