RU9073U1 - VIDEO UNIT FOR OPTOELECTRONIC PERISCOPE - Google Patents

Abstract

1. A video unit for an optoelectronic periscope, comprising a hollow body with a flange and a transparent porthole, characterized in that the body has a cylindrical shape, the plane of the upper edge of which has an inclination relative to the plane of the flange, and a porthole having a spherical shape is sealed to the upper edge of the body. The video block according to claim 1, characterized in that the inclination of the plane of the upper edge relative to the plane of the flange 0 - 10.3. The video block according to claim 1, characterized in that the porthole is made of glass that can withstand high pressures and bullet effects. The video block according to claim 1, characterized in that the porthole transmits light rays of the visible and infrared range.

Description

Video block for optoelectronic periscope

The technical solution relates to the components of periscopes and can be used in structures that do not have a mechanical connection with the visual observation post of optoelectronic periscopes intended for observation from ground shelters, tanks and submarines.

Known periscope device according to the patent of Germany No. 3801941, in which to protect the windows of the window of the video block uses a retractable pipe covering the hermetically video block. A similar design is described in the patents of Germany No. 3735705 and No. 3737342. These devices are complex both structurally and in operation.

A monitoring device according to French patent No. 2668614 is known that is used for the air-to-air class of targets, in which the line of sight of the video block is held in a predetermined direction using a reference radio beam. For ground-based observable objects, a device is used according to the application EPO No. 530589, in which the porthole of the azimuth moving in the corners and the place of the video block is made of glass with zinc selenide additive.

For submarines, the device according to patent No. 4023322 is used, consisting of a video block floating on a water surface and connected by a light guide to a visual observation post. These devices are not reliable enough and have limited use.

Closest in technical solution to the applicant; is a video block for the periscope according to the patent of Germany No. 3632750. It has a KOplifc in a form set on the truncated top of a hollow pyramid. (Kusa has a large reflection coefficient, which makes it almost recognizable in the sea when using a periscope. Observed and CCI projection is projected onto the optical system located inside the casing through the window provided in the casing wall. The video block casing is installed using

flange on a retractable mast of the periscope. The disadvantage of this device is the limited functionality, since the observation is carried out in azimuth (sea surface) with a constant elevation angle.

The objective of the proposed solution is to expand the functionality of the device. This is achieved by the fact that the video block for the optoelectronic periscope, comprising a hollow body with a flange and a transparent porthole, differs in that the body has a cylindrical shape, the plane of the upper edge of which has an inclination relative to the plane of the flange, and a porthole having a spherical shape is sealed to the upper edge of the body . The inventive combination of elements and relationships allows you to achieve your goal due to the constructive solution suitable for use in a wide range of observed objects.

When studying well-known technical solutions in this technical field, the totality of features that distinguish the claimed object has not been identified. This solution differs from the known ones.

Since the claimed solution can be implemented on modern components and materials, it is industrially applicable. Presented in the figure, the drawing explains the essence of the device. It is indicated here:

1- building

2- flange

3- plane of the upper edge of the housing,

4 - porthole

5- prism

6- zoom lens

7- television camera,

8- current lead

9- cable.

The device comprises a robust housing 1 in the form of a hollow cylinder. In the lower part, the housing 1 is equipped with an environmentally tight flange 2. The plane of the upper edge 3 of the housing 1 is inclined at an angle of up to 15 ° relative to the plane of the flange 2. A spherical transparent porthole 4 made of glass withstanding high pressure and hermetically sealed is connected to the edge 3. bullet impact, transmitting light rays of both visible and infrared range. A prism 5, a zoom lens 6 and a television camera 7 are located inside the housing 1 on a common optical axis. The equipment located inside the housing 1 is connected to the equipment located in the visual observation post through a current lead 8 by cable 9 (not shown in Fig.). The device operates as follows.

The video unit with flange 2 is attached to the turntable mounted on the outside of the shelter, on the tank hull, in the cabin of the submarine on a pull-out device (for observing the underwater situation) or on the underwater part of the ship's hull (for observing the underwater situation). The optical image projected by the prism 5 into the zoom lens 6 is converted by the television camera 7 into a video signal, which is transmitted via cable 9 to a television monitor located in the visual observation post, where it can be watched simultaneously by all those present, and can also be recorded on a VCR or PC. The rotation of the video block around the vertical axis, as well as the rotation of the prism around the axis perpendicular to the vertical axis of the video block, provides a corresponding overview of the angles: in azimuth - (± 175 °) and elevation - from (-10 °) to (+ 90 °).

The proposed device is manufactured, tested and showed high reliability.

Claims (4)

1. A video unit for an optoelectronic periscope, comprising a hollow body with a flange and a transparent porthole, characterized in that the body has a cylindrical shape, the plane of the upper edge of which has an inclination relative to the plane of the flange, and a porthole having a spherical shape is sealed to the upper edge of the body. 2. The video block according to claim 1, characterized in that the inclination of the plane of the upper edge relative to the plane of the flange 0 - 10 ^o .  3. The video block according to claim 1, characterized in that the porthole is made of glass that can withstand high pressures and bullet effects. 4. The video block according to claim 1, characterized in that the porthole transmits light rays of the visible and infrared range.