RU2190286C2 - Radar reflector - Google Patents

Abstract

FIELD: navigation; location of small sea objects. SUBSTANCE: radar reflector is provided with retro-reflecting components mounted either side of each strip to form triangular reflectors which makes it possible to locate small sea objects carrying radar reflectors in the dark in radar-coverage dead zone. EFFECT: enhanced reliability of sea object location. 1 dwg

Description

 The invention relates to the field of navigation, and specifically to the detection of small marine objects.

 To increase the radar contrast of small marine objects (boats, boats, buoys, navigation signs, rescue equipment, fishing net hangers), angular radar reflectors are used. Moreover, to obtain omnidirectional characteristics, lattices composed of triangular corner reflectors, called groups, are used.

 For the prototype adopted corner reflector - a group of eight triangular corner reflectors, described in the book of Kobak V.O. Radar reflectors. M .: Soviet Radio, 1975, p.228.

 However, at the final stage of the search for small marine objects carrying radar reflectors (RO), when approaching them at a distance of 200-300 m, the RO find themselves in the so-called "dead zone", and these objects cannot be detected in this zone by radar. The visual detection of small marine objects in the dark even with the use of searchlights is very difficult, especially due to the unrest of the sea. In this regard, a lot of time is spent searching and collisions with the desired object are possible until it is detected (since it is impossible to constantly illuminate the entire body of water with a searchlight) or winding fishing nets marked with POs on the propeller.

 The objective of the present invention is to provide visual detection in the dark time of small marine objects bearing PO located in the "dead zone" of radar detection.

 This problem is solved by installing reflective elements (SVE) on the corner reflectors.

 The invention is presented in the drawing, which shows the PO in different angles. SVE 1 are installed on both sides of each of the plates 2, forming a triangular reflector. Since the reflectivity of the SVE does not depend on the inclination of their surface relative to the light source, the intensity of the light reflected from them is determined by the projection area of the SVE 1 on a plane perpendicular to the direction of the spotlight beam. Moreover, in any position 10, from four (strictly perpendicular) to eight (at different angles) SVE 1 are facing the searchlight, which is illustrated by the drawing.

 The search vessel approaches the target under search by the radar station, and when the distance to the object, at which the signal disappears on the indicator, continues to search using spotlights, illuminating the water surface along the bow of the vessel and the bow directional angles of both sides. When PO is illuminated, a bright luminescence appears on the SVE, according to which a PO-bearing object is detected from the search vessel at a distance sufficient for maneuvering when approaching the object, since the detection distance of the illuminated SVE is approximately one cable.

Claims (1)

 A radar reflector containing a group of corner reflectors and retroreflective elements, characterized in that the retroreflective elements are installed on both sides of each of the plates forming a triangular corner reflectors.