RU2018859C1 - Sea radiolocation station - Google Patents

Abstract

FIELD: detection of above-water objects. SUBSTANCE: station has rotating aerial with horn feed, transceiver, indicator, provided with control panel, electro-mechanic drive, electromagnet, armature, spring, groove, hinge, rotatable section, unit. Width of directional pattern may be controlled in vertical plane, which results to improvement in ranging of object detection at calm and moderate sea-ways. EFFECT: improved precision. 2 cl, 2 dwg

Description

 The invention relates to electrical engineering and can be used in marine radar stations (radar) to detect surface objects.

 The aim of the invention is to increase the detection range (energy potential) of the radar in calm weather and moderate sea waves.

 The goal is achieved by the fact that in a known marine radar station containing a rotating antenna with a horn feed, a transceiver and an indicator with a control panel that is electrically connected to an electromechanical drive mounted on the rotating part of the antenna, a parabolic horn is used as an antenna feed, in the parabolic part of which a recess is made in which a rotary section repeating the shape of the parabola is installed, by means of a hinge connected to the main parabolic part of the horn and connected rigidly to a link which in turn is connected by a hinge to the armature of the actuator.

 Figure 1 shows a functional diagram of a marine radar station; figure 2 - electromechanical drive.

 The device (figure 1) contains a rotating antenna with a horn irradiator 1.5, a transceiver 2, an indicator 3 with a control panel 6, an electromechanical drive 4, an electromechanical drive (figure 2) contains an electromagnet 7, an armature 8, a spring 9, a recess 10, hinge 11, rotary section 12, link 13.

 The device operates as follows.

 In the mode of a narrow radiation pattern, the switch of the control panel 6 is in the open state, the electromagnet 7 is de-energized, the spring 9 by means of link 13 holds the section 12 in the pressed state to the recess 10, which provides the necessary size of the antenna pattern in the vertical plane, determined by the aperture a.

 In the mode of the "wide" radiation pattern, the switch of the control panel 6 is closed, the power source is connected to an electromagnet 7, which, overcoming the force of the spring 9, turns section 12 and sets it to a position in which the radiation pattern of the radar antenna expands and becomes the corresponding aperture b.

 The supply of a parabolic horn with a parabolic section hinged on it allows depending on the degree of sea waves to quickly change the width of the antenna pattern in the vertical plane from "narrow" to "wide" and from "wide" to "narrow" from the indicator panel. This leads to the rational use of the energy potential of the station and thereby increases the detection range of marine objects.

Claims (2)

 1. MARINE RADAR STATION, containing a rotating antenna with a horn emitter, connected to the first output of the transceiver, and an indicator with a control panel connected to the second output of the transceiver, characterized in that, in order to increase the detection range of objects with calm and moderate sea waves, introduced an electromechanical drive mounted on the rotating part of the antenna; an electromechanical drive control unit installed in the indicator control panel and electrically connected to the body of an electromechanical drive.  2. The station according to claim 1, characterized in that the horn emitter of the rotating antenna is made in the form of a parabolic horn, part of the parabolic surface of which is a rotary section connected by a hinge to the main part of the horn and with an electromechanical drive so that the hinge provides rotation of the section a horn around an axis coinciding with one of the generators of the cylindrical surface of a parabolic horn.

Images