RU180460U1 - FLASHLIGHT ELECTRIC NAVIGATION - Google Patents

Abstract

This utility model relates to the field of navigation instruments and is intended to be used as a landmark for directional actions to ensure the safety of navigation as part of coastal aids to navigation equipment (ATS). The technical result of this utility model is to increase the reliability of the flashlight and its durability. The electric navigation lamp contains a waterproof bell-shaped case, a flashlight installed inside the waterproof case and made with the possibility of radiation: a flash duration of 0.25 to 50 s in increments of 0.25 s; a built-in tilt sensor designed to provide a signal for turning off the flashlight for a long-term deviation of the axis of the lamp from the vertical, while the lamp is made with the ability to control the radiation intensity when changing the threshold illumination.

Description

This utility model relates to the field of navigation instruments and is intended to be used as a landmark for directional actions to ensure the safety of navigation as part of coastal aids to navigation equipment (ATS).

The prior art electric navigation sector light (RU 137596) contains a load-bearing housing in which a point light source is placed, in front of which a capacitor, filters and a projection lens are mounted in series, while the filters are located in the focal plane of the light beam exiting the capacitor. The disadvantage of this lamp is the lack of reliability in view of the need for constant reciprocating movement of the capacitor, which leads to accelerated wear.

In the prior art, a navigation lamp (RU 2411158) is known, comprising a cylindrical lens, a light source representing a line of n LEDs arranged in a circle on the inner surface of the lens, each LED being oriented by its light pattern in the direction of the center of the lens. The disadvantage of this flashlight is the need for additional cooling, without which the life of the flashlight is significantly reduced.

The technical result of this utility model is to increase the reliability of the flashlight and its durability.

The claimed result is achieved by using an electric navigation lamp according to this utility model.

The electric navigation lamp contains a waterproof bell-shaped case, a flashlight installed inside the waterproof case and made with the possibility of radiation: a flash duration of 0.25 to 50 s in increments of 0.25 s; a built-in tilt sensor designed to provide a signal for turning off the flashlight for a long-term deviation of the axis of the lamp from the vertical, while the lamp is made with the ability to control the radiation intensity when changing the threshold illumination.

An additional feature of the flashlight is that it is able to connect to a GLONASS / GPS receiver, as well as remote control.

In FIG. 1 shows a flashlight according to the present utility model.

In FIG. 2 shows a flashlight according to the present utility model, a side view.

The electric navigation lamp contains a waterproof bell-shaped housing made of aluminum alloys and polycarbonate glass, resistant to UV radiation. The bell-shaped type of the case contributes to self-cleaning from possible contaminants, which increases its life.

A flashlight is installed inside a waterproof housing and is capable of radiation: a flash duration of 0.25 to 50 s in increments of 0.25 s.

The lantern also contains a built-in tilt sensor designed to give a signal to turn off the flashlight when the lantern axis deviates from the vertical for a long time, for example, when the buoy goes under the ice.

Also, to increase the life of the flashlight, it is additionally made with the possibility of regulating the intensity of radiation of threshold illumination to turn it on / off.

An additional feature of the flashlight is also that it is configured to connect to a GLONASS / GPS receiver, and also that it is configured to remotely control it.

Claims (2)

1. An electric navigation lamp containing a waterproof bell-shaped housing, a flashlight mounted inside a waterproof housing and configured to emit: a flash duration of 0.25 to 50 seconds in increments of 0.25 seconds; a built-in tilt sensor designed to provide a signal for turning off the flashlight for a long-term deviation of the axis of the lamp from the vertical, while the lamp is made with the ability to control the radiation intensity when changing the threshold illumination. 2. The flashlight according to claim 1, characterized in that it is made with the possibility of connecting to a GLONASS / GPS receiver, as well as remote control.

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