CN210567795U - Intelligent navigation mark lamp of self-adaptive dimming - Google Patents

Abstract

An intelligent adaptive dimming beacon light comprising: AIS antenna house, transparent cover, lamp stand structure, cable junction and lamp body, the AIS antenna house is connected with transparent cover upper portion, and the lamp stand structure is connected with the transparent cover below, and the cable junction is connected with lamp stand structure one side, and the lamp body is connected with lamp stand structure top, and inside AIS antenna house and the transparent cover were located to the lamp body. Wherein, the lamp body includes: AIS built-in antenna, AIS mainboard, lamp mainboard, LED light source circle and lamp body luminous intensity controller. Compared with the prior art, the AIS module and the lamp body light intensity controller are additionally arranged on the beacon light, so that the navigation light intensity requirements of various ships in different sizes can be met by intelligently judging whether the ship is approaching or departing, the precious beacon energy is saved and the service life of a beacon light source is prolonged under the safety premise, particularly in the sea areas with more small ships and less large and medium ships, the energy-saving effect is obvious, the service life of the beacon light can be greatly prolonged, and the maintenance amount is reduced.

Description

Intelligent navigation mark lamp of self-adaptive dimming

Technical Field

The utility model relates to a marine navigation mark aid to navigation equipment field, concretely relates to intelligent navigation mark lamp of self-adaptation light modulation.

Background

The traditional beacon light adopts a daylight controller to automatically turn on and off. When the night curtain approaches and the sunlight controller senses that the illumination intensity is lower than a set illumination value, the beacon light is automatically turned on; the day is gradually bright, and when the sunlight controller senses that the illumination intensity is higher than a set illumination value, the beacon light is automatically turned off. The luminous intensity of the traditional navigation mark is fixed. In order to meet the farthest action distance, the beacon light always emits set light intensity according to the farthest action distance, and energy consumption is more. Therefore, for a small ship at the near end, the light at the far range easily causes glare, and is not beneficial to ship navigation. The boat has low driving platform and small inertia, and has closer requirement on the sight distance of the navigation mark lamp, so the required light intensity is low, and glare cannot be generated; the large ship driving platform is high, has large inertia, has a relatively long requirement on the sight distance of the navigation mark lamp, and therefore needs higher light intensity.

In order to solve the above problems, we have made a series of improvements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligent navigation mark lamp of self-adaptation light modulation to overcome the above-mentioned shortcoming and not enough that prior art exists.

An intelligent adaptive dimming beacon light comprising: the automatic lamp comprises an AIS radome, a transparent lampshade, a lamp holder structure, a cable interface and a lamp body, wherein the AIS radome is connected with the upper part of the transparent lampshade, the lamp holder structure is connected with the lower part of the transparent lampshade, the cable interface is connected with one side of the lamp holder structure, the lamp body is connected with the upper part of the lamp holder structure, and the lamp body is arranged inside the AIS radome and the transparent lampshade;

wherein the lamp body includes: AIS built-in antenna, AIS mainboard, lamp ware mainboard, LED light source circle and lamp body light intensity controller, AIS built-in antenna lower extreme passes transparent lamp shade and is connected with the AIS mainboard, AIS mainboard lower extreme and lamp ware mainboard connection, LED light source circle is connected with lamp ware mainboard lower extreme, LED light source circle is connected with lamp stand structure upper end, lamp body light intensity controller and lamp ware mainboard connection.

Further, the lamp socket structure includes: the lamp holder comprises a lamp holder body, a mounting bottom plate and a bolt assembly, wherein the mounting bottom plate is connected with the lower portion of the lamp holder body, the mounting bottom plate is connected with an on-site mounting platform through the bolt assembly, and the lamp holder body is made of aluminum alloy materials.

Further, the lamp light intensity controller includes: the LED light source device comprises an AIS signal receiver, a signal decoder, a light intensity controller, a sunlight controller, an encoding controller and a power controller, wherein the AIS signal receiver is connected with the signal decoder, the signal decoder is connected with the light intensity controller, the sunlight controller, the encoding controller and the power controller, and the light intensity controller, the sunlight controller, the encoding controller and the power controller are connected with an LED light source ring.

The utility model has the advantages that:

the utility model discloses compare with the conventional art, through add AIS module and lamp body light intensity controller on the navigation mark lamp, realize the intelligent boats and ships size of process of differentiating, it still drives away to be nearly, satisfy the navigation light intensity needs of various big and small-size boats and ships, simultaneously under safe prerequisite, save the valuable navigation mark energy, the life of extension navigation mark light source, especially more at small-size boats and ships, big and medium-sized boats and ships are less sea area, energy-conserving effect is very obvious, can prolong navigation mark lamp life greatly, reduce the maintenance volume simultaneously.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the lamp body light intensity controller of the present invention.

Reference numerals:

the AIS radome 100, the transparent lamp cover 200, the lamp socket structure 300, the lamp socket 310, the mounting base plate 320, and the bolt assembly 330.

Cable interface 400, lamp body 500, AIS built-in antenna 510, AIS mainboard 520, lamp mainboard 530 and LED light source circle 540.

Lamp body light intensity controller 550, AIS signal receiver 551, signal decoder 552, light intensity controller 553, daylight controller 554, encoding controller 555, and power controller 556.

Detailed Description

The present invention will be further described with reference to the following examples. It should be understood that the following examples are illustrative only and are not intended to limit the scope of the present invention.

Example 1

Fig. 1 is a schematic structural diagram of the present invention. Fig. 2 is a schematic structural diagram of the lamp body light intensity controller of the present invention.

As shown in fig. 1, an adaptive dimming intelligent beacon light includes: the automatic identification system comprises an AIS radome 100, a transparent lampshade 200, a lamp holder structure 300, a cable interface 400 and a lamp body 500, wherein the AIS radome 100 is connected with the upper part of the transparent lampshade 200, the lamp holder structure 300 is connected with the lower part of the transparent lampshade 200, the cable interface 400 is connected with one side of the lamp holder structure 300, the lamp body 500 is connected with the upper part of the lamp holder structure 300, and the lamp body 500 is arranged inside the AIS radome 100 and the transparent lampshade 200;

wherein, the lamp body 500 includes: built-in antenna 510 of AIS, AIS mainboard 520, lamp ware mainboard 530, LED light source circle 540 and lamp body luminous intensity controller 550, the built-in antenna 510 lower extreme of AIS passes transparent lamp shade 200 and is connected with AIS mainboard 520, AIS mainboard 520 lower extreme is connected with lamp ware mainboard 530, LED light source circle 540 is connected with lamp ware mainboard 530 lower extreme, LED light source circle 540 is connected with lamp stand structure 300 upper end, lamp body luminous intensity controller 550 is connected with lamp ware mainboard 530.

The lamp socket structure 300 includes: the lamp holder 310, the installation bottom plate 320 and the bolt assembly 330, the installation bottom plate 320 is connected with the lower portion of the lamp holder 310, the installation bottom plate 320 is connected with the field installation platform through the bolt assembly 330, and the lamp holder 310 is made of aluminum alloy materials.

As shown in fig. 2, the lamp light intensity controller 550 includes: the LED light source comprises an AIS signal receiver 551, a signal decoder 552, a light intensity controller 553, a daylight controller 554, a coding controller 555 and a power controller 556, wherein the AIS signal receiver 551 is connected with the signal decoder 552, the signal decoder 552 is connected with the light intensity controller 553, the daylight controller 554, the coding controller 555 and the power controller 556, and the light intensity controller 553, the daylight controller 554, the coding controller 555 and the power controller 556 are connected with the LED light source coil 540.

The working principle of the utility model is that an AIS (automatic identification system) module and a lamp body light intensity controller 550 are configured on the beacon light. At night, when a ship approaches, the lamp body 500 receives an onboard AIS signal, and the lamp body light intensity controller 550 automatically analyzes the size of the ship and approaching or leaving information, and then sends corresponding light intensity aiming at the ship and keeps the position of the ship leaving the beacon light. The light intensity of the light can be divided into three grades of strong, medium and weak, the light can emit light according to the requirements of small ships at ordinary times, and when medium and large ships approach, the light intensity of the light is improved, so that the large ships have priority and the medium ships have the next priority. After the medium and large ships are driven away, the light emission of the small ships is recovered. The utility model discloses an add AIS module and lamp body luminous intensity controller on the beacon light, realize the intelligent boats and ships size of process of differentiating, it still drives away from to approach, satisfy the navigation light intensity needs of various big small-size boats and ships, simultaneously under the prerequisite of safety, save the valuable beacon energy, the life of extension beacon light source, especially more at small-size boats and ships, big and middle-sized boats and ships are less sea area, energy-conserving effect is very obvious, beacon light life can be prolonged greatly, the maintenance volume is reduced simultaneously.

The above description has been made of the embodiments of the present invention, but the present invention is not limited thereto, and various changes may be made without departing from the spirit of the present invention.

Claims (3)

1. An intelligent adaptive dimming beacon light, comprising: the automatic antenna system comprises an AIS antenna housing (100), a transparent lampshade (200), a lamp holder structure (300), a cable interface (400) and a lamp body (500), wherein the AIS antenna housing (100) is connected with the upper part of the transparent lampshade (200), the lamp holder structure (300) is connected with the lower part of the transparent lampshade (200), the cable interface (400) is connected with one side of the lamp holder structure (300), the lamp body (500) is connected with the upper part of the lamp holder structure (300), and the lamp body (500) is arranged inside the AIS antenna housing (100) and the transparent lampshade (200);

wherein the lamp body (500) includes: AIS built-in antenna (510), AIS mainboard (520), lamp mainboard (530), LED light source circle (540) and lamp body light intensity controller (550), AIS built-in antenna (510) lower extreme passes transparent lamp shade (200) and is connected with AIS mainboard (520), AIS mainboard (520) lower extreme is connected with lamp mainboard (530), LED light source circle (540) is connected with lamp body mainboard (530) lower extreme, LED light source circle (540) is connected with lamp structure (300) upper end, lamp body light intensity controller (550) is connected with lamp body mainboard (530).

2. An adaptive dimming intelligent beacon light according to claim 1, wherein: the lamp holder structure (300) comprises: the lamp holder comprises a lamp holder (310), an installation bottom plate (320) and a bolt assembly (330), wherein the installation bottom plate (320) is connected with the lower portion of the lamp holder (310), the installation bottom plate (320) is connected with an on-site installation platform through the bolt assembly (330), and the lamp holder (310) is made of an aluminum alloy material.

3. An adaptive dimming intelligent beacon light according to claim 1, wherein: the lamp light intensity controller (550) includes: the LED light source device comprises an AIS signal receiver (551), a signal decoder (552), a light intensity controller (553), a daylight controller (554), a coding controller (555) and a power controller (556), wherein the AIS signal receiver (551) is connected with the signal decoder (552), the signal decoder (552) is connected with the light intensity controller (553), the daylight controller (554), the coding controller (555) and the power controller (556), and the light intensity controller (553), the daylight controller (554), the coding controller (555) and the power controller (556) are connected with the LED light source ring (540).

Images