KR20130002787A - A route indication - Google Patents

Abstract

PURPOSE: An LED lighthouse lantern with a backup function and an operating method thereof are provided to use a backup light source when the main light source is malfunctioned by simultaneously forming the main light source and the backup light source for a lighthouse lantern. CONSTITUTION: An LED lighthouse lantern with a backup function comprises a lower lamp(10) and an upper lamp(20). A control unit for controlling an LED module(40) and a power supply unit are installed inside the lower lamp. The upper lamp is capable of folding and is arranged above the lower lamp. A lens cover(30) is mounted on the upper lamp. An LED light installation rod(21) for installing an LED module is formed in the inner center of the lens cover. A backup LED module is mounted above the LED light installation rod. When a main LED(41) is malfunctioned, the backup LED is operated to guide the sailing route for a ship.

Description

A route indication with reserve function

The present invention relates to an LED indicator for route display, in particular, having a preliminary function in one lamp, even if the main light source LED is turned off so that the preliminary light source LED is operated so that the installation operation is easy and displays the maritime route of the ship. It is to prevent marine safety accidents.

In general, the sea route indicator lamp generates high brightness such as a buoy installed on the sea, so that when the day is cloudy or fog, or at night, the light generated by the ship's route marker at sea is used for safe operation. It is used as a judo light to induce return to port.

These light emitters use a lot of distinguishable LEDs in order to be able to emit high brightness light with a long life and low power consumption in recent years.

The structure of the conventional LED lamp is an LED module in which the upper lamp is folded by the hinge means in the lower lamp so that the installation and repair is excellent, and the LED module of the upper lamp is arranged integrally on a circular substrate. The sieve is installed in one or multiple stages, and the light generated by the LED module body passes through the lens to generate light at 360 ° horizontally.

However, such LED lamps are not able to operate the ship safely in case of damage caused by various conditions such as weather conditions, so that rapid maintenance is performed, but such maintenance work is not performed properly, causing marine safety accidents. Will be done.

In addition, in case of a lighthouse, it is possible to install a preliminary lampholder, but it is difficult to install due to the small space to install a separate lampholder on the lamp list, and such a lampholder is very expensive. Will be.

In addition, the conventional LED lamp is to install the solar, battery, discharge controller, etc. separately to the outside of the lamp to supply power, which takes a lot of installation time and costs according to the installation of the lamp There is a problem.

Therefore, the present invention is to prevent the marine safety accidents caused by the operation of the ship route and anchoring the port by detecting the main light source LED is turned off in one LED lamp to turn on the preliminary light source LED.

For this purpose, the lower and upper lamps are foldable to facilitate maintenance, and a Fresnel lens for condensing the light of the LED light source emitted to the upper lamp is mounted, and the main light source LED is mounted to the inside where the lens is mounted. When the main light source LED is mounted on the upper part of the main light source LED and a separate condenser lens, the light source is normally emitted from the main light source LED, and when the power is cut off, the sensing unit in the control panel detects this and immediately the preliminary light source LED supplies power. By doing so, the preliminary light source LED is emitted.

Therefore, the present invention is to form a main light source and a preliminary light source in one lamp at the same time, even if the main light source is inoperable by a number of conditions, it detects this, and the preliminary light source immediately emits a light source, the maritime safety according to the guidance of the ship route The accident can be prevented and at the same time, it is inexpensive and easy to install.

1 is an external perspective view of the LED lamp of the present invention.
2 is a cross-sectional view of the main light source and the auxiliary light source of the LED lamp of the present invention.
Figure 3 is a cross-sectional view of the operating state of the LED lamp of the present invention.
Figure 4 is a cross-sectional view showing the laminated state of the LED brightener of the present invention.
Figure 5 shows the operating state of the LED brightener of the present invention
6 is a perspective view of another embodiment for power supply of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

As shown in Figures 1 to 6, the LED lamp of the present invention is hinged with the lower body 10 and the lower body 10 mounted therein the control means for controlling the LED module (40, 42) The LED heat-dissipation rods 21 are formed by the upper body 20 that is folded by the means 11 and the LED heat-dissipation rods 21 on which the LED modules 40 and 42 are installed inside the upper body 20. 21) the main light source LED module 40, in which the high brightness main light source LED 41 is installed, and the preliminary light source LED module 42 in which the preliminary light source LED 43 is installed on the upper side thereof, are synchronously flashed upward. The GPS receiver (GPS) is mounted so that the lens cover 30 having the Fresnel lens 31 for condensing the light sources emitted from the LEDs 41 and 43 is fixedly coupled to the upper lamp 20. .

In this case, the lower lamp 10 and the upper lamp 20 are folded by the hinge 11 to facilitate maintenance in case of breakage.

At this time, the Fresnel lens 31 formed in the lens cover 30 is formed symmetrically consisting of a plurality of multi-stage upper and lower centered around the center and a flat extension surface 32 to the upper portion of the Fresnel lens 31 The main light source LED 41 is positioned inside the lens cover 30 in which the Fresnel lens 31 is formed, and serves as a preliminary lighter inside the lens cover 30 of the flat extension surface 32. The preliminary light source LED 43 and the condenser lens 50 are positioned.

This is because the light source emitted from the main light source LED 41 is transmitted through the Fresnel lens 31 to be refracted and irradiated, thereby condensing the light source as 360 ° horizontal light.

In addition, in order to enlarge the divergence of the preliminary light source LED 43 positioned on the flat extension surface 32 of the Fresnel lens 31, the condenser lens 50 on the wheel is installed inside the lens cover 30, At this time, the installation of the condensing lens 50 on the wheel is provided with an upper plate 51 and a lower plate 52 at the upper end of the LED heat dissipation mounting rod 21 on which the main light source LED module 40 is installed, and the upper plate 51 and the lower plate. An auxiliary LED heat dissipation mounting rod 21a on which the condensing lens 50 and the preliminary light source LED module 42 are mounted is provided between the wheels 52, and the upper plate 51 and the lower plate 52 are respectively mounted. An addition is formed that the secondary LED heat dissipation installation rod (21a) is fitted into the mounting portion.

Therefore, the light source generated by the preliminary light source LED 43 is able to condense and diverge the light source through the condenser lens 50.

At this time, the LED heat dissipation installation rod 21 is to dissipate heat generated from the LED to prevent damage to the LED, and is mounted on the inside of the lower body by the LED module (40, 42) installed in the LED heat dissipation installation rod 43 Power is supplied through the control unit.

In addition, by installing a GPS receiver (GPS) for the LED flashing on the upper side of the LED heat installation rod 43 is to enable the ship to safely and quickly select the route.

In addition, the lid 33 is integrally formed on the upper side of the lens cover 30, and the lens cover 30 and the cover 33 are formed, respectively. To achieve the purpose, the bird seat preventive rod 33 is formed so that the bird does not sit on the cover (33).

In addition, the stacking frame 35 is formed so that the lens cover 30 having the Fresnel lens 31 and the LED heat dissipation installation rod 43 having the LED modules 40 and 42 mounted therein can be stacked in multiple stages. It is possible to install in a stable laminated form using such a stacked type does not limit the purpose of the present invention.

At this time, when using the LED lamp, the operation circuit diagram for the operation of the main light source LED 41 and the preliminary light source LED 43 is as follows.

Firstly instructing the control unit to supply power to generate a driving command to operate the main light source LED 41 (S101);

A switching unit for receiving the driving command of the control unit to confirm and switch switching to operate the selected main light source LED (S102);

The main light source LED module 40 driving the main light source LED 41 selected by the switching unit (S103, S104);

The sensing unit checks the current consumption of the main light source LED module 40 or the main light source LED 41, and generates sensing information and reports the result to the control unit (S105).

When the main light source LED 41 is not operated and the preliminary light source LED 43 is operated,

If the control unit checks the sensing information applied through the sensing unit and determines that the main light source LED 41 does not operate normally, generating an emergency driving command to instruct the operation of the preliminary light source LED 43 (S101); ;

(S102) operating the selected preliminary light source LED (43) by checking the switching unit by receiving the emergency driving command of the control unit and switching the switching unit;

The preliminary light source LED module 42 operates by switching the selected preliminary light source LED 43 while switching by the switching unit (S106, S107).

Therefore, if the main light source LED 41 of the LED lighting machine does not operate according to the environmental conditions, it is immediately recognized and the preliminary light source LED 43 is operated to maintain the safe operation of the ship.

At this time, the LED lamp may be used to separately install the solar, battery charge, discharge controller on the outside in order to supply power, the panel for converting the solar light into power in the lower lamp 10 for the power supply ( 12) is attached to the surface of the lower lamp 10, and the battery is charged by the power supply through the panel 12 and the built-in charge and discharge controller to install the power supply to the LED lamp integrated. And to facilitate the installation and operation.

In addition, by installing the AtoN AIS to the inside of the lower body 10 to monitor and control the controller remotely, the various power status information and various marine weather information of the route sign in real time to the ship sailing around the operation center and surroundings It is possible to provide a safe operation to provide such a technique is commonly used as a known technique.

Therefore, as described above, the LED lamp of the present invention can be installed on both the lighthouse and the buoy by installing the main light source LED and the preliminary light source LED in one lamp and detects when the main light source LED becomes inoperable during use. By doing so, the preliminary light source LED is operated to safely guide the operation of the shelf.

10: lower body 11: hinge part
12: battery part
20: upper body 21: mounting rod
30: lens cover 31: Fresnel lens
32: extended side 33: cover
34: bird seat prevention bar 35: laminated frame
40: main light source LED module 41: main light source LED
42: reserve light LED module 43: reserve light LED
50: auxiliary lens 51: top plate
52: bottom plate
GPS: GPS Receiver

Claims (7)

Control means for controlling the LED module (40, 42) and the LED is mounted so that the upper body 20 is folded to the upper side of the lower body 10 and the lower body 10 mounted therein In the light emitting device, a lens cover 30 made of a lens body is mounted on the upper lamp body 20, and an LED heat dissipation installing rod 21 for installing an LED module is formed at the inner center of the lens cover 30. When the main light source LED module 40 of the high brightness is mounted to the heat dissipation installation rod 21 and the preliminary light source LED module 42 is mounted on the upper side thereof, the preliminary light source LED 43 operates when the main light source LED 41 is inoperable. Route indicator LED light register with a preliminary function, characterized in that to guide the ship's route safely. According to claim 1, Fresnel lens 31 consisting of a plurality of multi-stage upper and lower centered around the center of the lens cover 30 made of the lens body is formed and is flat to the top of the Fresnel lens 31 The main light source LED 41 is positioned inside the lens cover 30 on which the Fresnel lens 31 is formed, and the preliminary light source LED 43 is formed on the inside of which the flat extension surface 32 is formed. And a condenser lens 50 on a wheel for condensing the preliminary light source LED 43 to form a 360 ° horizontal light, condensing to maximize visibility. According to claim 1 or 2, wherein the lens cover 30 and the LED heat dissipation installation rods 21 mounted with the LED module (40, 42) is installed to the inner side of the lens cover 30 is laminated frame 35 A route indicator LED illuminator with a preliminary function, characterized in that it is stacked in multiple stages by using. According to claim 2, wherein the condensing lens 50 on the wheel is installed between the upper plate 51 and the lower plate 52 formed with a mounting portion to the upper end of the LED heat dissipation mounting rod 21 in which the main light source LED module 40 is installed. Featured route indicator LED lamp with preliminary features. The method of claim 1, wherein the operation of the main light source LED 41 and the preliminary light source LED 43 of the LED lamp lamp;
Instructing the control unit to receive power to generate a driving command to operate the main light source LED 41 (S101);
A switching unit for receiving the driving command of the control unit to confirm and switch switching to operate the selected main light source LED (S102);
Driving, by the main light source LED module 40, the main light source LED 41 selected by the switching unit (S103, S104);
Detecting unit is made of the step of checking the current consumption of the main light source LED module 40 or the main light source LED 41, generating the detection information and reporting to the control unit (S105),
If the control unit checks the sensing information applied through the sensing unit and determines that the main light source LED 41 does not operate normally, generating an emergency driving command to instruct the operation of the preliminary light source LED 43 (S101); ;
(S102) operating the selected preliminary light source LED (43) by checking the switching unit by receiving the emergency driving command of the control unit and switching the switching unit;
And the preliminary light source LED module (42) is operated by driving the selected preliminary light source LED (43) while switching switching by the switching unit (S106, S107). The solar cell of claim 1, wherein a panel 12 for converting sunlight into power is attached to the surface of the lower lamp 10, and the solar panel is charged with power through the panel 12. With the built-in battery, charge / discharge controller and AtoN AIS, it is possible to remotely monitor and control the power and control means while installing it. The method of claim 1, wherein the GPS receiver (GPS) for the synchronization flashing of the LED that the ship can select the route safely and quickly to the upper side of the LED heat-dissipation rods 21, the LED module 40, 42 is installed is installed Route indicator LED register with preliminary function.

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