WO2016154881A1 - Horizontal 360-degree led warning signal lamp - Google Patents

Abstract

Disclosed is a horizontal 360-degree LED warning signal lamp, comprising a cover body (1), a solar power generation module (2), a wind-driven power generation module (3), a storage battery (4), a single chip microcomputer (5), an optical sensor (6) and LED lamps (7). The single chip microcomputer (5) and the storage battery (4) are installed in the cover body (1), the solar power generation module (2) is installed at the upper end of the cover body (1), the solar power generation module (2) is connected to the storage battery (4), and the storage battery (4) is connected to the single chip microcomputer (5). The wind-driven power generation module (3) is installed at the lower end of the cover body (1), and the wind-driven power generation module (3) is connected to the storage battery (4). The optical sensor (6) is installed in the cover body (1), and the optical sensor (6) is connected to the single chip microcomputer (5). The LED lamps (7) are installed on the periphery of the cover body (1), the LED lamps (7) are connected to the single chip microcomputer (5), and the single chip microcomputer (5) controls working states of the LED lamps (7) according to the intensity of ambient light recognized by the optical sensor (6). Power is supplied to LED lamps by means of solar energy and wind energy, ambient light can be recognized automatically so as to control working states of the LED lamps, and functions can be switched by a manual switch or a remote control switch.

Description

Horizontal 360 degree LED warning signal light Technical field

The invention relates to a horizontal 360 degree LED warning signal lamp, which is suitable for the scenes of ships, docks and the like to indicate position, navigation signal, help and illumination.

Background technique

When marine mobile equipment such as ships are operating at sea, due to the complexity of the operational conditions at sea, it is necessary to position the ship, etc., in order to avoid accidents, or to locate the time and win the rescue time in case of an accident. Therefore, it is usually required on the ship. Install warning lights and navigation lights. At the same time, when the ship docks at the dock, it is necessary to find the location of the dock accurately. Therefore, it is usually necessary to install warning lights on the docks, and warning lights should be installed on the marine fishing rafts and high-rise towers.

In the prior art, the warning light is usually powered by a battery, and the power supply is difficult to sustain. Publication No. CN203464132U discloses a marine liferaft warning light, which comprises a base, a hexagonal prism, an LED lamp, a controller, a vibration generator, a solar power panel, a wind power generator and a fixing hole, and the base is sequentially provided with a hexagonal prism, The controller and the vibration generator are equipped with a wind power generator on the hexagonal prism, a solar power generation board is mounted on the wind power generator, a plurality of LED lights are mounted on the side wall of the hexagonal prism, and the LED light is connected to the controller through the wire, and the hexagonal prism The battery is internally installed, and the battery is connected to the controller, the vibration generator, the solar power board, and the wind power generator through wires.

The marine life raft warning light uses a vibration generator, a solar power panel and a wind power generator to supply power to the LED lamp. However, the solar power generation panel and the wind power generator have an unreasonable layout, generating insufficient electric energy, and the LED light warning is not obvious. And the light cannot be indicated at 360 degrees in all directions.

Summary of the invention

The object of the present invention is to provide a horizontal 360 degree LED warning signal lamp, which uses solar energy and wind energy to supply power to the LED lamp, and can automatically recognize the ambient light to control the working state of the LED lamp and meet various marine use requirements through switching of different functions.

To achieve the above object, the solution of the present invention is:

A horizontal 360 degree LED warning signal lamp comprises a cover body, a solar power generation module, a wind power generation module, a battery, a single chip microcomputer, a light sensor and an LED lamp; the single chip and the battery are installed in the cover body, and the solar power generation module is installed at the upper end of the cover body, the solar energy The power generation module is connected to the battery, the battery is connected with the single chip microcomputer; the wind power generation module is installed at the lower end of the cover body, the wind power generation module is connected with the battery; the light sensor is installed in the cover body, the light sensor is connected with the single chip; the LED lamp is installed around the cover body, and the LED is installed The lamp is connected with the single chip microcomputer, and the single chip microcomputer controls the working state of the LED lamp according to the ambient light intensity recognized by the light sensor.

Further, the cover body is arranged in a circular shape, and the LED lamp is mounted on the circumference of the cover body, and a 360-degree condensing convex lens is arranged around the upper portion of the cover body.

Further, the solar power generation module is disposed in a horizontal direction, and the wind power generation module is disposed in a vertical direction.

Further, the wind power generation module includes a motor and a fan blade, and the motor is installed in the cover body, and the fan blade is located at the lower end of the cover body and is mounted on the rotating shaft of the motor.

Further, a wind guide rail is disposed at a lower end of the cover body, and the wind blade is located in the wind guide guard rail.

Further, the wind guide rail is composed of an upper frame body, a lower frame body and an air guiding plate disposed between the upper frame body and the lower frame body, and an air guiding channel is formed between the air guiding plates.

Further, the blades are arranged in an arc shape.

Further, a fixed mounting bracket is disposed at a lower end of the cover body.

Further, a switch for manually switching the function is installed at the lower end of the cover, and the switch is connected to the single chip microcomputer.

Further, the wireless signal receiving module is further included, and the wireless signal receiving module is connected to the single chip microcomputer.

After adopting the above solution, the solar power generation module of the invention is installed at the upper end of the cover body, so that the solar power generation module fully receives sunlight, converts more light energy into electrical energy, and is stored by the battery, and the wind power generation module is installed at the lower end of the cover body, due to the cover body The blockage makes the wind speed larger, converts more wind energy into electrical energy, and is stored by the battery.

At the same time, the light sensor is installed in the cover body, and the single chip microcomputer controls the working state of the LED light according to the ambient light intensity recognized by the light sensor. The LED lamp is automatically adapted to the ambient light intensity to adjust the working state, and is automatically turned on and off to save power. The LED lamp is installed around the cover to ensure that the LED light is visible 360 degrees when working, and the positioning accuracy is increased. The 360-degree condensing convex lens is used to concentrate the light of the LED and improve the luminous intensity in a certain angle in the vertical direction.

The invention is suitable for indicating the position of a vessel and a wharf, navigation lights, distress and illumination at night or in low visibility weather. Therefore, the present invention includes the following functions:

1. Continuous flashing emits a horizontal 360 degree warning signal and can be controlled by the light sensor to automatically activate the LED when the light is weak.

2. Continuous flashing emits a horizontal 360 degree warning signal controlled by a switch or remote control.

3. Continuously emit horizontal 360 degree SOS distress signal controlled by switch or remote control.

4. Issue a horizontal 360-degree constant light signal for warning and illumination controlled by a switch or remote control.

5. The red, green and white (yellow) navigation signal is controlled by a switch or remote control.

6, according to warning and navigation signal requirements, choose red, yellow, green, blue and white LED free combination, use monochrome or mixed colors.

7, wireless remote control module includes infrared remote control, high frequency RF remote control, Bluetooth remote control.

DRAWINGS

Figure 1 is an exploded perspective view of the present invention;

2 is a schematic perspective view of the present invention;

3 is a schematic perspective view of another perspective of the present invention;

Figure 4 is a cross-sectional view of the present invention;

Figure 5 is a schematic view showing the installation of the present invention;

Figure 6 is a block diagram showing the working principle of the present invention.

Label description

Cover body 1 upper cover 11

Lower cover 12 switch 13

Solar power generation module 2 wind power generation module 3

Motor 31 fan blade 32

Windshield guardrail 33 upper frame 331

Lower frame body 332 air deflector 333

Battery 4 MCU 5

Light sensor 6LED light 7

Mounting bracket 8

detailed description

The invention will be described in detail below with reference to the drawings and specific embodiments.

Referring to FIG. 1 to FIG. 4 , a horizontal 360 degree LED warning signal lamp includes a cover body 1 , a solar power generation module 2 , a wind power generation module 3 , a battery 4 , a single chip microcomputer 5 , a light sensor 6 , and an LED lamp 7 . .

The single chip microcomputer 5 and the battery 4 are mounted in the cover body 1, and the cover body 1 is composed of an upper cover body 11 and a lower cover body 12.

The solar power generation module 2 is mounted on the upper end of the cover body 1, specifically the upper end of the upper cover body 11, the solar power generation module 2 is connected to the battery 4, and the battery 4 is connected to the single chip microcomputer 5. The solar power generation module 2 converts light energy into electrical energy and charges the battery 4.

The wind power generation module 3 is mounted on the lower end of the cover body 1, specifically the lower end of the lower cover body 12, and the wind power generation module 3 is connected to the battery 4. The wind power generation module 3 converts wind energy into electrical energy and charges the battery 4.

The solar power generation module 2 and the wind power generation module 3 operate independently of each other, and respectively charge the battery 4. The battery 4 has a protective circuit board that automatically opens the protection of the battery 4 in the event of overshoot, overdischarge or short circuit.

In this embodiment, the wind power generation module 3 includes a motor 31 and a fan blade 32. The motor 31 is mounted in the cover body 1. The fan blade 32 is located at the lower end of the cover body 1 and is mounted on the rotating shaft of the motor 31. The wind blows the blades 32 to rotate, and drives the motor 31 to generate electricity to charge the battery 4.

In order to increase the wind speed and protect the wind blade 32, a wind deflector 33 is disposed at the lower end of the cover body 1, and the wind blade 32 is located in the wind guide rail 33. Specifically, the wind guide rail 33 is composed of an upper frame body 331, a lower frame body 332, and a wind deflector 333 disposed between the upper frame body 331 and the lower frame body 332, and an air guiding passage is formed between the air guiding plates 333. At the same time, the blades 32 are arranged in an arc shape to facilitate the wind energy to rotate the blades 32.

The light sensor 6 is mounted in the cover body 1, the light sensor 6 is connected to the single chip microcomputer 5; the LED lamp 7 is mounted around the cover body 1, the LED lamp 7 is connected with the single chip microcomputer 5, and the single chip microcomputer 5 controls the LED according to the ambient light intensity recognized by the light sensor 6. The working state of the lamp 7. The LED lamp is automatically adapted to the ambient light intensity to adjust the working state, and is automatically turned on and off to save power.

Turn on the power switch, the battery 4 provides power to the single-chip microcomputer 5 and enters the first-speed working mode. When the light sensor 6 senses that the light becomes strong to the set value, it outputs a high-level signal to the single-chip microcomputer 5, and the single-chip microcomputer 5 outputs the signal to control the LED. The lamp 7 does not work. Conversely, when the light sensor 6 senses that the light is weakened to a set value, a low level signal is output to the single chip microcomputer 5, and the single chip microcomputer 5 controls the LED lamp 7 to start operating according to the set working mode.

The cover body 1 is arranged in a circular shape, and the LED lamp 7 is mounted on the circumference of the cover body 1 to ensure that the horizontal direction of the LED lamp is 360 degrees, and the positioning accuracy is increased. The upper part of the cover is surrounded by a 360-degree condensing convex lens. The 360-degree condensing convex lens concentrates the light of the LED and improves the luminous intensity at a certain angle in the vertical direction.

In this embodiment, the solar power generation module 2 is disposed in a horizontal direction, and the wind power generation module 3 is disposed in a vertical direction. The solar power generation module 2 is disposed in a horizontal direction such that the solar power generation module 2 sufficiently receives sunlight, converts more light energy into electrical energy, and is stored by the battery 4, and the wind power generation module 3 is disposed in a vertical direction, and the wind speed is blocked by the cover 1 Larger, more wind energy is converted into electrical energy and stored by the battery 4.

The lower end of the cover body 1 is provided with a fixed mounting bracket 8 for convenient installation. At the same time, a switch 13 for manual switching is mounted at the lower end of the cover 1, and the changeover switch 13 is connected to the single chip microcomputer 4. The invention also has a wireless signal receiving module (not shown), and the wireless signal receiving module is connected with the single chip microcomputer. When the single chip detects the wireless remote control signal, the product function is switched, and the function and the manual button switching function have no influence at the same time. Control the product to switch functions. The function switching of the present invention can be switched by manual switch or wireless remote control switch. As shown in FIG. 6, pressing the function switch 13 or using the wireless remote control causes the single chip microcomputer 5 to enter different function files, and controls the LED lamp 7 to operate in different modes, such as uninterrupted single flash, illumination white light, and SOS alarm mode.

As shown in Fig. 5, when the present invention is installed, it is usually mounted on the outer side rail 10 provided by the ship or the dock, and then the two pipe clamps 20 are mounted on the outer side rail 10 by means of screws, and the mounting bracket 8 is fixedly mounted on the pipe clamp 20 .

The above description is only a preferred embodiment of the present invention, and is not a limitation on the design of the present invention. Any equivalent changes made according to the design key of the present case fall within the scope of protection of the present case.

Claims (10)

1. A horizontal 360 degree LED warning signal lamp, comprising: a cover body, a solar power generation module, a wind power generation module, a battery, a single chip microcomputer, a light sensor and an LED lamp; the single chip and the battery are installed in the cover body, and the solar power generation module is installed. At the upper end of the cover body, the solar power generation module is connected with the battery, the battery is connected with the single chip microcomputer; the wind power generation module is installed at the lower end of the cover body, the wind power generation module is connected with the battery; the light sensor is installed in the cover body, the light sensor is connected with the single chip; the LED light is installed Around the cover body, the LED light is connected with the single chip microcomputer, and the single chip microcomputer controls the working state of the LED light according to the ambient light intensity recognized by the light sensor. 2. A horizontal 360 degree LED warning signal lamp as claimed in claim 1, wherein the cover body is arranged in a circular shape, the LED lamp is mounted on the circumference of the cover body, and the upper portion of the cover body is surrounded by a 360-degree condensing convex lens. 3. A horizontal 360 degree LED warning signal lamp as claimed in claim 1, wherein the solar power generation module is arranged in a horizontal direction and the wind power generation module is arranged in a vertical direction. 4. A horizontal 360 degree LED warning signal lamp as claimed in claim 1, wherein the wind power generation module comprises a motor and a fan blade, the motor is mounted in the cover body, and the fan blade is located at the lower end of the cover body and is mounted on the shaft of the motor. on. The horizontal 360-degree LED warning signal lamp of claim 4, wherein the lower end of the cover body is provided with a wind guide guardrail, and the wind blade is located in the wind guide guard rail. A horizontal 360-degree LED warning signal lamp as claimed in claim 5, wherein the wind guide guardrail is composed of an upper frame body, a lower frame body and an air guiding plate disposed between the upper frame body and the lower frame body. Wind guiding channels are formed between the wind plates. 7. A horizontal 360 degree LED warning signal lamp as claimed in claim 4, wherein the vanes are arranged in an arc shape. 8. A horizontal 360 degree LED warning signal lamp as claimed in claim 1, characterized in that the lower end of the cover body is provided with a fixed mounting bracket. 9. A horizontal 360 degree LED warning signal lamp as claimed in claim 1, characterized in that a switch for manual switching is mounted at the lower end of the cover, and the switch is connected to the single chip microcomputer. 10. A horizontal 360 degree LED warning signal lamp as claimed in claim 1, further comprising a wireless signal receiving module, the wireless signal receiving module being coupled to the single chip microcomputer.