KR101284529B1 - Micro led lighting device with wind power - Google Patents

Abstract

PURPOSE: A small LED lighting device using wind power is provided to improve aesthetic sense by differentiating colors according to wind speed. CONSTITUTION: An AC generator makes a rotary shaft protrude to the outside. A blade (600) is fixed to the rotary shaft. Two or more LEDs (500,510) are built in a main housing. A bearing (300) rotates the main housing. A drain is formed in the main housing downwardly.

Description

Miniature LED lighting device using wind power {MICRO LED LIGHTING DEVICE WITH WIND POWER}

The present invention relates to a small LED lighting apparatus using wind power, and more particularly, a small LED lighting using the wind power to increase the utilization as outdoor decorative lighting or decoration that can visually express the wind by changing the color of the light according to the wind speed. Relates to a device.

As the formative arts are developed, various lighting arts with the theme of lighting are being disclosed in various fields including parks, theme parks, and the like.

For example, to form letters, put lamps in them, and flow electricity to emit light of various colors to express beauty, or to install lamps on various shapes such as trees and mountains to emit aesthetics. Can be.

By the way, the lamps, that is, the lamps provided in such a molding or installation art can emit light only when the power is supplied through a separate power supply, thus providing an unsightly appearance in connection with wiring, costly, and waste of energy. There is a disadvantage that causes.

Meanwhile, as low-carbon green growth becomes a topic of national policy, the development of related technologies to overcome the crisis of environmental change caused by exhaustion of fossil energy and global warming and to support green environment and green energy policy as national growth engines One of them is a power generation system using solar power and wind power generation. Up to now, Korea has focused mainly on the development of medium and large-sized power generation systems. In the direction of small power generation system, interest and development continue, and efforts to save energy by incorporating this into the technology of lighting streetlights have been initiated.

As an example, there may be exemplified Patent Publication No. 20081300793, Patent Publication No. 2012-0001046, and the like, including Patent No. 1081323 using LEDs capable of driving low power.

However, these start-up technologies are structurally complex, expensive to manufacture because they combine both wind and solar light, and are far from installation or plastic arts. Although it may be suitable as a next-generation environmentally friendly energy source in a specific field, it may be difficult to apply to the field to which the present invention belongs, and there is a small possibility of modification in structure, and thus the possibility of conversion is very weak. .

The present invention is to provide a new concept lighting device that can meet the requirements of miniaturized plastic art or installation art of the form most suitable for the field in consideration of the above-mentioned conditions in the prior art as described above and can pursue visual beauty. It was created for this purpose, and it can be used as a light source for outdoor installation art through self-luminous because it can be developed by using eco-friendly energy source such as simple and wind power. The main purpose is to provide an LED lighting device.

The present invention provides a means for achieving the above object, a main body housing in which two divided members are assembled to form a hollow housing of one asymmetrical elliptical shape; An alternator built into the main body housing and the rotating shaft protruding to the outside; A blade fixed to the rotating shaft and designed in a downwind manner; At least two LEDs mounted on a PCB designed to sequentially emit light according to the magnitude of the voltage generated by the alternator and embedded in a main body housing; A bearing embedded in the main body housing and inserted into a holder to guide rotation of the main body housing; It provides a compact LED lighting apparatus using wind power, characterized in that it comprises a; the drain is formed inclined downward in the body housing fixed to the bearing.

At this time, the LED has a different driving voltage, the circuit is designed to be wired opposite to each other to operate independently when the alternating +,-waveform of the alternating current generated during the generation of the alternator.

The blade may include a direction stabilizer extending from the center of the shaft to cause resistance to side winds, and a driving part formed at an end of the direction stabilizer to generate lift, wherein the pitch angle of the drive portion is the direction stabilizer. Is formed smaller than the pitch angle of; The bearing is also characterized in that it is installed eccentrically opposite the blade from the center of the body housing.

According to the present invention, it is possible to express the wind visually, to implement an eco-friendly sculpture capable of low-power drive, the color is changed according to the wind speed, excellent in the aesthetics, simple structure and easy installation, low-cost installation The effect of occupying a field as art is obtained.

1 is a conceptual diagram illustrating a compact LED lighting apparatus according to the present invention.
Figure 2 is an exemplary view showing an LED control example of a small LED lighting apparatus according to the present invention.
3 is an exemplary exploded perspective view of a compact LED lighting apparatus according to the present invention.
Figure 4 is an exemplary partial cross-sectional view showing a combined state of the small LED lighting apparatus according to the present invention.
5 is an exemplary view showing an installation example of a small LED lighting apparatus according to the present invention.
6 is a conceptual view showing an application example of a small LED lighting apparatus according to the present invention.
Figure 7 is a sample experimental photograph for testing the feasibility of implementing a small LED lighting apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

First, as shown in FIG. 1, the small LED lighting apparatus according to the present invention is designed to obtain environmentally friendly energy using wind power through a blade of a downwind method.

This is because it is possible to miniaturize it because it does not need to have a tail vane, which is a directional safety device of the upwind method that is commonly used in wind.

In addition, the compact LED lighting apparatus according to the present invention can provide a higher aesthetics by having a blade and a body housing installed in order to obtain wind power have various aesthetics such as a plant shape or an animal shape. .

In addition, the compact LED lighting apparatus according to the present invention is configured to change the color according to the wind speed in consideration of the characteristics of the alternating current and the LED through the wind as shown in FIG.

For example, as a general method of connecting LEDs, there is a serial connection method and a parallel connection method. In the case of A of FIG. 2, the serial connection method is shown in FIG. 2, the light is turned on in a section but is not turned on in a section in which the magnet rotates the other half. In case of B, as in the case of series connection, there is a disadvantage that it does not light up in section ②.

At this time, if one pole of the LED is connected in reverse as shown in C of FIG. 2, the LED can be turned on even in the ② section, which can constitute an independent circuit by the change of the AC waveform by using the current whose pole is changed in the ② section. Allows you to connect LEDs with different voltages.

Using this characteristic, the voltage of the generator changes as the wind speed increases, so the wind speed can be expressed in more various colors by using two-color LEDs with different operating voltages.

For example, when a red LED and a blue LED having different operating voltages are connected according to the present invention, if 2V of electricity is generated at a wind speed of 1 m / s, only the red LED is lit and the blue LED is not turned on, but the wind speed is gradually increased to increase the voltage. As the blue LED shines slowly and the two LEDs emit bright light when it reaches 3.2V, the sequential color change appears in the overlapping areas of the lights, so the circuit using the characteristics of alternating current and LED characteristics is applied. It is possible to realize a lighting that changes color depending on the wind speed.

In this case, the connection method of the LED is the most preferred hybrid connection form, but it is not possible that the serial connection or parallel connection itself is not implemented, and if the efficiency is not considered, these connection methods can also be fully implemented.

Based on the above-described concept will be described in more detail with respect to the present invention small LED lighting apparatus shown in Figs.

As shown in Figures 3 to 5, the compact LED lighting apparatus according to the present invention includes a body housing (100).

The main body housing 100 is a hollow member having an approximately asymmetrical oval shape, and the two divided parts are configured to bolt or screw to each other to form one housing.

To this end, the boss 110 is projected on the inner surface of the divided one side member of the main body housing 100, and the fastening hole 120 is formed on the opposite partition member opposite to the boss 110 so as to be bolted or screwed. do.

Therefore, although not shown, when the bolt or screw, which is a fastening member, is inserted into the fastening hole 120 and then fastened to the boss 110, the two divided members are combined to form one main body housing 100. .

In addition, the rear end of the main body housing 100, that is, the rotating shaft hole 130 is inserted into the rotating shaft 210 is formed in the larger curvature of the asymmetric ellipse, and also a plurality of ribs 140 inside the main body housing 100 ) Are configured to fix parts embedded and protruded integrally with the main body housing 100.

In this case, the parts are preferably provided in the form of being engaged between the plurality of ribs (140).

As an example, there may be mentioned an alternator 200 having the rotating shaft 210 and a bearing 300 and a PCB 400 for rotatably supporting the body housing 100.

At this time, the alternator 200 is a means for producing a current by the wind, the bearing 300 is a means for guiding the main housing 100 can be freely rotated in the wind blowing direction, the PCB 400 ) Is a means by which a circuit for lighting the LEDs 500 and 510 described above with reference to FIG. 2 is designed.

In addition, the rotating shaft 210 penetrates the rotating shaft hole 130 to protrude to the outside of the main housing 100, and the blade 600 designed in the downwind manner is assembled to the protruding portion.

In this case, the blade 600 may be shaped like a leaf or a petal away from a simple shape, as in the example of FIG. 4, so that the blade 600 should not simply be shaped but sufficiently bear the air passing in consideration of an aerodynamic part. Should be implemented.

To this end, the blade 600 is composed of a direction stabilizer 610 to increase the resistance to the side wind to achieve a large pitch angle with respect to the rotation direction, and a drive unit 620 that actually generates a lift through the wind, The driving unit 620 should be designed to have a smaller pitch angle toward the end.

On the other hand, the main body housing 100 is preferably formed of a transparent body, and the PCB 400 should be manufactured to a minimum size because it must be a structure that can ensure the maximum empty space inside so that light is sufficiently diffused.

Through this, two color mixing may occur smoothly in the main body housing 100.

In addition, two LEDs 500 and 510 driven at different voltages may be provided in the PCB 400, for example, 2V and 3V.

In general, since the LEDs 500 and 510 allow current to flow in only one direction, electricity of an opposite waveform of alternating current generated when only one is connected is discarded. However, wiring LEDs 500 and 510 with different voltages to each other reversely allows all of them to be used when alternating + and-are generated when the generator rotates, and virtually each LED 500 and 510 operates independently.

That is, the 2V LED 500 is turned on when the power is generated at a low voltage, and when the wind is stronger, the 3V LED is structured to be turned on together when the power generation voltage is higher.

In addition, it is particularly preferable that a sufficient inclination is provided around the ribs 140 in the main body housing 100 in which the bearing 300 is installed so as to drain quickly even if rainwater is introduced in rainy weather to prevent malfunction due to rainwater. .

In addition, it is more preferable that the bearing 300 is installed at an eccentric position from the center of the main body housing 100 so that the blade 600 can be rotated even more smoothly according to the wind direction.

Small LED lighting apparatus using the wind power according to the present invention having such a configuration can be installed in a plurality of spaced up and down space using the rubber ring 710 on the cradle 700 as shown in FIG. It is also possible to form one sculpture in the form.

Furthermore, in order to confirm the feasibility of implementing a small LED lighting device using wind power according to the present invention, after making a model in the form as shown in FIG. Could be achieved.

Through this, it was confirmed that a small LED lighting device using wind power according to the present invention can be sufficiently utilized as a field of molding art or outdoor installation art.

100: main body housing 200: alternator
300: Bearing 400: PCB
500,510: LED 600: Blade
700: cradle

Claims (3)

A main body housing in which two divided members are assembled to form a hollow housing in one asymmetrical elliptical shape;
An alternator built into the main body housing and the rotating shaft protruding to the outside;
A blade fixed to the rotating shaft and designed in a downwind manner;
At least two LEDs mounted on a PCB designed to sequentially emit light according to the magnitude of the voltage generated by the alternator and embedded in a main body housing;
A bearing embedded in the main body housing and inserted into a holder to guide rotation of the main body housing;
Small-size LED lighting apparatus using a wind power, characterized in that it comprises a; the drain is formed inclined downward in the body housing fixed to the bearing.
The method according to claim 1;
Wherein the LED has a different driving voltage, a small LED lighting device using the wind is characterized in that the circuit is designed to be wired opposite to each other to operate independently when the alternating +,-waveform of the alternating current generated during the generation of the alternator.
The method according to claim 1;
The blade may include a direction stabilizer extending from the center of the shaft to cause resistance to side winds, and a driving unit formed at an end of the direction stabilizer to generate lift, wherein the pitch angle of the drive unit is the pitch of the direction stabilizer. Smaller than each;
The bearing is a small LED lighting device using the wind, characterized in that the eccentrically installed opposite the blade from the center of the body housing.

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