KR200453268Y1 - Solar bollard - Google Patents

Abstract

The present invention enables solar power generation to be easily performed even in a weather where light is insufficient, and improves visibility to easily identify its location at night so that vehicles or pedestrians do not collide with the bollards. It is about.

The present invention has a steel column built with the lower part buried, a transparent cap which is covered on the upper side of the steel column, a solar panel located in the transparent cap, a charging controller connected to the lower portion of the solar panel, the charging connected to the charging controller Battery and a plurality of light emitting diodes mounted on the outer circumference of the transparent cap at equal intervals, and an optical sensor for detecting day and night, wherein the center of the transparent cap is composed of a convex lens, and the solar panel is disposed at the lower center of the transparent cap. It is located in the horizontal direction to concentrate the sunlight on the solar panel even in low light conditions and to perform continuous power generation during the day, and many light emitting diodes mounted on the outer periphery of the transparent cap, any light emitting diode adjacent to Each light emitting diode is rotated forward or reverse with the different light emitting diodes. It is configured to light up in sequence.

Description

Solar bollard {Solar bollard}

The present invention relates to a solar bollard, and more specifically, to facilitate the photovoltaic power generation even in low light weather conditions, and to improve visibility and easily identify its position at night so that vehicles or pedestrians do not collide with the bollard. It is intended to promote safety by avoiding it.

As is well known, bollard is a structure that is made of a certain three-dimensional structure to serve as a landmark of sidewalks and driveways or to prevent entry of vehicles into the sidewalk, and is usually composed of stone.

In conventional bollards, cylindrical stones are usually installed at the boundary between sidewalks and driveways. During the daytime, the bollard's location can be easily identified, but at night, the bollard's location is not easy to identify. There was a risk of colliding with a bollard.

Therefore, in consideration of safety issues at night, efforts were made to enhance discrimination by reflecting light irradiated toward the bollard by providing a light reflector on a part of the outer circumferential surface of the bollard, but the light is not actively emitted from the inside. D. It can only recognize its location when light is given from the outside, and when it is installed in a place where human or vehicle traffic is rare, the problem is caused by the bollard without such reflector.

In view of this, the solar cell is charged with electric power generated by solar power generation and discharged at night through light emitting diodes, etc., so that the position of the bollard can be easily identified from a vehicle or a person. Several bollards have been disclosed.

However, in the case of general solar bollard, the solar panel is structured to receive sunlight as it is, so that power generation can be performed smoothly only in good weather with abundant light. If the amount of light is insufficient, power generation is not possible because the power is not enough to supply a large number of light emitting diodes (LEDs) mounted on the bollard, there was a disadvantage that the light emitting diodes (LED) mounted radially to the bollard Because it blinks all at once, there was a disadvantage that the collision with the bollard could not be recognized at the moment of the bollard at night.

The present invention has been proposed in view of the above points, and it is possible to easily perform photovoltaic power generation even in low light weather, improve visibility, and easily identify the location at night so that a vehicle or a pedestrian does not collide with a bollard. It is to provide the solar bollard to promote safety.

In order to solve this problem, the present invention is to mount the solar panel in the upper center of the bollard in the horizontal direction, and to configure the cap is covered with a convex lens so that it can carry out continuous development even in low light weather, In the state in which the light emitting diodes mounted on the LEDs are configured differently, the LEDs are sequentially turned on in a predetermined direction to improve visibility.

The present invention has a solar panel mounted horizontally in the upper center of the bollard can continue to generate power during the day, no matter where the sun is located, the cap on the top of the solar panel consists of a convex lens Since it is possible to concentrate the solar light on the solar panel, there is an advantage that it can generate power even in low light conditions, and the light emitting diodes mounted on the bollard have different colors between adjacent ones. It is configured to be sequentially turned in the forward or reverse direction to ensure visibility, as a result it is possible to reliably recognize the position of the bollard to prevent the loyalty with the bollard.

Hereinafter, the present invention will be described in detail with reference to the embodiments presented.

1 is a cross-sectional view of the solar bollard according to the present invention, Figure 2 is a detailed cross-sectional view of the main portion of the solar bollard according to the present invention.

As shown, the solar bollard according to the present invention is located in the steel column (1), the bottom is embedded, the transparent cap (2) to be covered on the upper side of the steel column (1), the transparent cap (2) The solar panel 3, the charge controller 4 connected to the lower part of the solar panel 3, the rechargeable battery 5 connected to the charge controller 4, and the outer circumference of the transparent cap 2 at equal intervals It is composed of a plurality of light emitting diodes 6 mounted, and an optical sensor (not shown) for detecting day and night.

At this time, the central portion of the transparent cap (2) is composed of a convex lens (2a), the solar panel 3 is located in the horizontal direction in the lower center of the transparent cap (2) to provide sunlight even when the light is insufficient weather solar panels ( Concentrate on 2) to be able to carry out continuous development during the day.

In addition, as shown in the drawing, the plurality of light emitting diodes 6 are mounted on the outer circumference of the transparent cap 2, but the light emitting part is mounted in a state in which the part exposed to the outside of the transparent cap 2 is exposed. do. On the other hand, the arbitrary light emitting diodes 6 are arranged to have a different color from the other light emitting diodes 6 adjacent to each other, and each light emitting diode 6 is configured to sequentially light in the forward or reverse rotation direction. In particular, a lampshade 2b for controlling the light emitting diode 6 not to be upward in the direction of the light emitted when the light is emitted from the light emitting diode 6 has a light emitting diode 6 in the circumference of the side surface of the transparent cap 2 as shown in the drawing. ) Is formed in a protruding shape on the upper section where the) is located.

In this configuration, the solar panel 3 is installed horizontally in the center of the bollard, so that continuous development can be achieved regardless of whether the sun moves from east to west during the daytime, and to protect the solar panel 3 The central portion of the transparent cap (2) for the convex lens (2a) is configured to focus solar light on the solar panel (3) even in low light weather can perform solar power generation in cloudy weather. Stacked in the rechargeable battery (5) to light up the light emitting diode (6) at night, according to the present invention will illuminate the light emitting diode (6) regardless of the weather 365 days a year to prevent collision with the bollard There is an advantage that can be.

Of course, since the light emitting diodes 6 are turned off during the day and the light emitting diodes 6 should be turned on at night, the charge controller 4 detects the difference in illumination between the day and the night through an optical sensor so that the charging controller 4 emits light according to the detection signal. It is to interrupt the power applied to (6).

However, when a plurality of light emitting diodes mounted around the transparent cap are composed of the same color as in general bollards, and the light emitting diodes blink at once, there is a case where the position of the bollard is momentarily not recognized. In view of this, the adjacent light emitting diodes 6 have different colors, and each light emitting diode 6 is configured to sequentially light in the forward direction or the reverse direction, so that the light emitting diodes 6 of different colors rotate sequentially. As the light is turned on, the position of the bollard can be reliably recognized in the eyes of the person looking at it, thereby preventing the collision with the bollard.

1 is a cross-sectional view of the solar bollard according to the present invention.

Figure 2 is a detailed cross-sectional view of the main portion of the solar bollard according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: Steel holder 2: Transparent cap

2a: convex lens 3: solar panel

4: charge controller 5: rechargeable battery

6: light emitting diode

Claims (1)

A steel column 1 having a lower portion embedded therein, a transparent cap 2 covering the upper side of the steel column 1, a solar panel 3 positioned in the transparent cap 2, and the solar panel (3) a plurality of light emitting diodes mounted at equal intervals on the charge controller 4 connected to the lower portion, the charge battery 5 connected to the charge controller 4, and the outer circumference of the transparent cap 2 ( 6) and the solar bollard consisting of a light sensor for detecting day and night, The central portion of the transparent cap (2) is composed of a convex lens (2a), the solar panel (3) is located in the horizontal direction in the lower center of the transparent cap (2) to sunshine even in the weather lacking light Concentrating on the panel 3 to perform continuous power generation during the day; The light emitting diodes 6 are installed in a state in which a portion of the light emitting diodes 6 are exposed to the outside of the transparent cap 2, while the light emitting diodes 6 are arranged to have a different color from other light emitting diodes 6 adjacent thereto. Wherein each of the light emitting diodes 6 is sequentially turned on in the forward or reverse rotation direction; Among the side circumference of the transparent cap (2) on the upper portion of the light emitting diode (6) is characterized in that the shade portion (2b) for controlling the direction in which the light of the light emitting diode 6 is directed in the form protruded Shoot Bollard.

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