KR200281822Y1 - Bollard - Google Patents

Abstract

The present invention relates to a bollard that is not only easy to recognize the position of the bollard at a relatively long distance, but also light weight, easy processing and excellent strength in bad weather conditions such as at night or rain or snow.

The present invention has a steel column which is buried in the lower portion, a transparent cap that is covered on the upper side of the steel column, a reflective sheet attached to the lower circumference of the transparent cap, and a solar panel located in the transparent cap, A printed circuit board connected under the solar panel, a rechargeable battery mounted on an upper portion of the steel column in a state connected to the bottom of the printed circuit board to charge electrical energy of the solar panel, a light emitting diode, and day and night And a photoelectric cell for sensing and a transistor for turning on the light emitting diode when the photovoltaic cell outputs a signal corresponding to the night, so that the power of the rechargeable battery flows to the light emitting diode.

Description

Bollard {Bollard}

The present invention relates to a bollard, and more particularly, to a bollard to block the entry of the vehicle is installed on the boundary of the driveway and sidewalk or the entrance of the pedestrian road.

The bollard for blocking the entry of the vehicle according to the prior art was manufactured by processing the wood, the bollard made of wood is weak in strength due to its own characteristics that the wood retains easily from the outside, that is, the impact of the vehicle, etc. Not only does damage occur, but even if external shock is not applied, if it is used for a certain period of time, it may be bent or eroded by moisture such as moisture to impair the aesthetics of the city and also cannot perform its function as a bollard.

In order to solve the problem of the bollard made of wood as described above, a bollard 51 made of stone is laid as shown in FIG. 1, and the bollard 51 made of the stone is usually processed after collecting granite The lower part of the bollard 51 is buried as a mortar layer 53 at a position to block the entry of the vehicle. The bollard 51 made of such a stone is not easy to be processed due to its own characteristics that the stone holds. Because of its weight, it is difficult to transport, so there is a disadvantage in that the production cost is relatively high.

In addition, the bollard 51 is a reflection sheet 55 is attached along the circumferential direction so that a vehicle or a pedestrian can easily identify the bollard 51 at night, the reflection sheet 55 is due to the difference in climate or temperature There is a disadvantage that the maintenance light repair cost for replacing easily with the bollard 51 or replaced with a new reflective sheet 55 is increased.

In particular, since the bollard 51 is able to recognize the position of the bollard 51 by the reflection of the light projected from the headlights and the light source of the vehicle even if the reflective sheet 55 is not peeled off or corroded, the driver or the like is dangerous The short time to recognize the problem is not enough to cope with the risk of accidents, the role of the bollard 51 is extremely vulnerable when the reflection effect of light is reduced by the rain or snow or dust accumulated in the reflective sheet 55 There is a big problem.

The present invention has been made to solve the problems of the prior art as described above, the main purpose of the present invention is to facilitate the position of the bollard even at a relatively long distance when the driver or pedestrians in bad weather, such as at night or rain or snow. To provide a recognizable bollard.

Another object of the present invention is to provide a bollard that is relatively light in weight, easy to transport, easy to process, inexpensive to produce, low in strength even when an external shock is applied.

1 is a view showing a prior art bollard made of stone,

2 is a perspective view showing a bollard according to the present invention,

3 is a sectional view showing a bollard according to the present invention,

Figure 4 is a block diagram showing the operation of the bollard according to the present invention.

<Explanation of symbols on main parts of the drawings>

2: Steel column 4: Transparent cap

6: reflection sheet 11: solar panel

12: printed circuit board (PCB) 13: rechargeable battery

14 light emitting diode (LED) 15 photoconductive cell (CDS)

16: transistor (TR)

The present invention for achieving the above technical problem is a steel holder, which is built in the lower part, the transparent cap is covered on the upper side of the steel holder, a reflective sheet attached to the lower circumference of the transparent cap, and in the transparent cap A solar cell being positioned, a printed circuit board connected to the bottom of the solar panel, a rechargeable battery mounted on an upper portion of the steel column while being connected to the bottom of the printed circuit board to charge electric energy of the solar panel; A light emitting diode, a photoconductive cell detecting day and night, and a transistor for turning on the light emitting diode when the photoconductive cell outputs a signal corresponding to a night time so that power of the rechargeable battery flows to the light emitting diode; It is possible to be characterized by the configuration.

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

2 is a perspective view showing a bollard according to the present invention, Figure 3 is a sectional view showing a bollard according to the present invention.

As shown in Figures 2 and 3, the bollard of the present invention is a steel column erected vertically with the lower part embedded at a position to block the entry of the vehicle, such as the boundary of the driveway and the sidewalk or the entrance of the pedestrian road (2) ), A transparent cap 4 formed in the shape of a convex hemisphere with an open lower portion and an upper portion convex so as to be mounted on the upper circumference of the steel column 2, and a circumferential direction around a lower end of the transparent cap 4. Accordingly, the reflective sheet 6 is attached to the adhesive sheet, and the lighting device is mounted in the transparent cap 4 and lights at night to clearly recognize the position of the bollard to the driver or pedestrian.

Here, the steel column 2 is formed in an elongated cylindrical shape with an upper portion blocked, and a jaw portion 3 having a diameter slightly smaller than the diameter of the steel column 2 is formed along the circumference of the upper side, and the transparent portion is formed. The cap 4 is fitted to the jaw portion 3 of the steel column 2 and is mutually coupled.

In this case, the transparent cap 4 is prevented from being excessively inserted into the steel column 2 because the lower end is caught by the jaw portion 3 when the transparent cap 4 is inserted to a predetermined depth.

The transparent cap 4 combined as described above is made of polycarbonate which is not only light but also excellent in tensile strength, flexural strength and impact strength, which is shaped in a price direction when an impact is applied from the outside to the transparent cap 4. When the deformed and the impact is released, it is because it is restored to its original shape by its elastic force, so that both the lighting device and the transparent cap 4 mounted inside the transparent cap 4 can minimize damage.

On the other hand, the reflective sheet 6 is an ultra-high brightness reflective sheet reflecting external lights such as headlights of a vehicle traveling at night.

In particular, the lighting device is turned on and off permanently without an external power source, and automatically without a separate operation, a solar cell (11) for converting light energy of the sun into electrical energy and a printed circuit board ( a printed circuit board (hereinafter referred to as a PCB) 12, a rechargeable battery 13 in which electrical energy generated by the solar panel 11 is charged, and light emitted by the electrical energy of the rechargeable battery 13. When a light emitting diode (hereinafter referred to as an LED) 14, a photoconductive cell (hereinafter referred to as a CDS) 15 for detecting day and night, and the CDS 15 output a signal corresponding to the night, the A transistor (transistor, hereinafter referred to as TR) 16 which turns on the LED 14 by causing electric energy of the rechargeable battery 13 to flow through the LED 14.

Here, the rechargeable battery 13 charges the electric energy of the solar panel 11, which typically generates about 0.5 volts per unit, at a voltage of about 1.2 volts per unit so that it can be used all day long without being charged. It is preferable to use a nickel-cadmium (Ni-Cd) battery to charge.

The nickel-cadmium (Ni-Cd) battery may also be used semi-permanently.

The CDS 15 is operated according to illuminance. For example, when the illuminance is large as in the daytime, the resistance value is low, and when the illuminance is low as at night, the resistance value is increased.

On the other hand, the configuration of the PCB (12) circuit is charged by the CDS (15) and TR (16) during the day the electric energy is charged in the rechargeable battery 13 and is not discharged through the LED (14), it is charged at night Since the electric energy is configured to discharge through the LED 14, which is configured using a circuit that is commonly used, further detailed description of the PCB 13 will be omitted in the present invention.

On the other hand, the rechargeable battery 13 is mounted on the upper portion of the steel column by a screw or the like, the upper portion of the rechargeable battery 13 is connected to the PCB 12, the upper portion of the PCB 12 The solar panel 11 is connected, and the LED 14 penetrates the solar panel 11 in a state of being connected to the upper portion of the PCB 12 and is positioned at a central portion in the transparent cap 4.

Figure 4 is a block diagram showing the operation of the bollard according to the present invention, look at the operation of the bollard according to the present invention configured as described above with reference to FIG.

First, the operation during the day, the solar light energy is converted into electrical energy by the solar panel 11, the converted electrical energy is charged to the rechargeable battery 13 through the PCB (12).

At this time, the CDS 15 outputs a signal corresponding to the daytime, and by this signal, the transistor 16 operates so that electric energy charged in the rechargeable battery 13 is blocked from flowing to the LED 14. The electrical energy of (13) is prevented from being unnecessarily discharged.

Thus, the LED 14 remains off during the day.

In the following night operation, the CDS 15 outputs a signal corresponding to the night, and by this signal, the transistor 16 is charged with the rechargeable battery 13 by the solar panel 11 during the day. The energy flows into the LED 14 to light up the LED 14.

At this time, the driver and pedestrian can clearly recognize the position of the bollard even from a long distance.

The bollard according to the present invention configured as described above converts the light energy of the sun into electrical energy by the solar panel during the day and then charges the rechargeable battery and then the transistor by the signal output from the photoconductive cell (CDS) at night. TR) is operated to flow the electric energy charged in the rechargeable battery to the light emitting diodes (LEDs) to turn on the light emitting diodes, so that the driver or pedestrian can move the bollards at a relatively long distance even in bad weather conditions such as at night or by rain or snow. There is also an effect that can be easily recognized.

In addition, since the light emitting diode is turned on or off as light energy of the sun by the solar panel as described above, there is an advantage that it can be used semi-permanently without an external power source or a separate battery.

In addition, since the appearance of the bollard is made of a steel cap and a transparent cap made of polycarbonate, the weight is light and easy to process according to the shape, so that the aesthetics are beautiful and excellent in strength, and the transparent cap can flexibly respond to external impact. There is an advantage that can minimize the damage of both the transparent cap and the lighting device mounted in the transparent cap.

Claims (3)

A steel column 2 having a lower portion embedded therein; A transparent cap 4 covering the upper side of the steel column 2; A reflective sheet 6 attached to the lower circumference of the transparent cap 4; A solar panel 11 located in the transparent cap 4; A printed circuit board 12 connected under the solar cell panel 11; A rechargeable battery 13 mounted on an upper portion of the steel column 2 to be connected to a lower portion of the printed circuit board 12 to charge electrical energy of the solar panel 11; A light emitting diode 14; A photoconductive cell 15 for detecting day and night; When the photoconductive cell 15 outputs a signal corresponding to a night time, the power supply of the rechargeable battery 13 flows to the light emitting diodes 14 to turn on the transistors 16 for turning on the light emitting diodes 14. Bollard, characterized in that configured to include. The method of claim 1, The transparent cap (4) bollard, characterized in that made of polycarbonate. The method of claim 1, The rechargeable battery 13 is a bollard, characterized in that the nickel-cadmium (Ni-Cd) battery.