KR200353260Y1 - Solar cell equiped illuminating bollard - Google Patents

Abstract

The present invention relates to a lighting bollard using a solar cell to prevent driver's and pedestrians' ability to shine by powering by a solar cell charged during the day, such as at night when the illumination is low for preventing vehicle entry or for landmarks. The aim is to provide bollards with lighting functions to improve the safety of vehicles and pedestrians, to save energy, and to enhance the aesthetics of cities and roads.

In order to achieve the above object, the present invention forms a recess on the upper surface of the bollard body 19 and is located at an upper portion of the fixing case 8 and the fixing case 8 installed inwards according to the shape of the groove. The solar heat collecting plate (5) for absorbing solar energy and converting it into electrical energy, the light detecting sensor (7), which is located on the side of the solar heat collecting plate (5) and the top of the fixed case (8), And the groove is formed on the side of the tempered glass cover (3) and the bollard body 19 to cover the groove on the solar heat sink (5) and the light sensor (7) and is installed inside the groove to the illumination lamp Illuminating reflector 11, which helps to effectively dissipate light by the (13), located in the center of the illumination reflector 11, the illumination lamp 13, which is illuminated by the supply of power to the outside of the illumination reflector 11 Reinforcing oil covering the groove Lithium cover (9), the inner side of the illumination bollard (1) and the storage battery (15), the light sensing sensor (7) which is located on the bottom of the upper groove to store the electrical energy converted by the solar heat collecting plate (5) It is characterized in that the sensor control box 17 for controlling the lighting of the lighting lamp 13 according to the degree of illuminance detected by the provided. In addition, the high brightness reflective paper 23 shining brightly by light projected by an automobile or the like may be further added to the surface of the bollard body 19 below the lighting unit 21.

Description

Illumination bollard using solar cell {Solar cell equiped illuminating bollard}

The present invention relates to a lighting bollard using a solar cell, and more particularly to the driver by emitting light by the power supply by the solar cell charged during the day, such as at night when the illumination is low for preventing vehicle entry or landmarks In addition, the purpose of the present invention is to provide a bollard with a lighting function that improves the cognitive ability of pedestrians, promotes safe driving of vehicles and pedestrians, and saves energy and improves the aesthetics of the city and the road.

A bollard is a boundary stone that separates a driveway and a sidewalk, or a vehicle entrance prevention stone in sidewalks. In general, bollards are usually placed on the edges of roads with stones or other materials or erected on sidewalks. All of these products acted as simple shields, and even if the reflector was placed on the outside, it could be difficult to locate the vehicle if the lights did not reach it, which could cause damage to the vehicle.

In addition, in the conventional conventional sidewalks, such bollards are buried, but there are various risk factors that cannot guarantee the safety of drivers and pedestrians in places where the illumination is dark at night. In other words, if there is no street light that illuminates the side, or if the light cannot be reached by the street lamp despite the installation of the street light, or if the street light is not properly turned on due to an electrical problem, etc. In addition, there is a problem that the safety of the driver and pedestrians are threatened not only because the bollard is not easily distinguishable, but also because of damage or poor installation of the bollard. In addition, in the case of Korea, which relies on imports of energy sources close to 100%, there is a problem that installing street lights on each road causes energy waste.

Accordingly, the present invention has been devised to solve the above-mentioned problems, and for the purpose of preventing vehicle entry or landmarks, to shine by the power supply by the solar cell charged during the day in the case of low illumination at night. The present invention relates to a bollard with a lighting function that enhances the driver's and pedestrian's discrimination ability, promotes safe driving of the vehicle, pedestrians' safe walking, saves energy, and improves the aesthetics of the city and the road.

1 is an overall perspective view of an illumination bollard using a solar cell according to the present invention

FIG. 2 is an exploded perspective view of a cross section taken along line A-A of FIG.

<Description of the symbols for the main parts of the drawings>

1: lighting bollard 3: tempered glass cover

5: solar collector 7: light sensor

8: fixed case

9: tempered glass cover 11: light reflector

13: lighting lamp 15: storage battery

17: sensor control box 19: bollard body

21 lighting unit 22 light receiving unit

23: high brightness reflective paper 25: power supply

Illumination bollard using the solar cell of the present invention for achieving the above object, a fixing case which is formed in the groove on the upper surface of the bollard body and installed on the inner side in accordance with the shape of the groove, located on the upper of the fixing case A solar heat sink that absorbs solar energy and converts it into electrical energy, a light sensor that is located on an upper side of the fixed case and on the solar heat sink and senses an external illuminance, and above the solar heat sink and the light sensor Tempered glass cover that covers the groove and the light reflection plate to form a groove in the side of the bollard body and is installed inside the groove to help the light emitted by the lighting lamp effectively, located in the center of the light reflection plate to supply power Illuminated by the lamp, tempered glass covering the groove toward the outside of the light reflector And a battery (including a charger) which is located inside the lighting bollard and on the bottom of the upper groove to store the electrical energy converted by the solar collector plate, and according to the degree of illuminance detected by the light sensor. It is characterized in that the sensor control box for controlling the lighting. Further, the high brightness reflective paper shining brightly by the light projected by the automobile may be further added to the surface of the bollard body below the lighting unit.

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

1 is an overall perspective view of an illumination bollard using a solar cell according to the present invention, Figure 2 is an exploded perspective view of the cross section taken along the line A-A of FIG.

As shown, the present invention forms a recess in which the solar panel 5 and the light sensor 7 according to the present invention are installed on the upper surface of the bollard body 19. The groove may be formed in any shape such as a square or a circle. A fixing case 8 for supporting a solar heat collecting plate 5 and a light sensor 7 is installed inside the groove according to the shape of the groove. The upper part of the case (8) is a solar heat sink (5) for absorbing the solar energy during the day to convert into electrical energy, and the upper part of the fixed case (8) and light for sensing the degree of external illumination on one side of the solar heat sink (5) The sensor 7 is installed. In addition, the tempered glass cover 3 covering the groove is positioned above the solar heat collecting plate 5 and the light sensor 7.

In addition, a groove is formed on the side of the bollard body 19, the lighting reflection plate 11 is located inside the groove to effectively help the divergence of light by the lighting lamp 13 to maximize the brightness and the lighting reflection plate ( In the center of 11) is provided an illumination lamp 13 which is turned on by the supply of power stored by the solar heat collecting plate (5). In this case, the lighting lamp 13 may use various light emitting means such as a light bulb or an LED. Outside the illumination reflector 11 is a tempered glass cover 9 that covers the groove.

The inside of the illumination bollard (1) and the bottom of the upper groove is detected by a battery (including a charger) 15 and the light sensor 7 for storing the electrical energy converted by the solar panel (5) The sensor control box 17 is installed to control whether the lighting lamp 13 is turned on according to the degree of illuminance. A high brightness reflector 23 shining brightly by light projected by an automobile or the like is attached to the surface of the bollard body 19 below the lighting unit 21.

Referring to the state of use of the subject innovation made of the above configuration as follows.

During the day when solar heat falls, the solar heat collecting plate 5 located on the upper surface of the bollard body 19 absorbs the solar energy and converts it into electrical energy. The electrical energy is stored in the lighting lamp 13 in the case of the night by the storage battery 15. ) Is stored as electrical energy to light up. At this time, in the charging process by the solar collector plate, the voltage adjusting unit receives the electrical energy output from the solar collector plate and adjusts the charging to the battery accordingly, and continuously detects the current charged in the battery and measures more than a predetermined current, the voltage adjusting unit. The charging control unit may further be configured to send a control signal to block the current or to reduce the amount of current.

When the sun goes down at night and the ambient illuminance falls below a certain level, the change is detected by the light sensor 7 located on the upper part of the fixed case 8. ) Is determined by the sensor control box 17 comparing the value measured by the light sensor 7 with a reference value for whether the light is already input. That is, when the amount of external light falls below a certain illuminance, a current stored in the storage battery is applied by the sensor control box 17, and the current is applied to the lighting lamp 13 by a conductor connected to the lighting lamp 13. The light is turned on by flowing. At this time, the light of the lighting lamp 13 which is turned on is amplified by the lighting reflector 11 and the amplified light is emitted through the tempered glass cover 9 to the outside. In addition, when the amount of external light becomes higher than a predetermined illuminance, the lighting lamp 13 is turned off by blocking the current applied from the battery by the sensor control box 17 again. In addition, the tempered glass cover 9 may be inserted into an image or a logo to achieve an effect such as promotion or increase of aesthetic appearance.

When the light is emitted to the outside by the lighting lamp 13 inside the lighting bollard 1 as described above, drivers and pedestrians can easily identify the bollard even in the dark night.

For reference, the above-described lighting bollard (1) has been described as an example that is installed on the sidewalk used by pedestrians in the present invention, but can be expected to have a better effect by being installed in the promenade, park road, general residential roads, etc. Of course.

Although the above has been illustrated and described with respect to the preferred embodiment of the present invention, the present invention is not limited to the above-described embodiment, the general knowledge in the field of the subject innovation without departing from the gist of the subject innovation claimed in the claims below Anyone with a variety of modifications are possible, of course, such modifications will be within the scope of the claims.

As described above, the lighting bollard using the solar cell of the present invention does not have a street light that illuminates the sidewalk, or there is a part where the light cannot be reached by the street light despite the installation of the street light or an electrical problem. Not only does the bollard not be easily identified in the event that the street lamp is not properly lit, but also removes the threat of the driver and pedestrians due to the bollard damage or installation failure. This is a very useful effect. Moreover, it is widely adaptable to places such as parks, expo venues, and trails as well as sidewalks.

In addition, since the solar panel absorbs and charges the solar heat during the day, the solar panel is turned on only at night or on a cloudy day, so that the energy efficiency is improved as well as an advantage of using environmentally friendly energy. In addition, it is safer than street lamps that can cause electrical problems, and since it is possible to generate power and lights on its own, no additional electrical work is required, such as laying power supply lines. Can be reduced. In addition, by adding various colors and patterns to the tempered glass cover, it is possible to improve the urban aesthetics.

In addition to the effect of making it easier to identify the bollard itself, the surrounding roads are brightened by the light emitted from the bollards. There is also an effect. And since solar cells are semi-permanent, they require little maintenance and repair, so the economic effect of cost reduction is great.

Claims (4)

In the lighting bollard using a solar cell, A light receiving part 22 formed on the upper surface of the bollard body 19 and installed in the groove; Grooves are formed on the side of the bollard body 19 and are installed inside the grooves to illuminate the light by the lighting lamp 13 to effectively assist the light reflector plate 11 and the center of the light reflector plate 11 An illumination lamp (13) positioned at and illuminated by supply of power, and a tempered glass cover (9) covering the groove toward the outside of the illumination reflector (11); Illumination bollard using a solar cell, characterized in that the inner side of the illumination bollard (1) and the power supply portion 25 is provided on the bottom of the upper groove. The method of claim 1, The lighting lamp 13 is an illumination bollard using a solar cell, characterized in that it comprises a light bulb and LED. The method of claim 1, The storage battery 15 for storing the electrical energy is input to the electrical energy output from the solar panel and a voltage adjusting unit for adjusting the charging to the battery accordingly, and continuously detect the current charged in the storage battery is measured more than a predetermined current Lighting bollard using a solar cell characterized in that it further comprises a charging control unit for sending a control signal to the voltage adjusting unit to cut off the current or to reduce the amount of current. The method of claim 1, The bollard body 19 further includes a high-brightness reflective paper 23 that shines brightly by light projected by a vehicle on the surface of the bollard body 19 under the lighting unit 21. .