KR20100123427A - Sunlight footway block - Google Patents

Abstract

PURPOSE: A solar sidewalk block is provided to emit a light beam of fixed illuminance in either the summer or winter season by employing a temperature control unit. CONSTITUTION: A solar sidewalk block comprises a block frame(10), a photovoltaic panel(11), an electric energy storage unit(13), an LED(Light Emitting Diode), a controller, a plurality of optical fibers(19), and a plurality of lighting units(23). The photovoltaic panel receives sunlight and produces electricity. The electric energy storage unit stores the electricity produced by the photovoltaic panel. The LED is installed in the block frame. The controller supplies power to the LED from the electric energy storage unit according to the ambient brightness. The optical fibers are connected to the LED in order to deliver the light of the LED. The lighting units are connected to the respective optical fibers in order to radiate the light, delivered to the optical fibers, to the outside through the top of the block frame.

Description

Solar footpath block {Sunlight footway block}

The present invention relates to a solar sidewalk block, and more particularly, to a sidewalk block capable of emitting light with a certain degree of illumination to the outside using an optical fiber by revealing a small amount of LED after accumulating with sunlight.

In general, sidewalk blocks are arranged in a series of sidewalks in India, starting from the boundary that separates India from the roadway, to guide the general public's traffic. Among the sidewalk blocks, a sidewalk block having a plurality of protrusions formed on the upper surface thereof is installed in the entrance of the building or at the crosswalk to guide the visually impaired.

Conventional sidewalk blocks do not have a separate light emitting means. So in the dark at night or when the lights are off, it is not distinguishable to the general public or the blind at night.

The present invention is intended to solve the above problems. It is an object of the present invention to provide a sidewalk block capable of guiding the general public or the visually impaired at night by emitting light of a predetermined illuminance to a micro-light source by accumulating sunlight.

In addition, an object of the present invention is to provide a sidewalk block that can emit light more than a certain illuminance even in extreme conditions of hot summer or cold winter by installing a temperature maintaining device therein.

The solar walkway block according to the present invention includes a block frame, a solar power panel, a power storage means, an LED, a control unit, a plurality of optical fibers, and a plurality of lighting units. The block frame forms an outline of the sidewalk block. The solar power panel is installed in the block frame to generate electricity by receiving sunlight. The power storage means is installed in the block frame to store the electricity produced in the solar power panel. The LED is installed in the block frame. The control unit is installed in the block frame to supply power to the LED from the power storage means according to the brightness of the outside. The optical fiber is connected to the LED to transmit the light of the LED. The lighting unit is connected to each optical fiber to diverge the light transmitted to the optical fiber to the outside through the upper portion of the block frame.

In the above solar sidewalk block, the illumination unit preferably includes a reflecting mirror, a photoluminescent mass, and a convex lens. The reflector is connected to the optical fiber to reflect the light transmitted from the optical fiber to the outside through the upper portion of the block frame. The photoluminescent tube is installed on the reflector to collect external light and the light reflected from the reflector. The convex lens is installed inside the reflector to collect light reflected from the reflector into the photoluminescent mass.

In addition, the solar sidewalk block preferably further comprises an antifreeze installed in the block frame so as to be placed on the top and bottom of the power storage means, the LED and the control unit.

In the above solar press block, the block frame preferably includes a lower plate, an upper plate, and a cover plate. The lower plate is provided with the LED, the control unit, the power storage means, and the antifreeze. The upper plate has a through hole for inserting the lighting unit, the solar panel is installed and is coupled to the upper portion of the lower plate. The cover plate has a protrusion provided with the lighting unit and is coupled to an upper portion of the upper plate.

In the above solar press block, it is preferable that the cover plate is inclined at a portion located above the solar power panel.

In the above solar press block, the cover plate is preferably formed of a transparent polycarbonate.

According to the present invention, by providing a sidewalk block that emits light above a certain illuminance at night or when the lights are turned off, it helps the low vision disabled or the general public.

In addition, according to the present invention, it is possible to implement a beautiful landscape lighting, and also to implement a role of induction light so that it can be safely evacuated because it emits light over a certain fire intensity in the absence of any power in the event of a fire or power outage.

1 is a perspective view of an embodiment of a solar sidewalk block according to the present invention, Figure 2 is a cross-sectional view of the embodiment shown in Figure 1, Figure 3 is a conceptual diagram of the lighting unit and the LED and the optical fiber of the embodiment shown in FIG. An embodiment of a solar press block according to the present invention will be described with reference to FIGS. 1 to 3.

One embodiment of the solar walkway block according to the present invention is a block frame 10, a photovoltaic panel 11, power storage means 13, LED 15, the control unit 17, the optical fiber 10 and the antifreeze ( 21 and an illumination unit 23.

The block frame 10 forms the outline of the solar sidewalk block. To this end, the block frame 10 includes a curve plate 9, an upper plate 7, and a lower plate 5. The upper plate 7 is coupled to the lower plate 5. And the curve plate 9 is a projection 8 is formed and coupled to the upper portion of the upper plate 7, it can be made of a transparent polycarbonate or the like. Polycarbonate is easy to mold and its strength is superior to conventional sidewalk blocks.

The solar panel 11 is installed on the upper plate (7). Electricity is produced by receiving light from sunlight or external light sources. Since the cover plate 9 is transparent, light is input when the sun or an external light source is present, and the solar panel 11 may produce electricity.

The electrical storage means 13 is installed in the lower plate 5, and stores the electricity produced in the photovoltaic panel 11 as a storage battery.

The controller 17 is configured as an illuminance sensor and controls the LED 15 to be turned on by the power storage means 13 when the external brightness is less than a predetermined illuminance. That is, the controller 17 blocks electricity from being supplied to the LED 15 from the power storage means 13 so that the LED 15 is turned off when the external brightness is brighter than a predetermined illuminance. The electricity storage means 13 supplies electricity to the LED 15 to be turned on.

The LED 15 is connected to the power storage means 13 so that it can be turned on by the power storage means 13. Both the control unit 17 and the LED 15 are installed in the lower plate 5.

One end of the plurality of optical fibers 19 is connected to the LED 15, and each other end of the plurality of optical fibers 19 is connected to each of the illumination units 23 so as to transmit the light emitted from the LEDs 15 to the illumination unit 23. Thus, when the LED 15 is turned on, the light of the LED 15 is separated and transmitted to the lighting unit 23 by the optical fiber 19. The light emitted from the small amount of LEDs 15 by the plurality of optical fibers 19 may be transmitted to the respective lighting units 23.

The lighting unit 23 includes a reflector 24, a photoluminescent mass 26, and a convex lens 28. The reflector 24 is connected to the optical fiber 19 to emit the light transmitted from the optical fiber 19 to the outside. The photoluminescent lump 26 is installed above the reflector 24 and may receive and store light from sunlight or an external light source. And if the outside is dark, not only emits the stored external light to the outside, but is also transmitted to the optical fiber 19 receives the light reflected from the reflector 24 and emits to the outside. The convex lens 28 is installed inside the reflector 24 to collect the light reflected from the reflector 24 and send it to the photoluminescent lump 26. Each lighting unit 23 is provided in each projection 8 of the cover plate 9. Since the reflector 24 of the lighting unit 23 should be connected to the optical fiber 19 connected to the LED 15 of the lower plate 5, the through plate 6 for inserting the lighting unit 23 is inserted into the upper plate 7. Formed.

The antifreeze 21 is the LED 15, the control unit 17 and the power storage means 13 to operate the LED 15, the control unit 17 and the power storage means 13 even in extreme temperatures such as hot summer or cold winter ( 13) is installed on the lower plate (5) so as to lie on the top and bottom. That is, the antifreeze 21 plays a role of keeping the temperature of the LED 15, the control unit 17, and the power storage unit 13 stable even when the external temperature changes significantly. In addition, even if the LED 15 is turned on to generate heat, the LED 15 is not overheated.

In the embodiment according to the present invention, the photovoltaic panel 11 receives light from an external light source to produce electricity. In order to have high power generation efficiency, light from outside should smoothly enter the solar power panel 11. To this end, dust and the like should be smoothly cleaned on the cover plate 9 on the top of the solar panel 11. To this end, the cover plate 9 is inclined at a predetermined inclination angle of the portion 5 located above the photovoltaic panel 11. So the dust is automatically cleaned by wind or rain.

When there is a light source in the sunlight or the outside, the photovoltaic panel 11 receives electricity from the outside to produce electricity to store electricity in the power storage means (13). And the photoluminescent mass 26 absorbs and stores the light emitted from the external light source. When the external brightness is equal to or less than a constant illuminance, electricity is supplied from the power storage means 13 by the controller 17 so that the LED 15 is turned on. Light that is turned on in the LED 15 is transmitted to each lighting unit 23 through the optical fiber 19. In each of the lighting units 23, the light emitted from the LED 15 is transmitted to the photoluminescent mass 26 through the reflector 24 and the convex lens 28, and the photoluminescent mass 26 is transmitted from the LED 15. The light emitted from the light and the external light source is emitted to the outside. So the general public can perceive the light emitted from the sidewalk block at night. The sidewalk block of this embodiment is easy to assemble and disassemble since the block frame 10 is composed of a cover plate 9, an upper plate 7, and a lower plate 5, so that maintenance is easy in case of failure of an LED light. In addition, since only a small amount of LED can be used to emit light, independent driving is possible using solar light without supplying power from the outside.

1 is a perspective view of an embodiment of a solar press block according to the present invention;

2 is a cross-sectional view of the embodiment shown in FIG.

3 is a conceptual diagram of an illumination unit, an LED, and an optical fiber of the embodiment shown in FIG. 1.

<Brief Description of Drawings>

5: lower plate 7: upper plate

8: projection 9: cover plate

10: block frame 11: solar power panel

13 power storage means 15 LED

17 control unit 19 optical fiber

21: antifreeze 23: lighting unit

24: reflector 26: luminous tube

28 convex lens

Claims (6)

Block frame, A solar power panel installed in the block frame to generate electricity by receiving sunlight; Power storage means installed in the block frame to store electricity produced by the solar power panel; An LED installed on the block frame; A control unit installed in the block frame to supply power to the LED from the power storage means according to an external brightness; A plurality of optical fibers connected to the LEDs for transmitting the light of the LEDs; And a plurality of lighting units connected to respective optical fibers to diverge the light transmitted to the optical fiber to the outside through the upper portion of the block frame. The method of claim 1, wherein the lighting unit A reflector connected to the optical fiber to reflect light transmitted from the optical fiber to the outside through the upper portion of the block frame; A photoluminescent mass provided on an upper portion of the reflector to collect external light and light reflected from the reflector, And a convex lens provided inside the reflector to collect light reflected from the reflector into the photoluminescent mass. The method of claim 2, And an antifreeze installed in the block frame so as to be placed above and below the power storage means, the LED, and the control unit. The method of claim 3, wherein the block frame A lower plate on which the LED, the control unit, the power storage means, and the antifreeze are installed; An upper plate formed with a through hole for inserting the lighting unit, the solar panel being installed, and coupled to an upper portion of the lower plate; And a cover plate having a protrusion provided with the lighting unit and coupled to an upper portion of the upper plate. The method of claim 4, wherein The cover plate is a solar sidewalk block, characterized in that the inclined portion of the upper portion of the solar power panel. The method of claim 5, The cover plate is a solar sidewalk block, characterized in that formed of transparent polycarbonate.

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