KR200313320Y1 - Solar Pavement Marker - Google Patents

Abstract

The present invention relates to a self-filling road marker bottle using a solar cell, and provides a gap between the solar cells for charging to illuminate the entire skylight, and emits a cold cathode fluorescent lamp (CCFL) therebetween to spread the light through the skylight. It is about a cover bottle made into.

In order to achieve this purpose, when assembling and arranging the solar cells, a gap of about 3 mm is provided between the solar cells, and the light emitted by the CCFL passes through them, and the light emitted by the CCFL diffuses through the entire skylight to emit the entire skylight. It was made.

Therefore, because the skylight emits light as a whole, it is possible to raise the visibility of the cover bottle at any position even with the height or slight protrusion like the ground, and all the parts can be located in the lower space of the cover bottle, so that the parts due to collision with the vehicle tires Doubled safety against breakage.

Description

Solar Pavement Marker

The present invention relates to a self-filling road marker bottle using solar, and more specifically, to emit light from the CCFL between the connection gap of the solar cell to diffuse to the entire skylight, so that the entire solar skylight protruding above the ground emits light. In addition, the marker bottle, which was easy to recognize only in the driving lane, was easily recognized at any position.

In general, luminescent markers using solar are used for lane separation, and in particular, luminescent markers are self-luminous even without reflection light, so that the lane can be easily recognized to help drive safely.

Looking at the configuration of the conventional luminous cover bottle, divided into a buried fixing part that supports the ground projection and the cover bottle appear largely on the ground, the overall appearance takes the form of 'T' from the side. Most of the luminous markers construct a battery in the ground projection, insert a circuit, assemble a skylight with solar cells attached to it, insert two LEDs into each side of the driving lane, and cover to diffuse the luminous light of the LED. You will have

Because of the concentration of the emitted light toward the driving vehicle, it was difficult to recognize the presence of the cover bottle on the side or severely bent roads.In addition, the light emitting bottle not only damaged the case or the skylight when colliding with the tire, It was also made incapable of emitting light by damaging it.

Nearly all luminescent markers have a strong stimulus, with the direct light emitted from the LED directly irradiating the driver's eyes.

In order to make the entire solar skylight projecting on the ground to emit light, when assembling the solar cell, there is a space of 3mm between the cells so that the CCFL can be positioned between them and the stability of the parts is increased. The parts are to be placed in the landfill of the marker bottle.

In order to achieve the above object, the present invention is to make the skylight with a thickness of more than 10mm to ensure that the light of the CCFL emitting light between the solar cells effectively diffused to the entire skylight, and to configure on the transparent solar cell fixed plate during the assembly of the solar cell, CCFL There is a 3mm space between the cells in the part to be located. In order to ensure the stability of the parts, enough space in the landfill to secure the cover bottle to the ground was made, and all the parts were constructed in the landfill.

1 is a schematic diagram of the operating principle of the solar marker bottle of the present invention

2 is a perspective view of the solar cover bottle of the present invention

3 is a cross-sectional view of the solar cover bottle of the present invention

4 is a plan view of the solar cover bottle of the present invention

5 is a light emitting example of the solar marker bottle of the present invention

6 is an exploded view of the solar marker bottle of the present invention

7 is a circuit diagram of the solar marker bottle of the present invention

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

1: exterior housing 11: skylight

2: CCFL 21: CCFL electrode

22: CCFL support board 23: CCFL support

3: Cell 31: Cell connection ribbon

4: storage battery 5: control circuit

Hereinafter, the configuration and operation according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a solar marker bottle, FIG. 3 is a diagram showing a cutaway view of the solar marker bottle, FIG. 4 is a plan view of the solar marker bottle from above, and FIG. 5 is a view illustrating a shape in which the emission light of the CCFL spreads into the skylight. 6 is a diagram illustrating an assembly process of a buried cover bottle.

The skylight is made of high-strength synthetic resin compound, the shape is cylindrical, the lower part is bored, the upper part is convex in the center, and is made from the center to the outwardly rounded downward curve, the upper part is shot. The cell is closed in a flat position to be fixed.

In the past, the solar cells were arranged as close as possible to each other on the PCB panel, and the solar cells were connected in series by a ribbon. However, in the present design, the solar cell is arranged on a transparent synthetic resin plate instead of the PCB panel, and the diameter of the CCFL is 3mm between the cells. Arrays are made at intervals of. After arranging, it is connected in series through a ribbon, and then coated with a material of high transparency, such as silicon, to a thickness of 2 mm.

The CCFL is configured on the upper surface of the control circuit board according to the gap between the solar cells, and each circuit component is configured on the lower surface of the control circuit board. Paint or add reflective material to the top of the control circuit board to prevent CCFL light from leaking beyond the skylight.

The exterior housing is a part into which the skylight is to be inserted, which is made of an alloy of metal material to protect the skylight and other parts. The shape of the exterior housing is cylindrically shaped like the skylight, and the top surface is drilled and the bottom surface is blocked.

Next, if you explain the assembly of the cover bottle using the manufactured parts,

The solar cell 3 is fixed to the inside of the skylight 11. When assembling the solar cell 3, the gap between the solar cells 3 is differentiated according to the device so that the CCFL (2) light passes through it. Make it as possible. The solar cell 3 thus manufactured is turned upside down by the skylight 11, and is fixed to the upper part using a silicone adhesive, and connected to the control circuit board by a conductive wire. Next, the control circuit board 5 to which the CCFL 2 is attached is fixed. The CCFL is fixed to the locking jaw inside the skylight by being oriented so that the CCFL is located in the empty space between the solar cells. At this time, the upper part of the control circuit board 5, that is, the part to which the CCFL 2 is to be attached, is attached to the reflector 6 or by applying a reflecting material to guide the light of the CCFL 2 to the upper part of the skylight 11.

The inside of the outer housing (1) constitutes a storage battery (4). At this time, the lower end of the storage battery is seated on the lower portion of the outer housing (1) using a filling insulating material, and the storage battery (4) and the control circuit (5) by wires. After connecting the skylight 11 is inserted into the outer housing (1).

Next, the operation process of the present invention assembled as described above is as follows.

First, when the sunlight is irradiated, the solar light entering through the skylight 11 is absorbed into the solar cell 3, and the solar cell 3 converts the absorbed sun light into electric energy to charge the storage battery 4.

At this time, the electric energy generated in the solar cell 3 is to generate a voltage higher than the rated operating voltage of the battery 4, in order to increase the charging efficiency, so that the battery 4 can be charged in a short time.

The battery 4 charged as described above is charged during the daytime in which sunlight is present, and at night time, the control circuit 5 is operated with the charged energy so that the CCFL 2 can emit light. Automatically distinguish time. That is, with the potential difference between the solar cell 3 and the storage battery 4, the operation varies according to day and night.

Therefore, if no voltage is generated in the solar cell 3, energy is discharged from the storage battery 4 to supply current to the circuit and the CCFL 2 so that the CCFL 2 is turned on, and the voltage is generated in the solar cell 3. When this occurs, the voltage supplied to the CCFL 2 is cut off and the lighting of the CCFL 2 is stopped.

When the sun's light disappears at night or on a cloudy, snowy or rainy day, the electric energy generating capacity of the solar cell is reduced and no voltage is generated. Thus, the CCFL 2 is turned on by the energy charged in the battery. will be.

Therefore, while solar light is generated, the solar cell 3 generates electric energy and charges the battery, and when solar light is extinguished, the electric energy generated from the battery 4 is supplied to the CCFL 2 to be turned on. The process is carried out continuously.

Next, the light of the CCFL 2 that is turned on as described above emits light between the solar cells 3 at the lower side of the skylight, and emits light to the top of the skylight 11, and the light thus emitted is the top of the skylight 11. It will make the whole light. As the entire skylight 11 emits light, the CCFL 2 enters the driver's field of view in any direction to assist in safe driving.

Next, look at the installation process of the cover bottle assembled in this way,

In the installation position, the entire housing is drilled enough to insert the groove, but the depth is different according to the user's convenience. After removing impurities in the grooves, the adhesive is filled in the grooves and then the product of the present invention is inserted. Later on, apply force from above to ensure that the entirety of the marker bottle is in close contact with the groove.

Skylights and exterior housings are circular, so they do not need to be aligned in any direction.

As described above, the present invention relates to a solar cover bottle using the principle of emitting light to the CCFL at night by using electric energy stored in the battery after receiving the light during the day time with solar light and charging the battery.

Since the product emits a skylight that is visible on the ground as a whole, it is possible to raise the visibility of the cover bottle at any position by height or slight protrusion like the ground, and since the exterior is made of a cylindrical shape, all parts except the solar cell It can be located in the lower space of the product, which doubles the safety against parts damage caused by collision with the vehicle tires, and can be freely adjusted when buried so that it can be used not only as a cover bottle but also as a light emitting display device.

Therefore, when the rain, fog, and night driving, the whole skylight can be enlarged, and the entire skylight on the ground floor can be emitted, ensuring visibility and maximizing safety by the vehicle guidance function. Since the height is about half, it is possible to prevent damage caused by snow removal equipment, and it is economical by reducing the cost by increasing maintenance and management period by using solar energy.

Claims (1)

When assembling and arranging the solar cells used to charge the battery, it is assembled on the solar cell fixing substrate of transparent synthetic resin material, and spaced between the solar cells according to the diameter of CCFL, and passing CCFL light between them. The solar marker bottle, characterized in that to diffuse the light emitted from the CCFL to emit the entire skylight.