KR200311453Y1 - Solar CCFL Pavement Light Block - Google Patents

Abstract

The present invention is about the landfill which can be used as lighting or other display device by irradiating the skylight with the light of cold cathode fluorescent lamp (CCFL) to the skylight while being buried in the ground or structure. It is intended to provide a landfill, etc., without the burden of embedding the power line because it operates by using the current of the solar cell and the battery without using.

For this purpose, the skylight and the light emitting window are integrated, and the solar cell is closely attached to the lower part of the skylight to increase the charging efficiency, while the CCFL is formed around the skylight, and the light is diffused through the skylight when the light is emitted. It was made.

Therefore, it eliminates inconvenience and cost caused by the construction of AC power when installing landfill, and uses self-discharge system using solar cell and battery and CCFL with 50,000 hours of life. Reduced burden and improved installation workability and economics.

Description

Solar Cold Fluorescent Lamp Ground Recessed Light {Solar CCFL Pavement Light Block}

The present invention is designed to bury a light cathode fluorescent lamp (CCFL) on a skylight while being embedded in the ground or a structure, to emit a skylight, and to bury the skylight for lighting or other display devices. It relates to a solar CCFL landfill, characterized in that the light emitting unit is illuminated by operating the CCFL at night time with the charged current.

In general, the landfill lamp was used to illuminate incandescent lamps, halogen bulbs using AC power.

These landfill lights have a bright effect, but the installation had to be connected to the power line, and those who do not have expertise in connecting the power line was not easy to install.

In addition, the high cost of electricity caused a large burden of electricity costs, and the short life span of the light bulb caused a burden of maintenance and maintenance costs.

In addition, there is a problem inherent in the risk of short circuit when flooding or short circuit of the wire.

The present invention has been devised to supplement the problems of the prior art as described above, and does not require a separate power line as in the prior art, so it can be installed in any place with sunlight and is easily installed even without professional knowledge. It is intended to improve economics and construction convenience by enabling installation.

In order to achieve the above object, the power supply unit does not use an AC power source, and performs automatic charging and discharging by using a solar cell and a storage battery, and used a CCFL to obtain high luminance light emission at low power. In order to protect the CCFL, a space was provided in the light emitting window insertion groove in the upper part, and the CCFL was inserted between the top cover and the light emitted from the CCFL was diffused through the skylight.

1 is a schematic diagram of the operating principle of the solar CCFL landfill, etc.

Figure 2 is a perspective view of the solar CCFL landfill, etc. of the present invention

3 is a cross-sectional view of the solar CCFL landfill, etc. of the present invention

Figure 4 is an exploded view of the solar CCFL landfill, etc. of the present invention

5 is a circuit diagram of a solar CCFL landfill lamp according to the present invention;

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

1: appearance housing 11: appearance upper cover

12: CCFL insertion groove 13: Skylight insertion groove

2: cold cathode fluorescent lamp (CCFL) 3: solar cell

31 solar cell supporting substrate 4: storage battery

5: control circuit board 7: skylight

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

Figure 2 is a perspective view of the assembly, such as the landfill is completed, Figure 3 is a cross-sectional view of the landfill, etc. Figure 4 is an exploded perspective view showing the assembly process of the landfill.

The outer housing 1 is made of a high strength metal alloy material, the outer shape is made of a cylindrical shape, and has a skylight insertion groove 13 and a CCFL insertion groove 12 at the upper end thereof.

Skylight (1) is made in the shape of a disc sized to fit into the skylight insertion groove (13) is provided with a skylight catching jaw 71 in the upper portion is manufactured to match the upper cover (11).

The upper cover 11 is made of the same material as the outer housing (1), it is produced in the form of a circular ring, while fixing the skylight (1), and serves to protect the skylight (1) is exposed on the ground. Will be

The solar cell 3 is configured on the solar cell supporting substrate 31, and is arranged in series with a plurality of pieces of the solar cell 3 and bonded in series with each other by a ribbon. Since the basic solar cell 3 has a rectangular structure, the diagonal length of the solar cell 3 is made smaller than the diameter of the exposed portion of the skylight 7. Due to the characteristics of the solar cell 3, if one of the multiple solar cells 3 becomes less efficient, the current is produced only as much as the efficiency of the solar cell 3, so that the solar light is totally formed by making it smaller than the diameter of the skylight 7. It is desirable to receive evenly.

After assembling the solar cell 3 on the solar cell support substrate 31, the upper surface is coated with silicon or epoxy resin to increase impact resistance.

Referring to the assembly process using the material configured as described above,

The storage battery 4 is fixed to the center of the inside of the exterior housing 1, and the adhesive is applied to the bottom of the storage battery 4 and the interior bottom of the exterior housing 1. After fixing, the wires are connected to the control circuit board 5 by connecting electric wires to the positive electrode of the battery 4, and a reinforcing material is inserted between the side of the battery 4 and the inner side of the outer housing 1, and the battery 4 To protect against temperature changes and external shocks.

The solar cell support substrate 31 having the solar cell 3 is attached to the lower part of the skylight 7 so as to be completely in contact with the lower part of the skylight 7 with a silicone adhesive or sealant. The control circuit board 5 is attached to the lower part of the solar cell supporting substrate 31, and the solar cell 3 and the control circuit board 5 are connected by wires.

After connecting the circular CCFL (2) electrode and the control circuit board (5) by wires, the CCFL (2) is fixed to the CCFL insertion groove (12) of the outer housing (1), in this case CCFL (2) In order to protect against shock, it is also preferable to mount a transparent protective tube on the outer surface of the CCFL (2).

After fixing the CCFL 2, the skylight 7 is inserted into the exterior housing 1. The skylight (7) is mounted in the skylight insertion groove (13), and the adhesive is applied to a part where the skylight (7) and the exterior housing (1) contact to increase stability.

After fixing the upper cover 11 on the skylight (7) in accordance with the skylight catching jaw 71 of the upper part of the skylight (7) and then close to the exterior housing (1) as a bolt in four places.

Looking at the operation process, such as land buried assembled as described above are as follows.

When the sunlight is irradiated to the skylight 7 during the day time, current is generated by the solar cell 3 in close contact with the skylight 7, and the generated current is charged in the storage battery 4.

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.

In the night time without sunlight, the electric current charged in the battery 4 discharges and the control circuit 5 is operated. The control circuit 5 primarily boosts the DC low voltage of the battery 4. The converter is stepped up to a DC high voltage suitable for operation, and this DC high voltage is converted to an AC high voltage of 600V or more by the converter circuit.

The CCFL is operated by the converted AC high voltage, and the emitted light of the CCFL diffuses through the skylight 7.

When the sunlight disappears at night or on a cloudy, snowy or rainy day, the solar cell 3 loses its electric energy generating capacity and no voltage is generated. 2) lights up.

Therefore, while solar light is generated, the solar cell 3 generates electric energy and charges the battery 4, and when sunlight disappears, the electric energy generated by the battery 4 is supplied to the CCFL 2 to be turned on. You will be doing a series of steps to make it work.

In this way, the entire skylight 7 emits light. The light of the CCFL 2 emitted from the side of the skylight 7 is reflected by the top surface of the solar cell 3 at the lower side thereof, so that it is not absorbed by the solar cell 3. Both reflections are made and diffused to the upper part of the skylight 3. Thus, the emitted light of the CCFL 2 is all emitted to the skylight 3 without loss, and since the reflection occurs on the surface of the solar cell 3, the solar cell 3 may not be visible during light emission.

Finally, in the embodiment of this article,

The land reclamation lamp constructed as described above can be installed wherever the annual average sunshine rate is 50% or more and the annual average roughness is 100,000 lux or more during the sunshine time, and during the installation, after removing the impurities by vacuum suction or the like After that, it is enough to pour the adhesive and insert and fix the landfill.

The self-charging type eliminates the need for a separate power line and reduces the need for frequent replacements with a CCFL of over 50,000 hours.

As described above, the ground-filled light of the present invention uses a solar cell and a storage battery, and can be charged and discharged without an external power source, so there is no inconvenience in laying a power line, and anyone can easily install it.

In addition, since the CCFL emitting light does not shine directly through the skylight and uses the diffusion of the skylight, the light is not irritating and there is no inconvenience such as glare.

CCFL's variety of colors can be used in various events, exhibitions, theaters, and performance halls, and can be used as a guide for parks, runways, sidewalks, forbidden palaces, etc.

Claims (1)

In constructing self-filling ground filling using solar cell, due to the limitation of solar cell daily output and storage capacity of battery, using low-power, high-brightness CCFL, the light is irradiated from the side of skylight to indirectly emit the entire skylight. Ground reclamation, etc. characterized by letting.