KR20090008267U - An led type road light using solar energy - Google Patents

Abstract

The present invention relates to an LED street lamp using solar energy, the pillar-shaped pillar fixed to the ground; A support panel fixed to an upper end of the support; A solar cell installed on one side of the support panel; And an LED lamp unit installed on the other side of the support panel, wherein the LED lamp unit is fixed to allow the installation angle to be adjusted with respect to the support panel.

Street light, LED, solar energy, angle.

Description

LED street light using solar energy {AN LED TYPE ROAD LIGHT USING SOLAR ENERGY}

The present invention relates to an LED street light using solar energy, and more particularly, to a device for lighting a road by lighting a street lamp using solar energy without a separate power supply.

Various kinds of alternative energy have been researched and used conventionally in order to prevent environmental pollution and save resources. One of them is the so-called solar energy generation, which converts energy delivered from the sun into electrical energy. As a device for utilizing solar energy, a device for directly converting solar energy into electrical energy using a solar panel called a solar cell is widely used. However, in the case of such a solar panel, up to now, the power generation efficiency is not sufficient, and the installation cost is relatively high, which is limited to a small capacity application field.

A representative among them is a street lamp device using solar energy to supply power used for street lamps using solar energy. In particular, recently, devices using LEDs that can be driven with significantly lower power than those of the related art have been introduced.

1 illustrates an embodiment of an LED street light using such a conventional solar energy. Looking at the prior art, a support 10 for supporting the entire device and an anchor 12 for fixing the support 10 to the ground is included, the solar panel fixing portion 14 in the upper end of the support 10 ) Is installed. The solar panel fixing part 14 includes an arm 15 protruding outward and a fixing panel 16 fixed to the arm 15, and a solar cell 18 on the front of the fixing panel 16. Is installed. In addition, a lamp unit 20 is installed below the solar panel fixing unit 14.

The solar cell 18 is fixed at an angle to receive the maximum solar energy at the place where it is installed. In addition, the lamp unit 20 is also installed at an angle suitable for the place to be illuminated. Therefore, in the prior art, since the lamp unit 20 and the solar cell 18 are installed in separate structures for this purpose, the structure is not only complicated, but also has difficulty in carrying and installing.

In addition, in the prior art, there is a disadvantage that adjustment is impossible in a state in which the solar cell 18 is installed. Specifically, due to the direction of the road in the process of installing the street light along the road may not receive the appropriate amount of sunlight at the angle. To solve this problem, it is necessary to calculate the optimum angle for the location where each street lamp is installed in advance, and then to manufacture each street lamp individually according to the calculated angle, but this causes a significant increase in manufacturing cost and installation cost. do. Therefore, there is a problem in that the utility of the solar street lamp device having an advantage of low maintenance costs compared to the prior art due to the increased installation cost and manufacturing cost is offset.

In order to solve this problem, there has also been proposed an apparatus that automatically changes the angle at which the solar cell is installed according to the angle of the sunlight, that is, tracks according to the angle of the sun. These devices may be superior to the conventional in terms of power generation efficiency, the manufacturing cost is still a problem, and there is a problem that additional power is consumed to drive a separate drive device for tracking.

The present invention has been devised to overcome the disadvantages of the prior art as described above, LED light street using solar energy that has a simple structure compared to the prior art and easy to manufacture, so that the lamp unit can have an optimal angle according to the installation position. The technical challenge is to provide.

In addition, another object of the present invention is to provide an LED street light using solar energy that can be installed so that the solar cell and the lamp unit have an optimal angle according to the location where the street light is installed.

The present invention in order to achieve the above technical problem, the pillar-shaped pillar fixed to the ground; A support panel fixed to an upper end of the support; A solar cell installed on one side of the support panel; And an LED lamp unit installed on the other side of the support panel, wherein the LED lamp unit is fixed to allow the installation angle to be adjusted with respect to the support panel.

Therefore, according to the present invention, since the solar cell and the LED lamp unit are installed on both sides of one support panel, the structure can be greatly simplified compared to the prior art in which both are individually installed in separate structures, thereby facilitating manufacturing. Production costs can be lowered. In addition, the angle of the lamp unit can be adjusted, so that the lamp unit can illuminate the road at an optimal angle even when the support panel is fixed.

Here, the angle of the lamp unit can be adjusted by a variety of known means, for example, the LED lamp unit and the support panel may be fixed by any one of the ball socket joint or universal joint. .

Preferably, the support panel may be rotatably installed with respect to the support, respectively, about a first axis parallel to the longitudinal direction of the support and a second axis perpendicular to the first axis and parallel to the ground. have. In other words, the support panel may be installed to adjust the angle with respect to the ground. Through this, the solar cell can be adjusted to have an optimal angle with respect to the sun at each installation position, and this feature is made separately from the angle adjustment of the lamp unit.

In addition, a driving device such as an electric motor may be added to the lamp unit and the support panel so that the angle adjustment operation may be performed by a switch operation or a remote controller.

According to the present invention having the above configuration, since both the solar cell and the lamp unit are installed in one support panel, the overall structure can be simplified, thereby increasing productivity and lowering the manufacturing cost, while freely adjusting the angle of the lamp unit. It is possible to adjust the range to be optimal.

In addition, since the angle of the solar cell can be adjusted, the solar cell can be installed at an optimal angle according to the point where the street light is installed.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of an LED street light using solar energy according to the present invention.

2, an embodiment of an LED street light using solar energy according to the present invention is shown. First, the embodiment 100 includes a support 102 installed in a direction perpendicular to the ground and an anchor 104 positioned between the support 102 and the ground. The anchor 104 may be fixed to the ground in a conventional manner. In addition, the embodiment includes a control unit for controlling the storage battery and its operation in the same as the street lamp using a conventional solar energy, the description thereof will be omitted.

The support panel support 106 is installed at the upper end of the support 102. The support panel support portion 106 is rotatably installed with the longitudinal axis of the support 102 as a central axis, and a hinge connection portion 108 is formed at the distal end portion. Meanwhile, the support panel 110 is connected to the support 102 by the support panel support 106, and specifically, the hinge connector 112 and the support panel support 106 formed on one side of the bottom surface of the support panel 110. Hinge connecting portion 108 formed in the hinge is installed. Through this, the support panel 110 is rotatably connected in the vertical and horizontal directions with respect to the ground, it can be adjusted so that it can be installed at the optimum angle at the point where the street light is installed.

Such adjustment may be performed by a worker directly fixing the support panel 110 by hand, or by installing an electric motor or the like on the hinge connection unit or the like by using a switch or a remote controller.

In this case, the support panel 110 is a rectangular steel structure, but is not necessarily limited thereto, and may be a flat plate of any form. The material is not necessarily made of metal, and may be made of synthetic resin material as long as adequate strength can be obtained.

The solar cell 114 for converting solar energy into electrical energy is installed on the upper side of the support panel 110, and the lamp unit 122 is installed on the lower side. The lamp unit 122 uses LED as a light source, and is connected to the support panel 110 by a ball socket joint. That is, the support panel 110 and the socket 120 are formed, and a ball 124 is formed on the rear surface of the lamp unit 122 so that the two are coupled, so that the lamp unit 122 is connected to the support panel 110. It can be installed to adjust the angle with respect to.

Here, the angle adjusting mechanism is not necessarily limited to the illustrated form, and any means capable of fixing the lamp unit at an arbitrary angle with respect to the support panel, for example, a universal joint or the like may be used.

1 is a perspective view showing an example of a conventional LED lamp using solar energy.

Figure 2 is a side view showing an embodiment of an LED lamp using solar energy according to the present invention.

Claims (3)

Columnar pillars fixed to the ground; A support panel fixed to an upper end of the support; A solar cell installed on one side of the support panel; And It includes an LED lamp unit installed on the other side of the support panel, The LED lamp unit is a LED street light using solar energy, characterized in that the fixing angle can be adjusted with respect to the support panel. The method of claim 1, The LED lamp unit and the support panel LED street light using solar energy, characterized in that fixed by any one of the ball socket joint or universal joint. The method of claim 1, The support panel is solar energy, characterized in that rotatably installed with respect to the support, the first axis parallel to the longitudinal direction of the support and the second axis perpendicular to the first axis and parallel to the ground, respectively. LED street light.

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