KR101801368B1 - Self rechargeable signboard - Google Patents

Abstract

The present invention relates to a self-rechargeable sign that emits light using power generated by self-power generation by solar light without connection of a separate cable or the like, And a plurality of LED light sources arranged along the longitudinal direction, wherein the plurality of LED light sources are arranged in the longitudinal direction of the solar light generating unit, A first sensor unit that senses a light amount of the power storage unit and the outside and determines whether the light amount is less than a reference amount, the illumination unit that emits light using the power generated by the solar power generation unit, Thereby providing a self-contained signpost.

Description

{Self rechargeable signboard}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a self-rechargeable signboard, and more particularly, to a self-rechargeable signboard that emits light using electric power generated by self-generation of sunlight without connection of a separate cable or the like.

As the industrial society develops, signs of advertisement or information function are displayed clearly and strongly through the light source which is provided by self-provided light sources such as traffic signs on roads and various advertisement displays (signboards) of other business places The function and the structure are being improved.

In order to provide advertisements or guidance functions not only during the daytime but also during the daytime, such signboards are provided with advertising signs using light emitting devices such as fluorescent lamps, incandescent lamps, or neon lights. In recent years, a technique using a light emitting diode (LED) as a light emitting element of a sign has been widely used. LED light sources are generally smaller than other light sources, have a long life, have low power consumption, and are efficient.

In order to provide an advertising or guidance function at night, a sign including an LED light source must emit light using electric power supplied from an external power source through a cable and a pole as a power source.

However, these conventional signs use electric power supplied from the electric power source through the cable and the electric pole as the power source, and when the installation place is far from the electric power source, electric pole and cable which are proportional to the distance are required, Not only the facility cost is excessively increased but also a separate stabilizer is installed and operated by using an AC commercial power source such as metal, sodium, etc., thereby increasing power consumption.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a self-rechargeable sign that emits light using electric power generated by self- The purpose. However, these problems are exemplary and do not limit the scope of the present invention.

According to one aspect of the present invention, there is provided an optical module, comprising: a main frame having an inner space and a marking portion; and a power generation optical module extending in a longitudinal direction on the main frame, A plurality of LED light sources arranged along the longitudinal direction and emitting light by using the power generated by the solar power generation unit; a power generation unit for storing the power generated by the solar power generation unit And a first sensor unit for detecting a light quantity of the power storage unit and the outside and determining whether the light quantity is less than the reference quantity.

According to this embodiment, the main frame has an opening in which at least a part of the upper surface is open, and the power generating optical module can be seated in the opening.

According to the present embodiment, the power generation optical module has a coupling groove extending in the longitudinal direction on the side surface, and the coupling groove can be engaged with the opening.

According to the present embodiment, the power generation optical module includes an upper portion located on the outer side of the main frame and a lower portion located on the inner side of the main frame with respect to the coupling groove, the solar power generating portion being located on the upper side portion, And the illuminating part may be positioned on the lower side.

According to the present embodiment, the main frame may further include a fixing part for fixing the power generation optical module to the upper surface of the main frame.

According to the present embodiment, the apparatus may further include an angle adjuster for adjusting the angle of the solar power generator according to the position of the sun.

According to the present embodiment, the angle adjusting unit can adjust the angle formed by the upper surface of the main frame and the solar power generating unit to be equal to or greater than 0 degrees and less than 45 degrees.

According to the present embodiment, the apparatus may further include a second sensor unit for sensing a sound or movement of the surroundings.

According to an embodiment of the present invention as described above, a self-rechargeable sign that emits light using power generated by self-power generation by sunlight without connecting a separate cable or the like can be implemented. Of course, the scope of the present invention is not limited by these effects.

1 is a front view schematically showing a self-charging signboard according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view schematically showing the self-charging sign of FIG. 1; FIG.
3 is a plan view schematically showing an upper surface of the self-charging sign of Fig. 1;
4 is a cross-sectional view schematically showing an embodiment of a cross section taken along the line IV-IV of the self-charging sign of Fig. 3;
5 is a bottom view schematically showing a bottom surface of the power generation optical module of Fig.
6 is a cross-sectional view schematically showing another embodiment of a cross section taken along line IV-IV of the self-charging sign of Fig. 3;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, Is provided to fully inform the user. Also, for convenience of explanation, the components may be exaggerated or reduced in size. For example, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, and thus the present invention is not necessarily limited to those shown in the drawings.

In the following embodiments, the x-axis, the y-axis, and the z-axis are not limited to three axes on the orthogonal coordinate system, and can be interpreted in a broad sense including the three axes. For example, the x-axis, y-axis, and z-axis may be orthogonal to each other, but may refer to different directions that are not orthogonal to each other.

On the other hand, when various elements such as layers, films, regions, plates and the like are referred to as being "on " another element, not only is it directly on another element, .

FIG. 1 is a front view schematically showing a self-charging type signboard according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view schematically showing the self-powered signboard of FIG.

1 and 2, a self-charging sign 1 according to an embodiment of the present invention includes a main frame 10 and a power generation optical module 20. The power generation optical module 20 includes a solar power generation section 22 for collecting sunlight to produce electric power, an illumination section 24 for emitting light using the power generated from the solar power generation section 22, A power storage unit 26 that stores power generated by the first sensor unit 22, and a first sensor unit 28 that senses an external light amount and determines whether the light amount is less than the reference amount.

The main frame 10 forms the appearance of the self-charging sign 1 according to the present embodiment and can have an internal space. The main frame 10 may have a rectangular frame shape having a curved corner as shown in FIG. 1, and may have various other shapes. The main frame 10 may be provided at its lower portion with a support 11 capable of supporting the main frame 10. The support portion 11 may be fixed to the ground or the structure, or may be formed to be movable.

The main frame 10 may include a first side 12, a second side 14 and a top side 16 located opposite to the first side 12. A marking 13 may be positioned on the first side 12 of the main frame 10 to illustrate the marking of the self-contained sign 1. In some cases, the marking portions 13 may be located on both sides of the first surface 12 and the second surface 14 of the main frame 10. In the present embodiment, a bus guide plate may be provided as the marking unit 13, but the marking unit 13 may be variously provided without limitation.

Meanwhile, the power generation optical module 20 may be provided on the upper surface 16 of the main frame 10.

The power generation optical module 20 may extend in one direction (X-axis direction) and may be positioned above the main frame 10. The top surface 16 of the main frame 10 has an opening 16a at least a portion of the top surface 16 being open and the power generation light module 20 can be seated in the opening 16a. The power generating optical module 20 has a coupling groove 25 extending in the longitudinal direction on the side surface and the coupling groove 25 can engage with the opening 16a of the upper surface 16 of the main frame 10 .

The power generation optical module 20 includes a solar power generation section 22 for collecting sunlight to produce electric power, an illumination section 24 (see FIG. 4) for emitting light using the power produced by the solar power generation section 22, A power storage unit 26 (see FIG. 4) for storing the power produced by the solar power generation unit 22, and a first sensor unit 28 for sensing the amount of light outside and determining whether the light amount is less than the reference amount have. The detailed structure of the power generation optical module 20 will be described later in detail with reference to Figs. 3 to 5.

FIG. 3 is a plan view schematically showing a top surface 16 of the self-charging sign 1 of FIG. 1, and FIG. 4 is a cross-sectional view of a self- Fig. 5 is a bottom view schematically showing a bottom surface of the power generation optical module 20 of Fig. 1; Fig.

As described above, the power generation optical module 20 includes a solar power generation section 22 for collecting sunlight to produce electric power, an illumination section 24 for emitting light using the electric power produced by the solar power generation section 22, A power storage unit 26 for storing power produced by the solar power generation unit 22, and a first sensor unit 28 for sensing whether the amount of light is less than a reference amount by sensing an external light amount.

The power generating optical module 20 may be located on the top surface 16 of the main frame 10 as shown in Figure 3 so that the power generating optical module 20 is mounted on the top surface 16 of the main frame 10 The fixing part 23 may be provided. The fixing part 23 can be positioned at both ends in the lengthwise direction of the power generating optical module 20 and can pass through the ring 23a coupled to the power generating optical module 20, (Not shown). However, the shape of the fixing portion 23 is not limited thereto as long as it can be variously provided.

3, the photovoltaic power generation unit 22 may extend in the longitudinal direction on the upper surface 16 of the main frame 10. The solar power generation unit 22 is also called a solar cell and can generate electric power by connecting several solar cells converting solar energy into electric energy directly or in parallel. In the solar cell, an electron / hole pair is generated when light having an energy equal to or higher than the energy gap of the semiconductor is irradiated to the pn junction or the short-circuit contact of the semiconductor. The electron and the hole are separated by the electric field of the junction, It utilizes the photoelectric effect that flows.

The size of the solar panel used in the solar power generating unit 22 may vary depending on the surrounding environment information of the self-charging signboard according to the present embodiment, the amount of electric power required to display specific contents, and the like. In a preferred embodiment of the present invention, the solar power generating unit 22 may be constituted by a solar panel having a size capable of performing lighting and display functions for a day with an amount of electric power produced by exposure to sunlight for about 10 hours .

4 and 5, the illumination unit 24 may include a plurality of LED light sources 24a disposed along the longitudinal direction (x-axis direction) of the power generation optical module 20. [ The illuminating unit 24 performs at least one of a function of displaying specific contents and a function of illuminating a predetermined area. 5, a plurality of LED light sources 24a are arranged in a row along the longitudinal direction (x-axis direction) of the power generation optical module 20. However, the plurality of LED light sources 24a may be arranged in a plurality of rows have. The plurality of LED light sources 24a may be provided on the bottom surface of the power generation optical module 20 and may be disposed in the lead-in groove 27 drawn inward as shown in FIGS. It is possible to prevent the plurality of LED light sources 24a formed in a protruding shape from being damaged by such arrangement.

In order to supply electric power to the plurality of LED light sources 24a, a plurality of LED light sources 24a included in the illumination unit 24 are required to emit light. The electric power provided through the electric pole was used as a power source to emit light. However, when the installation site is far from the power supply, such a structure requires a pole and a cable which are proportional to the distance, so that the initial facility cost has been excessively consumed. In addition, an AC commercial power source is used to supply metal, There is a problem that the power consumption is increased because a separate ballast is installed and operated.

Therefore, in the self-powered sign 1 according to the embodiment of the present invention, the illuminating unit 24 can emit light using the power generated by the solar power generating unit 22 without connecting a separate cable or the like. Although not shown, the plurality of LED light sources 24a may display specific contents using LEDs emitting various colors, and may illuminate a certain area by using a white LED, a yellow LED, or the like.

Referring to FIG. 4, the power storage unit 26 may be electrically connected to the solar power generation unit 22 to store the electric power generated by the solar power generation unit 22. FIG. The self-charging sign 1 of the present embodiment requires a certain amount of electric power to perform illumination or display functions at night as well as at night. Therefore, the power storage unit 26 stores the generated power when the solar power generation unit 22 is exposed to the sunlight for a certain period of time, and when the amount of power produced through the solar power generation unit 22 is less than a predetermined value, When there is no electric power, it is possible to provide the amount of electric power necessary for the operation of the self-charging sign 1. The capacity of the power storage unit 26 can be selected in accordance with the size of the solar panel of the self-charging sign 1 and the time of exposure to the sunlight. In a preferred embodiment of the present invention, the power storage unit 26 may have a capacity capable of storing the amount of power that the solar power generation unit 22 can produce for about three days.

Referring to FIG. 3, the first sensor unit 28 may be provided on one side of the power generation optical module 20. The first sensor unit 28 may include an illuminance sensor, and may sense an external light amount to determine whether the light amount is less than a reference amount. That is, the first sensor unit 28 may turn off the illuminating unit 24 during the day when the amount of light is equal to or greater than the reference amount, and may illuminate the illuminating unit 24 during the night when the amount of light is equal to or less than the reference amount, . Although the first sensor unit 28 is described as being provided in the power generation optical module 20 in the present embodiment, the first sensor unit 28 may be provided in the main frame 10 in another embodiment.

2, the power generation optical module 20 has a coupling groove 25 extending in the longitudinal direction (x-axis direction) on the side surface thereof and a coupling groove 25 is formed on the upper surface 16 (Not shown). 4, the engaging groove 25 is engaged with the opening 16a of the upper surface 16 of the main frame 10. As shown in Fig. The coupling groove 25 of the power generation optical module 20 can be coupled to the opening 16a of the upper surface 16 of the main frame 10 in a fitting manner.

4, the power generation optical module 20 includes an upper portion 20a located on the outer side of the main frame 10 and a lower portion 20b located on the inner side of the main frame 10, And a side portion 20b. The upper portion 20a of the power generating optical module 20 may protrude to the outside of the main frame 10 and the lower portion 20b of the power generating optical module 20 may be provided inside the main frame 10 Can be located in space. The solar power generation unit 22 may be provided on the upper side 20a of the power generation optical module 20 and the illumination unit 24 may be provided on the lower side 20b of the power generation optical module 20. [

The power storage unit 26 may be located below the solar power generation unit 22 and the power storage unit 26 may be located below the solar power generation unit 22. However, But is not limited thereto. The power storage unit 26 is a place where the sunlight is condensed by the solar power generation unit 22 and stores the produced power. The power storage unit 26 is electrically connected to the illumination unit 24, Can supply.

1 and 2, the first surface 12 of the main frame 10 may further include a second sensor unit 29 for sensing sound or movement of the surroundings. Although the second sensor unit 29 is shown on the first surface 12 of the main frame 10 in the drawing, it is not limited thereto. The second sensor unit 29 may be provided in the power generation optical module 20 like the first sensor unit 28. The second sensor unit 29 may include a plurality of sensors in consideration of a sensing angle and a range in order to effectively sense a surrounding sound or person. The second sensor unit 29 may include various types of sensors such as an infrared sensor, a motion sensor, and a sound sensor.

The amount of electric power supplied to the illumination unit 24 can be adjusted by sensing the sound or movement of the surroundings through the second sensor unit 29. This can reduce power consumption by turning off the lighting unit 24 or driving the lighting unit 24 with a low power when human presence is not detected in the surroundings, and can prevent light pollution that may occur in a mountain or in a rare place. Thus, the self-rechargeable sign 1 having the second sensor unit 29 can be easily used in a place such as a platform where people are not always staying in the surrounding area. Further, the self- So that it is possible to supply power stably even in a situation where it is not easy to produce electric power.

6 is a cross-sectional view schematically showing another embodiment of a cross section taken along line IV-IV of the self-charging sign 2 of FIG.

Referring to FIG. 6, the self-charging sign 2 according to the present embodiment may further include an angle adjusting unit 21 for adjusting the angle of the solar power generating unit 22 according to the position of the sun. The configuration except for the angle adjusting portion 21 is substantially the same as that of the self-charging sign 1 described above.

The angle adjusting unit 21 according to the present embodiment can be interposed between the power storage unit 26 and the solar power generation unit 22 and can control the angle of the power storage unit 26 and the solar power generation unit 22, May be electrically connected. In this embodiment, the solar power generating unit 22 is spaced apart from the upper surface 16 of the power generating optical module 20 by the angle adjusting unit 21, but the present invention is not limited thereto. The angle adjusting unit 21 may change the angle of the power generating optical module 20 in which the solar power generating unit 22 is embedded in order to change the angle of the solar power generating unit 22. [ The structure and arrangement of the angle regulating portion 21 are not limited to those shown in Fig. 6 as described above. The angle regulating portion 21 may be formed of various types Structures and arrangements may be applied.

The reason why the angle adjusting unit 21 adjusts the angle of the solar power generating unit 22 is that the upper surface 16 of the main frame 10 and the solar power generating unit 22 are not parallel to each other, The sunlight power generation unit 22 is positioned at an angle with respect to the upper surface 16 of the solar battery unit 22. The angle formed between the upper surface 16 of the main frame 10 and the solar power generating part 22 can be adjusted to be equal to or greater than 0 and equal to or less than 45 by the angle adjusting part 21. [ The angle regulating portion 21 may be manually adjusted according to the direction in which the self-rechargeable sign 2 according to the present embodiment is installed or may be manually adjusted by taking the circumferential movement of the sun into consideration by applying a sensor So as to be changed. And a third sensor unit (not shown) and a control unit (not shown) that can control the angle adjusting unit 21 in the latter case.

As described above, the self-rechargeable type signs 1 and 2 according to this embodiment do not require a cable or an electric wire for receiving electric power from the outside, so they are relatively safe compared to the conventional signboards, and the electric power generation through self- It is also effective in reducing maintenance costs when used for a long period of time. Also, the brightness of the illumination unit 24 can be adjusted according to the amount of external light or human presence around the user, so that the stored power can be efficiently utilized. In addition, the angle of the solar power generation unit 22 can be freely adjusted according to the position of the sun, and solar power generation can be effectively performed.

While the present invention has been described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1, 2: self-charging sign 10: main frame
11: Support part 12: First side
13: Cover part 14: Second side
16: upper surface 16a: opening
20: power generation optical module 20a:
20b: lower portion 21: angle adjusting portion
22: Solar power generating part 23: Fixing part
24a: a plurality of LED light sources 24:
25: coupling groove 26: power storage unit
28: first sensor unit 29: second sensor unit
27: inlet groove

Claims (8)

A main frame having an internal space and including a marking portion; And a power generation module extending in a longitudinal direction on an upper surface of the main frame,
The power generation optical module includes a solar power generation unit for collecting sunlight to produce electric power; An illumination unit including a plurality of LED light sources disposed along the longitudinal direction and emitting light using power generated by the solar power generation unit; A power storage unit for storing power generated by the solar power generation unit; A first sensor unit for sensing an external light amount and determining whether the light amount is less than a reference amount; And a second sensor unit for sensing sounds or movements of the surroundings,
The main frame includes:
The power generating optical module having an opening at least partially open on the top surface,
The power generation optical module includes:
Further comprising a fixing portion having a coupling groove extending in the longitudinal direction on the side surface, the coupling groove engaging with the opening, and fixing the power generation optical module,
And a lower portion located on the inner side of the main frame, the solar power generation portion being located on the upper side portion, the illumination portion being located on the lower side portion,
Further comprising an angle adjuster for adjusting an angle of the solar power generator according to the position of the sun,
The illumination unit includes:
Wherein the plurality of LED light sources are arranged along a longitudinal direction of a lead-in groove drawn inwardly on a bottom surface of the power generation optical module to prevent damage to the plurality of LED light sources. delete delete delete delete delete delete delete

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