KR20090008259U - Solar cell using piezoelectric ceramics - Google Patents

Abstract

The present invention installs a solar cell that converts the energy of sunlight into electrical energy to charge the sunlight with electrical energy during the day and then emit the light emitting unit using the charged electrical energy at night to induce the general people walking direction In addition, the present invention relates to a light emitting block using a solar cell, which is provided with a plurality of uneven plates to guide the visually impaired walking direction.

The light emitting block using the solar cell according to an embodiment of the present invention is the upper body is open and the space is formed therein, the lower body having a coupling protrusion on the bottom surface, the solar cell unit is installed in the coupling protrusion, and A rechargeable battery installed in the space portion and electrically connected to the solar cell unit, a light emitting unit electrically connected to the rechargeable battery and installed in a flash portion within the space portion, and installed in the space portion and electrically connected to the rechargeable battery and the light emitting unit. A control unit for controlling the blinking of the light emitting unit and coupled to an upper side of the lower body, and a through window is formed at one side of the upper surface to expose the solar cell unit, and the other side is emitted from the light emitting unit. The upper body through which the display window is formed so that the light is exposed to the outside, and airtightly to the through window and the display window It is characterized in that it comprises a tempered glass member to be coupled, and an uneven plate installed on the upper body.

Cell, Light Block, Body, Rechargeable Battery, Light Unit, Control Unit, Tempered Glass, Uneven Plate

Description

Light emitting block using solar cell {SOLAR CELL USING PIEZOELECTRIC CERAMICS}

The present invention relates to a light emitting block using a solar cell, and more specifically, to install a solar cell that converts the energy of sunlight into electrical energy to charge the sunlight with electrical energy during the day and then emit light using the charged electrical energy at night The present invention relates to a light emitting block using a solar cell capable of inducing a walking direction of a general public by emitting a unit, as well as installing a plurality of uneven plates to induce a walking direction of a visually impaired person.

In general, various signs are installed on the pedestrian walkway to guide the pedestrian's walking direction, and blocks are provided to display the unevenness on the stop line or guide line to help the visually impaired walk along the texture. .

However, in the case of signs for the general public, night identification was very difficult when no separate lighting was installed, and in order to solve this problem, a separate lighting that was supplied with power was required to be installed. In order to be able to do the situation was to install a separate block formed irregularities.

Therefore, an object of the present invention is to install a solar cell that converts the energy of sunlight into electrical energy and charge the sunlight with electrical energy during the day and then emit the light emitting unit using the charged electrical energy at night to induce the walking direction of the general public In addition, it is possible to provide a light emitting block using a solar cell capable of inducing a walking direction of the visually impaired by installing a plurality of uneven plates.

An object of the present invention described above is a lower body having an upper portion and a space portion formed therein and a coupling protrusion on a bottom surface thereof, a solar cell unit installed in the coupling protrusion, and the solar cell unit installed in the space portion. And a light emitting unit electrically connected to the rechargeable battery, the light emitting unit electrically connected to the rechargeable battery and installed in the space part so as to be flashable, and installed in the space part and electrically connected to the rechargeable battery and the light emitting unit. A control unit and a control unit are coupled to an upper side of the lower body, and a through window is formed at one side of an upper surface to expose the solar cell unit, and a display window penetrates at the other side so that light emitted from the light emitting unit is exposed to the outside. An upper body to be formed, a tempered glass member hermetically coupled to the through window and the display window, and the upper body It is achieved by providing a light emitting block using a solar cell characterized in that it comprises an uneven plate provided on the.

According to a preferred feature of the present invention the lower portion of the above-mentioned concave-convex plate protrudes and the fastening groove corresponding to the fastening protrusion is formed on the upper portion of the upper body, the concave-convex plate is coupled to the fastening protrusion and the fastening groove It is to be fixed on the upper body by the.

According to a more preferable feature of the present invention is that the above-described display window is formed in the shape of an arrow to indicate the location of the emergency exit that can be evacuated in an emergency.

According to a preferred embodiment of the present invention by installing a solar cell to convert the energy of sunlight into electrical energy to charge the sunlight with electrical energy during the day and at night the light emitting unit using the charged electrical energy to emit light to the general people walking direction Not only can induce a large number of uneven plate is installed has an excellent effect of inducing the walking direction of the visually impaired.

1 is a perspective view of a light emitting block using a solar cell according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a light emitting block using a solar cell according to an embodiment of the present invention, Figure 3 A cross-sectional view of a light emitting block using a solar cell according to an embodiment of the present invention is shown, and Figs. 4 to 5 show a state of use of the light emitting block using a solar cell according to an embodiment of the present invention.

The light emitting block 1 using the solar cell according to the preferred embodiment of the present invention has a lower body 10 having an upper portion, a space portion 11 formed therein, and a coupling protrusion 12 formed on a bottom surface thereof. , The solar cell unit 20 installed in the coupling protrusion 12, the rechargeable battery 30 installed in the space 11 and electrically connected to the solar cell unit 20, and electrically connected to the rechargeable battery 30. And a light emitting unit 40 installed in the space unit 11 so as to be flashable and installed in the space unit 11 and electrically connected to the rechargeable battery 30 and the light emitting unit 40 and flashing of the light emitting unit 40. The control unit 50 and the control unit 50 is coupled to the upper side of the lower body 10, one side of the upper surface through-hole 61 is formed so that the solar cell unit 20 is exposed, the other side light-emitting unit 40 The upper window 60 through which the display window 62 is formed so as to expose the light emitted from the outside to the outside, and the through window 61 and the display window 62. And a glass member 70 is coupled to miljeok, includes a yaw iron plate 80 that is provided on the upper main body (60).

Here, the lower body 10 serves to be fixed to the ground on which the constituent members to be described later and the light emitting block 1 using the solar cell will be installed, the upper portion is open and the space 11 is formed therein. And the coupling protrusion 12 is provided on the bottom surface.

The lower body 10 is formed in the shape of a rectangular box, the shape can be formed in a variety of shapes according to those skilled in the art, the material may be formed of a variety of materials, such as metal, stone, wood and synthetic resin to be.

The above-described coupling protrusion 12 serves to allow the solar cell unit 20 to be described later to be fixed without moving its position in the lower body 10, and the plurality of solar cell units 20 In order to be installed) a plurality of protrusions are formed extending from the one side of the lower body 10 to the other side in the longitudinal direction.

On the other hand, in the above-described coupling protrusion 12, the solar cell unit 20 is installed, the solar cell unit 20 serves to convert the energy of sunlight into the form of electrical energy.

The solar cell unit 20 generates electricity using two types of semiconductors, a P-type semiconductor and an N-type semiconductor. When sunlight shines on the solar cell, electrons and holes are generated, and the generated charges are P and N. This phenomenon is caused by a potential difference between the P pole and the N pole due to this phenomenon. At this time, when the load is connected to the solar cell, the current is the same as that of the conventional solar cell. It will be omitted for the sake of simplicity.

In the space 11 of the lower body 10 in which the above-described solar cell unit 20 is installed, a rechargeable battery 30 is installed, and the rechargeable battery 30 is electrically connected to the solar cell unit 20 so that the solar cell is connected to the solar cell unit 20. The electric energy converted in the cell unit 20 is charged.

In addition, the light emitting unit 40 is installed in the space 11 of the lower body 10 provided with the above-described rechargeable battery 30 so that the light emitting unit 40 is electrically connected to the rechargeable battery 30. The light emitting unit 40 is preferably a LED lamp having a high brightness and a long life.

On the other hand, the control unit 50 is installed in the space portion 11 of the lower body 10 provided with the above-described light emitting unit 40, the control unit 50 is the above-described rechargeable battery 30 and the light emitting unit 40 ) Is electrically connected to serve to control the flashing of the light emitting unit 40.

The controller 50 is electrically connected to a natural disaster such as an earthquake or a sensor (not shown) that identifies a day or night, such as an earthquake, provided at one side of a space in which the light emitting block 1 using the solar cell is installed, and becomes a natural disaster situation. Alternatively, when it is necessary to turn on the light emitting unit 40 at night, it is preferable to receive the corresponding signal from the light emitting unit 40 to be turned on.

In addition, the controller 50 may be provided with a separate sensor (not shown) capable of identifying a natural disaster or day and night.

The light-emitting unit 40 once turned on may be turned off after a predetermined time elapses or from night to day, and may be installed in a space or a control unit 50 in which the light-emitting block 1 using the solar cell is installed. It may be turned off by receiving a signal from the sensor (not shown) indicating the end of the situation.

On the other hand, the upper body 60 is coupled to the upper side of the lower body 10 in which the above-described Jay is installed, the upper body 60 finishes the light emitting block 1 using a solar cell constituting a component therein. It is to play a role.

The upper body 60 is coupled to the upper side of the lower body 10, is coupled to wrap the outer surface of the lower body 10, a separate rubber packing on the coupling portion so that foreign matter does not flow from the outside (not shown) May be provided).

In addition, the above-described upper body 60 is coupled to the upper side of the lower body 10, a through window 61 is formed on one side of the upper surface to expose the solar cell unit 20, the other side of the light emitting unit ( The display window 62 is formed to penetrate the light emitted from the 40 to the outside.

The aforementioned through window 61 is formed to correspond to the number of solar cell units 20 coupled to the above-mentioned coupling protrusion 12, and the above-described display window 62 is to be evacuated to natural pedestrians during natural disasters such as earthquakes. It can be formed in the shape of an arrow to guide the shelter or to serve to guide the walking direction at night.

On the other hand, the above-described through window 61 and the lower portion of the display window 62, the tempered glass member 70 is hermetically coupled, the tempered glass member 70 is formed of a transparent tempered glass material of the through window 61 The solar cell unit 20 positioned in the lower portion is exposed to sunlight, and serves to emit the light to the outside when the light emitting unit 40 positioned in the lower portion of the display window 62 is turned on.

In addition, the above-mentioned upper body 60 is provided with an uneven plate 80, the uneven plate 80 serves to induce walking of the visually impaired.

The uneven plate 80 has a fastening protrusion 81 protrudingly formed at a lower portion thereof, and a fastening groove 63 corresponding to the fastening protrusion 81 is formed at an upper portion of the upper body 60 as described above. 80 is fixedly installed on the upper body 60 by the combination of the fastening protrusion 81 and the fastening groove (63).

Hereinafter, the overall operation relationship of the light emitting block 1 using the solar cell according to an embodiment of the present invention will be described.

First, the light emitting block 1 using the solar cell is installed at the bottom of the sunlight, and during the week, the solar cell unit 20 converts the energy of sunlight into the form of electrical energy, and the converted electrical energy is the rechargeable battery 30 ) Is charged.

When the sensor (not shown) installed in the space in which the light emitting block 1 using the solar cell is installed or a sensor (not shown) installed in the control unit 50 detects a natural disaster such as an earthquake or a night, the controller 50 receives the rechargeable battery 30 ) Is applied to the light emitting unit 40 to emit light, and the display window 62 located above the light emitting unit 40 and formed in the shape of an arrow guides the direction of the shelter or changes the walking direction. You will be guided.

At the same time, a plurality of concave-convex plate 80 is formed on the upper body 60 to induce walking of the visually impaired.

The present invention can be variously modified by those skilled in the art without departing from the scope of the claims claimed in the utility model registration claims, the technical protection scope of the present invention is the specific preferred embodiment described above It is not limited to the example.

1 is a perspective view of a light emitting block using a solar cell according to an embodiment of the present invention.

Figure 2 is an exploded perspective view of a light emitting block using a cell according to an embodiment of the present invention.

3 is a cross-sectional view of a light emitting block using a solar cell according to an embodiment of the present invention.

Figure 4 is a state of use of the light emitting block using a solar cell according to an embodiment of the present invention.

5 is another use state of the light emitting block using the solar cell according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

1: light emitting block using solar cell

10: lower body

11: space part

12: coupling protrusion

20: Cell unit

30: rechargeable battery

40: light emitting unit

50: control unit

60: upper body

61: through window

62: display window

63: fastening groove

70: tempered glass member

80: uneven plate

81: fastening protrusion

Claims (3)

A lower body having an upper portion and a space portion formed therein and having a coupling protrusion at a bottom thereof; A solar cell unit installed in the coupling protrusion; A rechargeable battery installed in the space part and electrically connected to the solar cell unit; A light emitting unit electrically connected to the rechargeable battery and installed to blink in the space part; A control unit installed in the space part and electrically connected to the rechargeable battery and the light emitting unit and controlling the blinking of the light emitting unit; An upper body coupled to an upper side of the lower body, a through window formed at one side of an upper surface of the solar cell to expose the solar cell unit, and a display window penetrated at the other side to expose the light emitted from the light emitting unit to the outside; A tempered glass member hermetically coupled to the through window and the display window; And Light emitting block using a solar cell comprising a; concave-convex plate installed on the upper body. The method according to claim 1, A fastening protrusion protrudes from a lower portion of the uneven plate, and a fastening groove corresponding to the fastening protrusion is formed at an upper portion of the upper body, and the uneven plate is formed on the upper body by a combination of the fastening protrusion and the fastening groove. Light-emitting block using a solar cell characterized in that it is fixed. The method according to claim 1 or 2, The display window is a light emitting block using a solar cell, characterized in that formed in the shape of an arrow to indicate the location of the emergency exit that can be evacuated in an emergency.

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