KR200455815Y1 - Solar fog light - Google Patents

Abstract

The present invention relates to a solar fog lamp that can adjust the direction and angle of the solar cell to the position that receives the best solar energy.
The present invention has a case 10 having a fixed tube 11 in the lower center; A plurality of LEDs 20 embedded in multiple concentric circles in front of the case 10 to emit light; A front cover 30 coupled to the front of the case 10; A cap 40 coupled to an upper portion of the case 10 and having a ball 41 protruding toward an upper center thereof; A control box 50 which is connected to the ball 41 of the cap 40 so as to adjust direction and angle through a socket 51 provided at a lower center thereof to accommodate the storage battery B; It is configured to include a solar cell box 60 coupled to the upper portion of the control box 50 to receive the solar cell (S).

Description

Solar fog lamp

The present invention relates to a solar fog light, which is a road traffic safety facility, and more particularly, to a solar fog light that can properly adjust the direction and angle of a solar cell to a location where solar energy is best received.

In general, solar fog lights are installed in order to induce traffic order and safe driving by inducing the driver to accurately recognize the location of the lane and driving cars not to invade the lane when driving at night. Such solar fog lights are installed on the road. It is used for lane guidance and regulation, sidewalk and lane separation marking, safety zone marking, crosswalk marking, and collision prevention. In particular, solar fog lamps are installed to control the entry of the other lane in the lanes such as the intersection with the waiting lane entering the intersection and the place where the traffic to the lane where there is no signal is frequently blocked, the turn radius is large, or the place where the risk of accident is high. .

Solar fog light used for this purpose converts solar energy into electrical energy with solar cells during the day and stores them in the battery.In case of bad weather due to night or dense fog, LED is automatically used by photo sensor. (LED) is configured to emit light.

However, the conventional solar fog light is fixed so that the direction and angle of the solar cell that converts the solar energy into electrical energy and stored in the battery can not be adjusted, that is, the position and angle of the solar cell to the position where the solar energy is best received. Since it can not be adjusted, there was a problem that the amount of power generation of the solar cell is greatly reduced when installed in a position that does not receive the solar energy structurally.

On the other hand, the conventional solar fog light is configured to emit an LED by detecting the surrounding environment with a photosensor, but such a photo sensor is difficult to detect the surrounding environment sensitively, especially despite the daytime due to fog, even though the surrounding environment is dark, There is a structural problem that can not emit LED in a sensitive situation that can not be detected by the sensor.

That is, since the conventional solar fog light could not control the LED wirelessly from the central control room, the surrounding environment is dark due to the fog, but when there is a problem that the LED cannot be emitted when the sensor is not detected by the photosensor.

The object of the present invention is to solve the above-mentioned drawbacks as described above, and to adjust the direction and angle of the solar cell to a position where the amount of sunshine received the best solar energy is best, the amount of solar cell power generation To provide a solar fog light that can be raised.

Another object of the present invention is to use RFID (Radio Frequency IDentification) to control the LED wirelessly in the central control room (on, off), even in the daytime due to fog, etc. It is to provide solar fog light that can emit LED wirelessly when it is not detected.

In order to achieve the above object, the present invention incorporates a plurality of LEDs (LEDs) emitting light in front of a case provided with a fixed tube in a multi-concentric manner, and combines a front cover to the front of the case, and an upper portion of the case. Combine the cap with the ball protruding into the upper center, and connects the control box with a battery built into the ball of the cap with a socket provided in the lower center to adjust the direction and angle, the solar cell on the top of the control box The built-in solar cell box is combined.

According to the solar fog lamp of the present invention, since the direction and angle of the solar cell can be properly adjusted to a position where sunlight is best received by the solar energy, there is an effect of increasing the amount of generation of the solar cell structurally.

1 is a perspective view of the present invention.
Figure 2 is an exploded perspective view of the present invention.
3 is a front view of the present invention.
Figure 4 is an exploded perspective view showing a socket according to the present invention.
5 and 6 are a front view and a side view showing the action of the socket according to the present invention.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

Solar fog light of the present invention is shown in Figures 1 to 6, the case 10 having a fixed tube 11 in the lower center; A plurality of LEDs 20 embedded in multiple concentric circles in front of the case 10 to emit light; A front cover 30 coupled to the front of the case 10; A cap 40 coupled to an upper portion of the case 10 and having a ball 41 protruding toward an upper center thereof; A control box 50 which is connected to a spherical joint to allow direction and angle adjustment through a socket 51 provided at a lower center of the ball 41 of the cap 40 to accommodate a storage battery B; Coupled to the top of the control box 50 is configured to include a solar cell box 60 for receiving the solar cell (S) is a basic feature of the technical configuration.

Here, the case 10 constitutes a main body of a solar fog lamp according to the present invention, and a fixed tube 11 which is fitted to a post on a road and fixed to the lower center of the case 10 is integrally formed. At this time, the case 10 is made of a durable opaque synthetic resin not to be easily broken or broken.

The LED 20 is embedded in a plurality of concentric circles in front of the case 10 to emit light, the plurality of LED 20 is turned off and turned on by the PCB board embedded in the case. Therefore, the LED 20 is turned off when the surroundings are bright and turned on when the surroundings are dark. In this case, according to the present invention, since the LED 20 is disposed in a plurality of concentric circles on the front of the case 10 as a whole, it is possible to diffuse the light even brighter than the conventional solar fog lamp.

The front cover 30 is to be coupled through screwing in a state that is airtightly fitted to the front of the case 10, the front cover 30 is made of a transparent synthetic resin.

The cap 40 is coupled by screwing in a state fitted to the upper portion of the case 10, the upper center of the cap 40 supports the control box 50 by the joint to enable the direction and angle adjustment The ball 41 is formed integrally.

The control box 50 is disposed on the upper portion of the cap 40, the lower center of the control box 50 is connected to the joint to enable the direction and angle adjustment to the ball 41 of the cap 40 The socket 51 is provided, and the storage battery B is built in the control box 50. Therefore, according to the present invention, because the control box 50 is connected to the ball 41 of the cap 40 through the socket 51, the direction and angle of the control box 50, if necessary It can be adjusted appropriately.

According to a preferred embodiment of the present invention, as shown in Figure 2 and 4, the socket 51 is divided into two, one is formed integrally with the control box 50, the other two sockets in the separated state 51 is coupled to each other through the screw (1), nut (2) fastening.

Both sides of the two equally divided sockets 51 are provided with flanges 52 coupled by screw 1 and nut 2 fastening, respectively, and the screw 1 is fitted in the center of the flange 52. The pores 53 are formed, respectively.

In addition, protrusions 54 and grooves 55 coupled to each other are formed on upper and lower surfaces of the flange 52 of the two sockets 51.

The battery B is built in the control box 50, and the battery B charges an electrical signal converted by the solar cell S so that the plurality of LEDs 20 can be turned on.

The solar cell box 60 is coupled through the screw fastening in the state fitted to the upper portion of the control box 50 is to be combined to control the direction and angle integrally with the control box 50, such a solar cell box 60 Inside the cell is a solar cell (S). Therefore, according to the present invention, as described above, the control box 50 is connected to the ball 41 of the cap 40 through the socket 51, and the solar cell box 60 is connected to the control box ( Since it is integrally coupled to the upper portion of the 50 through a screw, it is possible to properly adjust the direction and angle of the solar cell box 60 as necessary.

The solar cell S is embedded in the solar cell box 60. The solar cell S absorbs sunlight and converts it into an electrical signal.

According to the exemplary embodiment of the present invention, the control box 50 has an RFID controller C embedded therein, and an RFID antenna 70 is rotatably installed at one side of the control box 50.

For reference, RFID (Radio Frequency IDentification) technology recognizes information over a long distance by using radio waves, as is well known. Such RFID technology replaces bar codes to network and intelligent goods management, thereby providing medical, medical, It is expected to lead innovation in safety, protection, and environmental management in the fields of medicine and food.In addition, RFID technology can be extended to informatization policy using things other than human beings. It is emerging as a core technology that can expand the horizon of the company. Therefore, if the RFID technology is applied to the present invention, it is possible to control (on, off) the LED 20 wirelessly in the central control room.

The RFID controller (C) is built in the control box 50, the RFID controller (C) serves to control (on, off) the LED 20 in accordance with the signal sent wirelessly from the central control room. .

The RFID antenna 70 is rotatably installed on one side of the control box 50, the RFID antenna 70 receives a wireless RFID signal sent from the central control room and delivers it to the RFID controller (C). Done. In this case, the LED 20, the RFID controller C, the battery B, the RFID antenna 70, and the solar cell S are electrically connected.

The solar fog lamp of the present invention configured as described above also converts solar energy into electrical energy in the solar cell (S) during the day, and stores it in the storage battery (B), and automatically by a photo sensor when the weather worsens due to night or dense fog. By using the stored electric energy to emit the LED 20, it is conventional to induce a lane so that the driver can accurately recognize the position of the lane.

However, according to the solar fog lamp of the present invention, as described above, as described above, the control box 50 is connected to the ball 41 of the cap 40 through the socket 51, the solar cell box ( 60) is integrally coupled to the upper portion of the control box 50 by screwing, and if necessary, the direction and angle of the solar cell box 60 can be properly adjusted, and through this, the amount of sunshine best received by solar energy is achieved. Since the direction and angle of the solar cell S can be properly adjusted to a good position, there is an advantage that the power generation amount of the solar cell S can be structurally increased.

In addition, according to the solar fog lamp of the present invention, as described above, the RFID controller (C) and the RFID antenna 70 is installed in the control box 50 to structurally control the LED 20 wirelessly in the central control room using RFID. Because it can be (on, off), despite the daytime due to fog, etc., even though the surrounding environment is dark, when the photo sensor is not detected by wireless control it has the advantage of emitting the LED 20.

In addition, according to the solar fog light of the present invention, as described above, the LED 20 is arranged in a plurality of concentric circles as a whole in front of the case 10, it can structurally diffuse light brighter than conventional solar fog light. There is an advantage.

10 case 11 fixed tube
20: LED 30: front cover
40: cap 41: ball
50: control box 51: socket
60: cell box 70: RFID antenna
C: RFID Controller B: Storage Battery
S: Cell

Claims (4)

A case 10 having a fixing tube 11 at a lower center thereof; A plurality of LEDs 20 embedded in multiple concentric circles in front of the case 10 to emit light; A front cover 30 coupled to the front of the case 10; A cap 40 coupled to an upper portion of the case 10 and having a ball 41 protruding toward an upper center thereof; A control box 50 which is connected to the ball 41 of the cap 40 so as to adjust direction and angle through a socket 51 provided at a lower center thereof to accommodate the storage battery B; Solar fog light including a solar cell box 60 is coupled to the upper portion of the control box 50 to receive the solar cell (S). According to claim 1, wherein the sockets 51 are divided into two, one is formed integrally with the control box 50, the two equally divided sockets 51 on both sides of the screw (1), nut (2) Each of the flanges 52 are coupled to each other by fastening. A solar fog lamp, characterized in that the center of the flange 52 is provided with a screw hole 53 into which the screw 1 is fitted. The solar fog lamp according to claim 2, wherein protrusions (54) and grooves (55) are formed on upper and lower portions of inner surfaces of the flanges (52) of the two separated sockets (51). The solar fog light according to claim 1, wherein the control box (50) has an RFID controller (C) embedded therein and an RFID antenna (70) is rotatably installed at one side of the control box (50).

Images