KR101201880B1 - Solar reflector - Google Patents

Abstract

PURPOSE: A sunlight reflector is provided to notify the presence of an intersection to vehicles by reflecting the sunlight. CONSTITUTION: A space is formed in a body. A cover is fixed to the upper part of the body. The cover includes a protective window. A solar cell plate(33) is fixed to the cover. The solar cell plate generates power using the sunlight. A reflector(50) is located in the inner space. The reflector reflects the sunlight forwardly by controlling an angle according to the position of the sun. A controller(36) controls the angle of the reflector.

Description

Solar reflector

The present invention relates to a solar reflector, and more particularly, to a solar reflector for indicating the presence of the intersection to the vehicles entering the intersection installed without a traffic light.

In the case of the intersection of the road with a lot of traffic, traffic lights are installed in each direction, and a lot of methods are used in which vehicles pass according to the signals of the traffic lights. Such a method has the advantage of reducing traffic accidents by precisely controlling the access of the vehicle at a traffic light, but has a disadvantage of unnecessary unnecessary time consumption when there is not much traffic.

Therefore, the place where there is not much traffic keeps the traffic light in the blinking state, and takes the way to enter the intersection by each driver's attention.

However, at intersections without traffic lights, accidents often occur due to the driver's negligence in recognizing vehicles entering from other roads.

In order to overcome these disadvantages, a system including a light emitter installed at the center of an intersection, a sensor for recognizing whether a vehicle enters each road, and a controller for detecting the signal of the sensor and controlling the light emitter have been proposed.

The system is advantageous in that it accurately guides whether the vehicle enters by controlling the light emitter positioned at the center of the intersection by interlocking the signal of the sensor.

However, in the case of a sensor that recognizes the entry of a vehicle, the sensor must be replaced when a certain period of time has passed due to frequent contact with a vehicle. There are disadvantages.

In particular, in the outdoor environment, power supply is difficult to maintain in water leakage or rainy season, and the power-related components have to be replaced after a certain time, but there are disadvantages in that a unique function is maintained. .

In addition, in the daytime, it may be difficult to identify the light emitting body by the strong sunlight.

Therefore, it is necessary to use a self-produced power source, to perform vehicle entry guidance at an easy-to-maintain intersection, and to require a new system to draw attention to the user even during the day.

The present invention has been made to solve the above problems is to provide a solar reflector to notify the presence of the intersection to the vehicle entering the intersection by reflecting the sunlight.

In order to achieve the above object, the present invention provides a space formed therein; A cover fixed to the top of the body and having a protective window formed thereon; A solar panel fixed to the cover to generate power using solar light; A reflection unit located in the inner space of the body and reflecting the sun light introduced through the protective window by adjusting an angle according to the position of the sun with the power generated by the solar panel; And a control device for controlling the angle of the reflector using the power generated in the solar panel.

Preferably, the protective window further comprises an LCD which is converted into transparent and opaque by using the power of the solar panel, characterized in that the control device controls the power supply of the LCD.

More preferably, the protective window further includes an LED emitting light to the outside by using the power of the solar panel, characterized in that the control device controls the power supply of the LED.

Preferably, the reflector comprises: a reflecting structure comprising a reflecting surface formed with a mirror surface; It further comprises a horizontal axis drive for adjusting the angle of the horizontal axis of the reflective structure.

More preferably, the lower end of the horizontal axis drive body further comprises a vertical axis drive for adjusting the vertical axis angle of the reflective structure.

Preferably, the reflective structure is divided into two to be rotationally connected to each other, a rotating hole formed at the intersection of the separated elements, guide slots formed in each of the separate reflective structure, projections formed in each of the separate reflective structure, It includes a linear actuator that is rotatably coupled to the projection, the lower portion of the reflective structure includes a central projection formed in the center, the support is formed with two side projections formed on each side, the central projection of the support is coupled to the rotating hole The side protrusions are respectively coupled to the guide slots, and the support is connected to the horizontal shaft actuator.

Preferably, the body further comprises a wireless communication module connected to the control device.

The present invention reflects the sunlight during the day time to recognize the presence of the intersection in the vehicle entering the intersection, it has the effect of showing a higher recognition rate than the conventional method by the electric power under strong sunlight, and also charged during the day time By using the power to inform the vehicle of the presence of the intersection can be used both day and night, it is easy to maintain and maintain the power generation and reflection function in a single body.

1 is a perspective view showing the appearance of a solar reflector according to the present invention,
2 is a cross-sectional view illustrating the internal structure of FIG. 1,
3 is a configuration diagram illustrating a configuration of the reflector of FIG. 1;
4 shows another embodiment of the reflective structure of FIG. 1,
FIG. 5 is a diagram in which the reflective structure of FIG. 1 is low;
FIG. 6 is a case where the reflective structure of FIG. 1 is at night,
7 is a configuration diagram illustrating a configuration connected to the control device of FIG. 1.

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

First, as shown in FIG. 1, the solar reflector 100 according to the present invention includes a body 10 disposed below and embedded in a road and a cover 30 coupled to an upper end of the body 10. It is composed.

The body 10 is formed in a space therein is a plurality of components that can reflect the sunlight is mounted therein can be modified in various shapes.

The cover 30 is coupled to the upper end of the body 10. The cover 30 is detachably coupled to the body 10 with a screw or the like, and a sealing member may be attached to the coupling portion for sealing, and may also be coupled to prevent moisture or the like from penetrating into the inside by an appropriate pressing force. Can be.

In addition, the cover 30 is the front protective window 31 is located from the front to the top, the side protective window 32 is located on each side. The front protective window 31 and the side protective window 32 is preferably a reinforced plastic of a transparent material that can transmit light.

Here, the front protective window 31 and the side protective window 32 may be formed integrally if necessary. In particular, the front protective window 31 is preferably a predetermined region is formed at the top of the cover 30 to enter the sunlight coming down vertically.

In addition, a transparent upper protective window 38 is formed at an upper end of the cover 30, and a solar panel 33 and an illuminance sensor 34 are positioned below the upper protective window 38 to power solar light. To detect the amount of light.

If necessary, the front protective window 31, the side protective window 32 and the upper protective window 38 may be configured as a single protective window integral.

Meanwhile, as shown in FIG. 2, the body 10 includes a reflector 50, a battery 35, a control device 36, a wireless communication module 37, an LCD 40, and an LED 45. ) Is installed.

Here, the battery 35 serves to store electricity produced by the solar panel 33, and the LCD 40 is reflected by the reflector 50 to be converted into transparent and opaque depending on whether power is supplied. It is a composition for flashing outgoing light, which works continuously during the day and at night.

The LED 45 may be used at night to be turned on by using the battery 35 power, and may be used during the day if necessary.

The wireless communication module 37 is configured to synchronize the flashing of the neighboring reflector 100 and the LED 45 and the LCD 40 when a plurality of solar reflectors 100 are installed, such as a zigbee. May be applied.

The control device 36 serves to control the LED 45, the LCD 40, the wireless communication module 37, the reflector 50, etc., which will be described in detail later.

As shown in FIG. 3, the reflector 50 reflects sunlight, which is introduced through the upper end of the front protective window 31, through the front protective window 31 to the front. 60, a support 70 attached to the bottom surface of the reflective structure 60, a horizontal axis driver 72 attached to a lower portion of the support 70 to rotate the support 70 about a horizontal axis A, It is attached to the lower portion of the horizontal axis drive body 72 is configured to include a vertical axis drive body 73 for rotating the horizontal axis drive body 72 about the vertical axis B.

It is preferable that the driving bodies 72 and 73 rotate by a power source, and the motor and the reducer are integrally formed.

Therefore, the posture of the support 70 may be controlled when the rotation of the horizontal axis driver 72 and the vertical axis driver 73 is controlled.

The reflective structure 60 is divided into a reflective surface 62 formed as a mirror surface reflecting light on a side surface and a lower surface 64 supporting the reflective surface 62, and the reflective surface 62 is It is formed to be inclined at a predetermined angle and may include an outer portion of an arc shape if necessary. When implemented in the form of a convex mirror as a whole has an advantageous effect on the reflection of sunlight.

Since the reflective structure 60 is fixed to the support 70, the posture of the support 70 becomes the posture of the reflective structure 60. Therefore, when the horizontal axis driver 72 and the vertical axis driver 73 are controlled, the angle of the reflective surface 62 of the reflective structure 60 is adjusted to reflect the sunlight to the front protective window 31. have.

Meanwhile, as shown in FIG. 4, the reflector 50 may be embodied as two reflecting structures 60a and b whose angles are adjusted to each other. In particular, the reflective structure 60 is operated in a straight line during the day, when the angle is bent at 90 degrees to each other at night, the headlights of the car entering through the front protective window 31 is reflected by the side protective window 32 on both sides It shows favorable properties at night.

The reflective structure 60 is separated into the center and includes a rotation hole 67 in the center. The reflective structure 60a and the reflective structure 60b rotate through the rotation hole 67.

In the reflective structure 60, guide slots 65a and b are formed, respectively, and the guide slot 65 is an arc having the rotation hole 67 as an origin.

In addition, protrusions 66a and b are formed in the reflective structure 60, holes are formed at the ends of the protrusions 66, and linear actuators 74 are coupled to the holes.

The linear actuator 74 is operated with a minimum and maximum stroke and may be a solenoid type actuator, and is controlled by the control device 36.

A central protrusion 71 and side protrusions 77a and 77b are formed on the support 70 coupled to the lower portion of the reflective structure 60, and the central protrusion 71 is coupled to the rotation hole 67. The side protrusions 77a and 77b are respectively coupled to the guide slots 65a and 65b.

When the linear actuator 74 exhibits the maximum stroke, as shown in FIG. 5, the reflective structure 60 is unfolded in a straight line. When the linear actuator 74 operates with the minimum stroke, as shown in FIG. 6. It is transformed into a bent shape at an angle of 90 degrees, and when light enters from the front side, it is reflected to the side.

If necessary, it can be used at night without operating the linear actuator 74, in which case the light of the headlights of the entry vehicle is reflected on the reflecting surface 62, and serves only to guide the entry vehicle. ) Can be controlled to blink the reflected light by blinking the transparency.

Meanwhile, as shown in FIG. 7, the control device 36 receives a signal from the illuminance sensor 34 using the power of the battery 35 and controls the flashing of the LCD 40 and the LED 45. And control the horizontal actuator 72, the vertical actuator 73, and the linear actuator 74. In addition, the wireless communication module 37 transmits or receives a signal with the outside.

In addition, the control device 36 adjusts the horizontal axis driving body 72 according to the altitude of the sun so that the sun reflects the reflection structure 66 horizontally, since the actual altitude of the sun cannot be recognized, The horizontal drive body 72 is adjusted for each time zone using a built-in timer function.

In addition, when the amount of light of the illuminance sensor 34 is below a certain level, it is determined as night, and the light entering horizontally is set to an angle at which the light is well reflected and no longer operates.

In addition, in the case of the vertical axis drive body 73 is adjusted at the time of initial installation, and then adjusted to appropriately rotate for each season.

If necessary, the vertical shaft driver 73 may be omitted, and only the horizontal shaft driver 72 may be installed.

In addition, the linear actuator 74 recognizes the amount of light detected by the illuminance sensor 34 to determine the night when it is below a predetermined level, and operates it at the minimum stroke, and when it is above the predetermined level, determines the day to the maximum stroke. To work.

The solar reflector 100 as described above may be applied to a lane alone or in plurality. In particular, in the case of a non-signal intersection, when the plurality of solar reflectors 100 are installed in the direction of each road at the center of the intersection, the vehicle enters and recognizes the existence of the intersection.

In addition, in the case of pedestrian crossing, when the solar reflector 100 is installed continuously in a row at the end of the pedestrian crossing, there is an advantage of clearly indicating the presence of the pedestrian crossing without the need for a separate power source during the day or night. It can be used in all places where the conventional reflector is applied, such as a roundabout, a bicycle road, a guide of a parking lot, and an entrance of a signal intersection with frequent traffic accidents, and the solar reflector 100 injects powerful sunlight into a driver as a flashing hazard. It is effective to clearly recognize the area.

While the invention has been shown and described with respect to certain preferred embodiments thereof, the invention is not limited to these embodiments, and has been claimed by those of ordinary skill in the art to which the invention pertains. It includes all the various forms of embodiments that can be implemented without departing from the spirit.

10: body 30: cover
31: Front protective window 32: Side protective window
33: solar panel 34: light sensor
35: battery 36: controller
38: upper protective window 37: wireless communication module
40: LCD 45: LED
50: reflector 60: reflecting structure
62: reflective surface 64: lower surface
65: guide slot 66: protrusion
67: rotating hole 70: support
71: center projection 72: horizontal axis drive body
73: vertical axis drive 74: linear actuator
77: side protrusion 100: solar reflector

Claims (7)

A body having a space formed therein;
A cover fixed to the top of the body and having a protective window formed thereon;
A solar panel fixed to the cover to generate power using solar light;
A reflection unit located in the inner space of the body and reflecting the sun light introduced through the protective window by adjusting an angle according to the position of the sun with the power generated by the solar panel; And
And a controller for controlling the angle of the reflector by using the power generated by the solar panel.
The solar reflector of claim 1, further comprising an LCD which is converted into transparent and opaque by using the power of the solar panel, wherein the controller controls power supply of the LCD.
3. The solar reflector of claim 2, further comprising an LED emitting light to the outside using power of the solar panel, wherein the controller controls power supply of the LED. 4.
The method of claim 1, wherein the reflector:
A reflecting structure including a reflecting surface whose surface is formed of a mirror;
And a horizontal axis driver for adjusting an angle of the horizontal axis of the reflective structure.
5. The solar reflector of claim 4, further comprising a vertical axis driver configured to adjust a vertical axis angle of the reflective structure at a lower end of the horizontal axis driver.
The method according to claim 4, wherein the reflective structure is divided into two to be rotationally connected to each other, a rotating hole formed at the intersection of the separated elements, guide slots formed in each of the separate reflective structure, projections formed in each of the separate reflective structure And a linear actuator rotatably coupled to the protrusion,
A lower portion of the reflective structure includes a support formed with a central projection formed in the center, two side projections formed on each side,
The central projection of the support is coupled to the rotating hole, the side projections are respectively coupled to the guide slot,
And the support is connected to the horizontal axis actuator.
The solar reflector of claim 5, further comprising a wireless communication module connected to the control device inside the body.

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