KR19990064422A - A method and apparatus controlling road sign using solar heat - Google Patents

Abstract

The present invention emits a road guide sign using the infinite energy of solar heat, and can automatically emit the road guide sign according to the light emission time by automatically performing the judgment to determine the light emission time of the road guide sign based on the amount of solar heat generated. In addition, the present invention relates to a method and an apparatus for detecting power when the amount of charge using solar heat is insufficient and at the same time, supplying power from a commercial power supply.

In the conventional method, the power of the road guide sign must be manually supplied in accordance with the time changed from daytime to nighttime, and the problem of causing a traffic accident may be left unpowered due to the trouble of power supply. There was this.

For this reason, the method of recognizing road guidance signs by using the reflected light of the car without using a lighting device that requires electric power supply is used. There was not enough to recognize the display panel.

Accordingly, the road guide display control method using the solar heat according to the present invention drives the solar light receiving unit along a predetermined path to receive solar energy and then checks the driving of the solar light receiving unit using a response signal. And when the operation of the solar light receiving unit is confirmed, by measuring the amount of solar energy is received to control the solar light receiving unit to the position where the largest amount of solar energy is received, the solar energy through the position-controlled solar light receiving unit Charges and selects and uses commercial power when the amount of solar energy (V _c ) is less than or equal to a predetermined amount (X) of the commercial power reference charge amount (L _a ) is selected and used. _c ) is larger than the commercial power reference charging amount (L _a ), the light receiving unit power generation amount (V _d ) is compared with the reference power generation amount (L _b ) for a predetermined time (Y), if less than or equal to automatically flashing the light emitting do. In addition, detecting the period (T _f) of the flashing, and the flashing period of the detection (T _f) is the blink cycle range as compared whether belonging to a certain blinking cycle range (A≤T ≤B _{f) (f} ≤ A≤T B) if not within the stabilization of the flashing cycle, and comparing the light receiving unit power generation (V _d ) and the reference power generation (L _b ) again if the power generation amount (V _d ) is less than or equal to repeating the process of starting to blink the light emitter If the amount of power generated (V _d ) is large, the flashing of the light emitter is automatically stopped, and the process of repeatedly performing the process of driving the solar light receiving unit along a predetermined trajectory is characterized in that it is configured to perform sequentially.

Description

Road guidance display control method and device using solar heat {A METHOD AND APPARATUS CONTROLLING ROAD SIGN USING SOLAR HEAT}

The present invention relates to a method and apparatus for controlling road guide display using solar light, and more particularly, to emit road guide signs using infinite energy of solar heat, and to determine the emission timing of the road guide signs. By performing as a reference, the road guide sign can be automatically emitted according to the light emitting time, and relates to a method and apparatus for detecting the lack of charge using solar energy and supplying power from a commercial power supply.

In general, the conventional road guidance signs are attached along the guardrail of the road to convey the contents of the road situation to the driver while driving, and consist of a lighting device indicated by a simple indication, for example, an arrow or an arc. It is essential for driving safety. However, the power of the road guide sign must be manually supplied in accordance with the time of daytime to nighttime change, and due to the trouble of power supply, the power supply may be left unpowered, causing a traffic accident.

For this reason, the method of recognizing road guide signs by the reflected light of the car without using a lighting device that requires electric power supply was used. However, the reflected light has a problem that the brightness of the light is not enough for the driving driver to recognize, and it may cause a dangerous situation due to a sudden flash of light.

The present invention has been made to solve the problems of the prior art operating as described above, the main object of the present invention is to provide a method and apparatus for automatically blinking the display panel by judging the light emitting time of the road sign by itself. It is.

Another object of the present invention is to provide a method and apparatus for detecting the amount of charge accumulated using solar energy and automatically lighting the road guide panel by automatically supplying external power.

Another object of the present invention is to detect the amount of generation of the solar cell in order to control the position of the solar light receiving unit receiving solar energy by setting the solar light receiving unit to the position where the highest amount of the maximum solar energy can be integrated To provide.

1 is a flowchart showing a road guide display control method using solar heat according to an embodiment of the present invention;

Figure 2 is a block diagram showing a road guide display control device using solar heat according to an embodiment of the present invention,

Figure 3 is an exemplary view showing an embodiment according to the use state of the present invention,

4 is a graph showing the calculation result of the amount of power generation in order to receive the maximum solar heat.

Explanation of symbols for the main parts of the drawings

10: solar light receiving unit 20: solar energy charging unit 30: charge amount detection unit

40: commercial power supply unit 50: power supply selection unit 60: power generation detection unit

70: light emitting timing determiner 80: flashing cycle safety shoes 90: high brightness light emitting

100: position control unit of the solar light receiving unit 110: light receiving orbit storage unit

120: position control motor drive unit 130: steady state signal transmitting unit

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be more apparent from the following detailed description based on the accompanying drawings in order to achieve the above object.

The road guide display control method using the solar heat according to the present invention drives the solar light receiving unit along a predetermined path to receive solar energy and then checks the driving of the solar light receiving unit using a response signal. And when the operation of the solar light receiving unit is confirmed, by measuring the amount of received solar energy to control the solar light receiving unit to the position where the largest amount of solar energy is received, the solar energy through the position-controlled solar light receiving unit When the charge amount (V _c ) is less than or equal to the commercial power reference charge amount (L _a ) for a predetermined time (X), select and use a commercial power supply, and the charge amount (V _c ) is the commercial power reference In _a state where the charge amount L _a is larger than that, when the light-receiving portion power generation amount V _d is smaller than or equal to the reference power generation amount L _b for a predetermined time Y, the flashing of the light emitter is automatically performed.

In addition, the flashing period T _f is detected, and if the detected flashing period T _f is within a predetermined flashing period range, the flashing period is stabilized if the flashing period T _f is not within the flashing period range. _d ) and the reference power generation amount (L _b ) are compared again to repeat the process of starting the flashing of the light emitter if it is small or the same, and if it is large, the process of automatically stopping the flashing of the illuminator and repeating the first process is performed sequentially. It is composed.

In the process of driving the solar light receiving unit along a predetermined orbit, the solar light receiving unit is configured to be manually fixed and received at an arbitrary position,

In the process of controlling the solar light receiving unit, data for controlling the position of the solar light receiving unit is stored in a memory and used for the next position control. In addition, the memory is composed of an erasable Programmable Read-Only Memory (EPROM), and the process of starting the flashing of the light emitting unit is a step of confirming a normal operating state of the system at the same time as starting the flashing, the normal operating state Transmitting a signal to a receiving unit; checking the transmission state; if there is an error, processing an error; maintaining a transmission state if there is no error; detecting whether the signal is high level by receiving the normal operation state signal; If the level (Low Level) is recognized as normal and performs the step of repeatedly performing the level detection of the received signal is configured to control the system even from a remote management unit.

In addition, the road guide display control device using solar heat according to the present invention is a solar light receiving unit for receiving solar energy, a solar energy charging unit for converting and accumulating solar energy input from the solar light receiving unit into electrical energy, the energy charging amount of the solar energy charging unit Charge amount detection unit that detects the power supply unit for supplying power from the outside when the solar energy is not available, the input of the charge amount from the charge detection unit receives the charge amount is replaced with the commercial power supply unit Power generation selection unit for supplying power, power generation detection unit for receiving the input of the solar energy input from the solar light receiving unit detects the amount of electric current converted to the amount of illuminance that the solar energy is converted into electrical energy, the generation amount detection unit, the current from the generation amount detection unit A light emitting timing determining unit for recognizing the illuminance of light and detecting the light emitting time by detecting the illuminance of light, and a flashing cycle safety stabilizer for stabilizing a flashing cycle so that the flashing cycle does not affect the illuminance of the power generation amount detecting unit. High-powered light emitting unit that receives power from the power supply selection unit, receives the flashing signal from the flashing cycle safety unit, and performs low extinction with high brightness. Position control unit for controlling the position of the solar light receiving unit, a light receiving path storage unit for receiving and recording the position control data so far used from the position control unit of the solar light receiving unit for the next position control, and the position control unit of the solar light receiving unit Start position control motor by receiving position control signal from Is composed by interconnecting the position control motor driver.

And the solar light receiving unit receives the solar energy is made of a curved surface.

The present invention may be variously modified and may take various forms and only the specific embodiments thereof will be described in the following detailed description. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the following description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation of the present invention configured as described above are as follows.

1 is a flowchart illustrating a road guide display control method using solar heat according to the present invention. In a preferred embodiment of the present invention, the solar light receiving unit is driven along a predetermined distance in order to receive the maximum solar energy (S10). At this time, the amount of generation of solar energy according to the state of moving each position is measured. This is shown in a graph showing the result of calculating the amount of power generation in order to receive the maximum solar heat of FIG. That is, the position control is performed by measuring the angle (X °) corresponding to the maximum amount of power generation.

Using the graph as described above, the light receiving plate is automatically set to the position where the greatest amount of power is generated, and the position is stored in the memory so that it can be used when performing the next position control. That is, the learning effect can be obtained. The memory used in the embodiment of the present invention can be read and written as an erasable programmable read-only memory (EPROM) so that the position control data of the solar light receiving plate can communicate smoothly between the position control unit and the light receiving memory unit of the solar light receiving unit. To be possible.

In some cases, the user may directly set the position of the solar light receiving plate in consideration of the incident angle of sunlight.

The operation of the solar receiver is checked using an answer signal for the solar receiver (S12). Then, the amount of solar energy integrated is measured to control the solar light receiver to a position where the largest amount of solar energy is received (S13). The solar energy is charged through the position-controlled solar light receiver (S14). . When the charging amount (V _c ) is less than or equal to the commercial power reference charging amount (L _a ) for a predetermined time (Xsec) (S16), the commercial power is selected and used (S17). It is not enough to emit light, so the power is automatically switched by using an external power source. Therefore, the situation in which the destruction of the display panel is stopped due to the switching of the power source does not occur.

The charge amount (V _c) that the commercial power source based on charge (L _a) and batching charge amount (V _c) ACH surface, but cover the power supply to the charging amount (V _c) of the inside, the light receiving power generation amount (V _d) By comparing the reference power generation amount L _b with a predetermined time (Ysec) (S18), when the light receiving unit power generation amount V _d is less than or equal to the reference power generation amount L _b , the light emitter is automatically flickered (S20). Here, the low power generation amount V _d of the light receiver means that the illuminance caused by solar heat is low, thereby causing the display panel to flash.

The flashing period T _f is detected, and the detected flashing period T _f is compared with a predetermined flashing period range A ≦ _{F f} ≦ B (S22) and the flashing period is not within the flashing period range. Stabilize the period T _f (S24)-. This prevents the flashing cycle from blinking irregularly due to insufficient supply of power from the supply side or for other reasons.

In addition, when the light receiving unit power generation amount V _d and the reference power generation amount L _b are compared to each other again (S26), when the light is smaller than or equal to each other, it is recognized that the surrounding environment is dark and needs to continuously emit light, and continuously flashes. If the light receiving unit power generation amount V _d is larger than the reference power generation amount L _b , the ambient light becomes brighter, and the blinking of the light emitting body is automatically stopped and repeated from step 10.

On the other hand, after detecting the power generation amount of the light receiving unit (V _d ) and confirms the normal operating state of the system (S30), the steady state signal transmitting unit 130 transmits the normal operating state signal to the receiving unit (S32). The receiver is included in the management unit to control the system from the outside. If there is an error after confirming the sending state (S34), error processing is performed (S13). If there is no error, the sending state is maintained (S36). Here, the method of checking the transmission state detects whether it is a high level by receiving the normal operation state signal, and if it is a low level, recognizes it as a failure of the system (S42) and displays a failure (S44). When the high level is recognized, the process of repeating the level detection of the received signal is performed (S40) so that the system can be controlled even from a distant management unit.

Figure 2 is a block diagram showing a road guide display control device using solar heat according to an embodiment of the present invention. In another preferred embodiment of the present invention, the solar light receiving unit 10 receives the solar energy input solar energy, the solar energy charging unit 20 converts the solar energy input from the solar light receiving unit 10 into electrical energy. To accumulate. The solar light receiving unit 10 is formed in a curved surface in order to maximize the light reception of solar energy.

The charge amount detection unit 30 detects the amount of energy charged by the solar energy charging unit to measure the amount of energy that can be used at present. On the other hand, the commercial power supply unit 40 so that the power can always be used to provide power from the outside when the solar energy is not available. The power source selection unit 50 receives the energy charge amount V _c from the charge amount detection unit 30, and when it is determined that the energy charge amount V _c is insufficient, the power supply selection unit 50 replaces the commercial power supply unit 40 and automatically supplies power. Supply it.

In addition, the generation amount detection unit 60 receives the solar energy input from the solar light receiving unit 10 and detects the amount of current converted to the amount of illuminance in which solar energy is converted into electrical energy to measure the amount of energy currently available. The light emission timing determiner 70 recognizes the current illuminance amount from the power generation amount detection unit 60 and determines the light emission timing using the illuminance amount. In other words, if the amount of energy generated due to the low amount of illuminance is small, it is determined that the road guidance display panel should be emitted because the current brightness is dark. The flashing cycle safety unit 80 having received the light emission instruction has a flashing cycle T _f in order to prevent this because the flashing cycle T _f affects the available energy recognized by the power generation amount detecting unit 60. Stabilize.

As a result, the high brightness light emitting unit 90 receives power from the power supply selection unit 50 and receives a blinking signal from the flashing cycle safety unit 80 to perform flashing with high brightness.

Meanwhile, the position control unit 100 of the solar light receiving unit receives the current illuminance from the power generation amount detecting unit 60 and controls the position of the solar light receiving unit 10 in order to find a place with the highest illuminance. Read-Only Memory (EPROM) in the light receiving orbit storage unit 110 is received from the position control unit 100 of the solar light receiving unit so far received and recorded so that it can be used for the next position control. The position control motor driver 120 receives a position control signal from the position control unit 100 of the solar light receiver and drives the position control motor.

3 shows an embodiment of the use state. The solar light receiving unit 10 is driven by the position control motor, and the charged energy is transmitted to the road guide display panel installed along the guardrail of the road to emit light.

According to the present invention as described above, by determining the light emitting time of the road sign by itself, the display panel blinks automatically, even when the day or night changes from day to night, the intensity of illumination is small even when the display panel needs to be flickered, the administrator must supply power manually. I solved the point.

In addition, when the amount of energy charged using solar energy is insufficient, the amount of energy is sensed and automatically supplied with external power to continuously emit light, thereby obtaining the effect of continuously blinking the road guide display panel even when switching power.

In addition, in order to control the position of the solar light receiving unit receiving the solar energy, the amount of solar cell power generation is detected and the solar light receiving unit is set to the position where the amount is the largest to receive the maximum solar energy. In the position control, it is apparent that the position control data is stored in the memory, which is a very advantageous invention having a learning effect of using the position control data in the next position control.

Claims (7)

A first step of driving the solar light receiving unit along a predetermined path to receive solar energy; A second step of confirming driving of the solar light receiving unit using a response signal; A third step of controlling the solar light receiver to a position (X °) where the largest amount of solar energy is received by measuring the amount of solar energy received when the operation of the solar light receiver is confirmed; A fourth step of charging solar energy through the position controlled solar light receiving unit; A fifth step of selecting and using a commercial power supply when the charging amount V _c is less than or equal to a commercial power reference charging amount L _a for a predetermined time (X); In the state where the charge amount V _c is greater than the commercial power reference charge amount L _a , when the light receiving unit power generation amount V _d is smaller than or equal to the reference power generation amount L _b for a predetermined time Y, the blinking of the light emitter is performed. A sixth step of automatically performing; A seventh step of stabilizing the part aneumyeon flashing cycle in a period (T _f) of the period detected by the blink detection (T _f) is the blink cycle range as compared whether belonging to a certain range of the flashing cycle blinking; And When the light receiving unit power generation amount (V _d ) and the reference power generation amount (L _b ) are compared again and smaller or equal, the sixth step is repeated. When the light receiving unit is generated, the eighth step is automatically stopped and the eighth step is repeated from the first step. Road guidance display control method using solar heat, characterized in that performed sequentially. The method according to claim 1, In the first step of driving the solar light receiving unit along a predetermined trajectory, the solar light receiving unit can be manually fixed and received at any position, the road guide display control method using solar heat. The method according to claim 2, In the third step of controlling the solar light receiving unit, the data for controlling the position of the solar light receiving unit is stored in the memory and used for the next position control, characterized in that for controlling the road. The method according to claim 3, And the memory is an erasable programmable read-only memory (EPROM). The method according to claim 1, In a sixth step of starting to blink the light emitter, Confirming a normal operating state of the system at the same time as the flashing starts; Transmitting the normal operation state signal to a receiver; Checking an error state and error processing if there is an error, and maintaining an error state if there is no error; Receives the normal operation state signal to detect whether it is a high level (Low Level), and if it is a low level (Low Level) to perform the step of performing the step of repeatedly performing the level detection of the received signal in sequence, even in the far away management unit Road guidance display control method using solar heat, characterized in that the system can be controlled. A solar heat receiving unit 10 receiving solar energy; A solar energy charging unit 20 for converting and accumulating solar energy input from the solar light receiving unit 10 into electrical energy; A charge detection unit 30 for detecting an amount of energy charged by the solar energy charging unit 20; Commercial power supply unit 40 for providing power from the outside when the amount of integrated solar energy is not available; A use power selection unit 50 which receives the amount of charge charged from the charge amount detecting unit 30 and replaces the commercial power supply unit 40 to supply power when it is determined that the amount of energy charge is insufficient; A generation amount detection unit 60 which receives the solar energy input from the solar light receiving unit 10 and detects the amount of generated current for the amount of illuminance in which the solar energy is converted into electrical energy to recognize a generation amount; A steady state transmitter 130 transmitting the current system state received from the power generation detector 60 to a place for controlling the current system state; A light emission timing determiner 70 that recognizes a current illuminance amount from the power generation amount detector 60 and detects the illuminance amount to determine a light emission time; A flashing cycle safety unit 80 for stabilizing the flashing cycle so that the flashing period T _f does not affect the illuminance of the power generation amount detecting unit 60; A high brightness light emitting unit 90 receiving power from the power supply selection unit 50 and receiving a blinking signal from the flashing cycle safety unit 80 to perform low extinction with high brightness; A position control unit 100 for receiving a current illuminance amount from the power generation amount detecting unit 60 and controlling a position of the solar light receiving unit to find a place with the highest illuminance; A light receiving track storing unit (110) for receiving and recording the position controlled data from the position controlling unit (100) of the solar light receiving unit and using it for the next position control; And The road guidance display control apparatus using solar heat, characterized in that the position control motor driving unit 120 for receiving a position control signal from the position control unit of the solar light receiving unit 10 to interconnect the configuration. The method according to claim 6, The solar light receiving unit 10 receiving the solar energy is a road guide display control device using solar heat, characterized in that consisting of a curved surface.