KR101154522B1 - Using solar LED fence and delineator - Google Patents

Abstract

The present invention is a solar LED light is installed on the upper end of the pillar, the fence is installed on the ground that is the boundary between the sidewalk and the driveway, the solar LED light is a convex lens coupled to the upper; A solar cell plate installed under the convex lens and collecting solar heat to generate electric energy; A rechargeable battery that stores and stores electrical energy generated by the solar cell plate; An LED electrically connected to the rechargeable battery and emitting light using the electrical energy stored in the rechargeable battery; An illumination sensor for detecting an illumination of an external environment; A distance sensor installed toward a roadway and measuring a distance between the prop and the vehicle; The solar panel is electrically connected to the rechargeable battery, the LED, the illumination sensor, and the distance sensor, but when the illuminance detected by the illuminance sensor is equal to or greater than a predetermined illuminance value, the distance between the vehicle and the vehicle measured by the distance sensor reaches a predetermined first distance. Only when the electric energy stored in the rechargeable battery to be supplied to the LED for a certain time, or when the illuminance sensed by the illuminance sensor is less than a predetermined illuminance value, the electric energy stored in the rechargeable battery is supplied to the LED and the distance sensor The controller increases the amount of electrical energy for a predetermined time when the distance measured from the vehicle reaches within the first distance, and when the voltage stored and stored in the rechargeable battery is equal to or greater than a predetermined voltage value V1, Switching to cut off the charge and stored in the battery Or less constant volt value (V2), the PCB substrate comprising a PCM circuit for protecting the rechargeable battery by switching to be discharged is cut off to the LED from the battery; An upper body in which the convex lens is coupled to an upper portion and the solar cell plate is installed on a first step formed at an inner upper end under the convex lens; And a lower body on which the PCB substrate is installed on a second step formed at an inner upper end, and a plurality of the LEDs are installed on the PCB substrate and the charger is installed on a lower side thereof. Relates to a fence and a delegator. According to the present invention, it is possible to provide a Higgs boson and a delineator using a solar LED capable of efficient self-generation by producing electrical energy from the most concentrated solar light.

Description

Hoops and Delineators Using Solar LEDs {.}

The present invention relates to a fence and a delineator using a solar LED, and more particularly, to generate electric energy from sunlight, which enables efficient self-power generation, and uses a distance sensor to preset a distance between a vehicle and a light. It relates to a fence and a delineator using a solar LED, the indicator light generates a strong light when entering the street.

The present invention relates to a fence and a delineator using a solar LED.

Generally, a fence and a delineator using solar LEDs are installed in a center divider or guardrail at the center or edge of a road for safe driving and traffic, and thus, a fence and a delineator having a light guide to guide safety traffic.

However, the existing road light and the prohibition light use the power as a current, so it is expensive to maintain and the wires need to be connected to the installation site. have.

An object of the present invention devised to solve the above problems is to charge the rechargeable battery by maximizing the solar light collected by the convex lens by a convex lens without a separate power source, including a rechargeable battery charged from the convex lens and the solar cell panel and the solar cell plate And by turning on the LED, it is to provide a pulse and a delineator using a solar LED that can be efficiently self-powered.

In addition, another object of the present invention further includes a PCB substrate including a control unit for controlling the lighting to be determined according to the brightness detected by the illumination sensor and controlling the brightness according to the distance detected by the distance sensor, LED in a bright environment LEDs turn on in dark and dark environments, and do not damage the LEDs installed on the top of the fence and delineator, the LEDs light up when the vehicle enters a preset danger distance, which can alert the driver of the vehicle. It is to provide a fence and a delegate using the LED.

In addition, another object of the present invention is to transmit the unique identification number given to each landlord to the general control center server responsible for the parking stop if the distance between the specific vehicle and the landlord is maintained for a certain time location of the vehicle subject to the parking stop violation It is to provide a fence and delineator using solar LEDs that make it easy to identify and smooth out parking stops.

Further, another object of the present invention is to insert a PCM circuit that protects the rechargeable battery from overcharging or overdischarging on the PCB substrate, thereby preventing the rechargeable battery from deteriorating its performance or reducing its life due to overcharging or overdischarging. It is to provide a fence and a delegate using the LED.

According to a feature of the present invention for achieving the above object, the present invention is a solar LED light is installed on the upper end of the pillar, the fence is installed on the ground that is the boundary between the sidewalk and the driveway, the aspect The light LED indicator, the convex lens is coupled to the upper; A solar cell plate installed under the convex lens and collecting solar heat to generate electric energy; A rechargeable battery that stores and stores electrical energy generated by the solar cell plate; An LED electrically connected to the rechargeable battery and emitting light using the electrical energy stored in the rechargeable battery; An illumination sensor for detecting an illumination of an external environment; A distance sensor installed toward a roadway and measuring a distance between the prop and the vehicle; The solar panel is electrically connected to the rechargeable battery, the LED, the illumination sensor, and the distance sensor, but when the illuminance detected by the illuminance sensor is equal to or greater than a predetermined illuminance value, the distance between the vehicle and the vehicle measured by the distance sensor reaches a predetermined first distance. Only when the electric energy stored in the rechargeable battery to be supplied to the LED for a certain time, or when the illuminance sensed by the illuminance sensor is less than a predetermined illuminance value, the electric energy stored in the rechargeable battery is supplied to the LED and the distance sensor The controller increases the amount of electrical energy for a predetermined time when the distance measured from the vehicle reaches within the first distance, and when the voltage stored and stored in the rechargeable battery is equal to or greater than a predetermined voltage value V1, Switching to cut off the charge and stored in the battery Or less constant volt value (V2), the PCB substrate comprising a PCM circuit for protecting the rechargeable battery by switching to be discharged is cut off to the LED from the battery; An upper body in which the convex lens is coupled to an upper portion and the solar cell plate is installed on a first step formed at an inner upper end under the convex lens; And a lower body on which the PCB substrate is installed at a second step formed at an upper end thereof, and the plurality of LEDs are installed on the PCB substrate, and the rechargeable battery is installed on the lower side thereof. Receiving a unique identification number indicating from the control unit, and a wireless communication unit for transmitting the unique identification number to the integrated control center server in charge of parking stops, The control unit further comprises, in the distance sensor built in the solar LED indicator When the distance to a specific vehicle measured in real time is maintained within a predetermined second distance for more than a predetermined time, characterized in that for transmitting the unique identification number of the solar LED indicator to the wireless communication unit.

In addition, the PCM circuit is electrically connected to the rechargeable battery and the LED and the solar panel, the VDD terminal electrically connected to the plus terminal of the rechargeable battery and the plus input terminal of the LED and the solar cell plate, the rechargeable battery A PCM chip comprising a negative terminal of the VSS terminal and a ground terminal electrically connected to the negative output terminal of the LED and the negative terminal of the solar cell plate; And a MOS-FET switch for blocking charging and discharging of a rechargeable battery by the PCM chip. And the PCM chip is configured to switch the MOS-FET switch and to charge the rechargeable battery so that charging of the rechargeable battery is cut off when the voltage difference value between the VDD terminal and the VSS terminal is equal to or greater than the predetermined voltage value V1. When the stored voltage is equal to or less than another predetermined voltage value V2, the MOS-FET switch is switched so that discharge from the rechargeable battery to the LED is cut off.

In addition, the PCM chip is used S8261-G4E model, the MOS-FET switch is used SME8205 model, the constant volt (V1) value is 3.89V, the other constant volt value (V2) is 2.01V. It features.

The PCM circuit further includes a resistor R1 having one end electrically connected to the positive terminal B + of the rechargeable battery and the positive output terminal P + of the PCM circuit, and the other end electrically connected to the VDD terminal of the PCM chip. One end is electrically connected to the V- terminal of the PCM chip and the other end is electrically connected to the negative output terminal (P-) of the PCM circuit, and one end is electrically connected to the VDD terminal of the PCM chip and the other end is And a capacitor C1 electrically connected to the VSS terminal.

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In addition, a solar LED light is installed on the upper end of the pillar, the delineator is installed on the ground that is the boundary between the sidewalk and the driveway, the solar LED light, the convex lens coupled to the upper; A solar cell plate installed under the convex lens and collecting solar heat to generate electric energy; A rechargeable battery that stores and stores electrical energy generated by the solar cell plate; An LED electrically connected to the rechargeable battery and emitting light using the electrical energy stored in the rechargeable battery; An illumination sensor for detecting an illumination of an external environment; A distance sensor installed toward a roadway and measuring a distance between the prop and the vehicle; The solar panel is electrically connected to the rechargeable battery, the LED, the illumination sensor, and the distance sensor, but when the illuminance detected by the illuminance sensor is equal to or greater than a predetermined illuminance value, the distance between the vehicle and the vehicle measured by the distance sensor reaches a predetermined first distance. Only when the electric energy stored in the rechargeable battery to be supplied to the LED for a certain time, or when the illuminance sensed by the illuminance sensor is less than a predetermined illuminance value, the electric energy stored in the rechargeable battery is supplied to the LED and the distance sensor The controller increases the amount of electrical energy for a predetermined time when the distance measured from the vehicle reaches within the first distance, and when the voltage stored and stored in the rechargeable battery is equal to or greater than a predetermined voltage value V1, Switching to cut off the charge and stored in the battery Or less constant volt value (V2), the PCB substrate comprising a PCM circuit for protecting the rechargeable battery by switching to be discharged is cut off to the LED from the battery; An upper body in which the convex lens is coupled to an upper portion and the solar cell plate is installed on a first step formed at an inner upper end under the convex lens; And a lower body on which the PCB substrate is installed at a second step formed at an upper end thereof, and the plurality of LEDs are installed on the PCB substrate, and the rechargeable battery is installed on the lower side thereof. Receiving a unique identification number indicating from the control unit, and a wireless communication unit for transmitting the unique identification number to the integrated control center server in charge of parking stops, The control unit further comprises, in the distance sensor built in the solar LED indicator When the distance to a specific vehicle measured in real time is maintained within a predetermined second distance for more than a predetermined time, characterized in that for transmitting the unique identification number of the solar LED indicator to the wireless communication unit.

According to the present invention as described above, it is possible to provide a fence and a delineator using a solar LED capable of efficient self-generation by producing electrical energy from the most concentrated solar light.

Further, according to the present invention, the LED is turned off in a bright environment and the LED is turned on in a dark environment, and the LED is made brighter when the vehicle enters a predetermined danger distance so as not to damage the LED installed at the top of the fence and the delegator. We can offer fences and delineators with solar LEDs that can alert the driver.

In addition, according to the present invention, if the distance between a particular vehicle and the landlord is maintained for a predetermined time or more, the unique identification number assigned to each landlord is transmitted to the comprehensive control center server in charge of the parking stop, thereby easily identifying the location of the vehicle subject to the parking stop. It can provide a fence and a delineator using the solar LED to smooth the parking stop.

In addition, according to the present invention, it is possible to provide a fence and a delineator using a solar LED to prevent the rechargeable battery from deteriorating its performance or reducing its life due to overcharging or overdischarging.

1 is a perspective view of a fence and a delimiter using a solar LED according to a preferred embodiment of the present invention.
2 is an exploded perspective view of a fence and a delineator using a solar LED according to a preferred embodiment of the present invention.
3 is a cross-sectional view showing the internal configuration of the fence and the delineator using a solar LED according to a preferred embodiment of the present invention.
4A and 4B are circuit diagrams illustrating a configuration and a coupling relationship of a PCM circuit according to a preferred embodiment of the present invention.
Figure 5 is an illustration of the state of use of the Higgs and the delineator using a solar LED according to a preferred embodiment of the present invention.
FIG. 6 is a block diagram illustrating a control system of a pulse and a delegate using a solar LED according to a preferred embodiment of the present invention.

Specific details of other embodiments are included in the detailed description and the drawings.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only the embodiments make the disclosure of the present invention complete, and the general knowledge in the art to which the present invention belongs. It is provided to fully inform the person having the scope of the invention, which is defined only by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for explaining a fence and a delineator using a solar LED according to embodiments of the present invention.

1 is a perspective view of a fence and a delineator using a solar LED according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view of a fence and a delineator using a solar LED according to a preferred embodiment of the present invention, 3 is a cross-sectional view showing the internal configuration of the Higgs boson and the delineator using a solar LED according to a preferred embodiment of the present invention, Figures 4a and 4b shows the configuration and coupling relationship of the PCM circuit according to a preferred embodiment of the present invention 5 is an exemplary diagram illustrating a state of use of a fence and a delineator using a solar LED according to a preferred embodiment of the present invention, and FIG. 6 illustrates a fence using a solar LED according to a preferred embodiment of the present invention. This is a block diagram representing the control system of the delegate.

The fence using the solar LED according to the preferred embodiment of the present invention, the solar LED indicator 10 is installed on the upper end of the pillar 200, is installed on the ground that is the boundary between the sidewalk and the driveway,

The solar LED display 10 includes a convex lens 111 coupled to an upper portion, a solar cell plate 113 installed under the convex lens 111 and collecting solar heat to generate electrical energy, and the solar cell plate ( Rechargeable battery 126 charged with storing electrical energy generated by 113, an LED 124 electrically connected to the rechargeable battery 126 and emitting light using electrical energy stored in the rechargeable battery 126 and an external environment An illuminance sensor 115 for detecting an illuminance of the illuminance sensor 115, installed toward the roadway, and configured to measure a distance between the support 200 and the vehicle 400; When the solar cell plate 113 and the rechargeable battery 126, the LED 124, the illumination sensor 115, and the distance sensor 117 are electrically connected, the illuminance detected by the illumination sensor 115 is equal to or greater than a predetermined illuminance value. The electric energy stored in the rechargeable battery 126 is supplied to the LED 124 only for a predetermined time only when the distance to the vehicle measured by the distance sensor 117 reaches within a preset first distance, or the illuminance When the illuminance sensed by the sensor 115 is equal to or less than a predetermined illuminance value, the electric energy stored in the rechargeable battery 126 is supplied to the LED 124, and the distance from the vehicle measured by the distance sensor 117 is the first. When reaching within a distance, the controller 130 increases the amount of electrical energy for a predetermined time, and when the voltage charged and stored in the rechargeable battery 126 is greater than or equal to a predetermined voltage value V1, charging of the rechargeable battery 126 is performed. Blocked PCM for switching and protecting the rechargeable battery 126 by switching so that discharge from the rechargeable battery 126 to the LED 124 is cut off when the voltage charged and stored in the rechargeable battery 126 is equal to or less than another predetermined volt value (V2). A PCB substrate 123 comprising a circuit 125.

That is, the fence using the solar LED according to the present invention comprises a support 200 and the connection portion 300, the solar LED indicator 10, the convex lens 111, the solar cell plate 113, the rechargeable battery ( 126, an LED 124, an illuminance sensor 115, a distance sensor 117, and a body 100 including a PCB substrate 113.

The body 100 is made of a material through which light is transmitted.

The outer peripheral surface of the body 100 may be formed with a coating treatment unit 119 to prevent ultraviolet rays blocking and contamination.

The convex lens 111 is coupled to the upper portion of the body 100 by fitting or the like.

The convex lens 111 is made of a transparent material through which light is transmitted, and sunlight is concentrated on the solar cell plate 113 through the convex lens 111 to maximize the efficiency of the solar cell plate 113.

The solar cell plate 113 is coupled to an inner upper portion of the body 100, and is installed to be disposed under the convex lens 111.

The solar cell plate 113 generates electrical energy using sunlight concentrated through the convex lens 111, and the generated electrical energy is stored in the rechargeable battery 126.

The rechargeable battery 126 is disposed inside the body 100, and preferably disposed below the solar cell plate 113 on an inner lower surface of the body 100.

The rechargeable battery 126 is connected to the solar cell plate 113 to charge and store electrical energy generated by the solar cell plate 113.

The LED 124 is connected to the rechargeable battery 126 to emit light.

The LED 124 is installed inside the body 100, it is preferable to be installed on the inner side of the body 100.

In this case, the LED 124 may be installed in a plurality of LEDs round the side circumference in the interior of the body 100, it is preferable that the plurality of LEDs to emit light of different colors.

The illuminance sensor 115 is installed inside the body 100 to detect the illuminance inside the body 100. In this case, the illuminance sensor 115 is preferably installed under the convex lens 111 like the solar cell plate 113.

That is, when the illuminance sensed by the illuminance sensor 115 is detected to be greater than a predetermined illuminance value and the brightness of the inside of the body 100 is brighter than a predetermined illuminance value by the external light transmitted into the body 100. The LED 124 is switched on to emit light only when the distance from the vehicle measured by the distance sensor 117 reaches within the first predetermined distance, and the first range of the measurement range of the distance sensor 117 is adjusted. If there is no vehicle within a distance, the LED 124 is switched off to prevent light from being emitted.

In addition, when the illuminance detected by the illuminance sensor 115 is less than a predetermined illuminance value, and the brightness of the inside of the body 100 due to the external light transmitted into the body 100 is detected to be dark below the predetermined illuminance value. The LED 124 is switched on to emit light, and when the distance to the vehicle measured by the distance sensor 117 reaches within a first predetermined distance, the electric energy is increased for a predetermined time. When there is no vehicle within the first distance of the measurement range of the distance sensor 117, the electric energy cannot be increased.

The distance sensor 117 is installed toward the roadway as shown in FIG. 4, and measures the distance between the post 200 and the vehicle. At this time, the distance sensor 117 is preferably installed on the lower side of the body (100).

The distance sensor 117 basically uses an ultrasonic method and may be replaced with various types of distance sensors such as infrared rays and lasers.

In addition, when the illuminance detected by the illuminance sensor 115 is equal to or greater than a predetermined illuminance value, when the distance to the vehicle measured by the distance sensor 117 reaches within a preset first distance, the magnitude of electric energy is increased for a predetermined time. To be supplied to the LED 124.

In addition, when the illuminance sensed by the illuminance sensor 115 is equal to or less than a predetermined illuminance value, when the distance to the vehicle measured by the distance sensor 117 reaches within a preset first distance, the rechargeable battery 126 is only provided for a predetermined time. Stored electrical energy is supplied to the LED 124.

Here, it is preferable to set the first distance to about 30 cm, which may cause contact accidents with the fence and the delineator due to inattention of the vehicle driver.

For example, if the vehicle reaches within 30 cm of the distance sensor 117, a strong light is emitted from the LED 124 for 5 to 10 seconds, so that the distance between the vehicle and the fence and the delegate may cause a contact accident. By indicating that the vehicle has been reached within a distance, the driver of the vehicle will be alerted to prevent accidents.

For the above-described operation, the solar cell plate 113, the rechargeable battery 126, the LED 124, the illumination sensor 115, and the distance sensor require proper electrical connection, and for this purpose, the solar cell plate 113 and the rechargeable battery 126 are used. ), The LED 124, the illumination sensor 115, and the distance sensor 117 are electrically connected by the PCB substrate 123. In this case, since the electrical connection configuration by the PCB substrate 123 is a matter of public performance, a detailed description thereof will be omitted.

In this case, the PCB substrate 123 includes a controller 130 and a PCM circuit (see FIGS. 4A and 4B).

When the illuminance detected by the illuminance sensor is equal to or greater than a predetermined illuminance value, the controller 130 may apply the electrical energy stored in the rechargeable battery only when the distance to the vehicle measured by the distance sensor 117 reaches within a preset first distance. In order to supply the LED 124 only for a predetermined time, or when the illuminance detected by the illuminance sensor 115 is equal to or less than a predetermined illuminance value, the electric energy stored in the rechargeable battery 126 is supplied to the LED 124 and the When the distance from the vehicle measured by the distance sensor 117 reaches within the first distance, the magnitude of the electric energy is increased for a predetermined time.

That is, when the illuminance value measured by measuring the illuminance sensed by the illuminance sensor 115 in real time is equal to or greater than a predetermined illuminance value, when the distance to the vehicle measured by the distance sensor 117 reaches within a first preset distance. Only when the electrical energy stored in the rechargeable battery 126 is switched on the LED 124 for a predetermined time, and when the measured illuminance value is less than the predetermined illuminance value, the electrical energy stored in the rechargeable battery 126 is the LED ( 124 is switched on, and when the distance from the vehicle measured by the distance sensor 117 reaches within the first distance, the electric energy is increased for a predetermined time.

5A and 5B, when the voltage V charged and stored in the rechargeable battery 126 is greater than or equal to a predetermined volt value V1, the PCM circuit is connected to the charger 126 from the solar cell plate 113. The charging of the furnace is switched off, and when the voltage charged and stored in the rechargeable battery 126 is equal to or lower than a predetermined predetermined voltage value V2, the discharge is switched so that the discharge from the rechargeable battery 126 to the LED 124 is cut off. (126) to protect the function.

The PCM circuit is inserted into the PCB substrate 123 to be electrically connected to the rechargeable battery 126, the LED 124, and the solar cell plate 113 to perform the above-described function.

The PCM circuit is electrically connected to a B + terminal, which is a positive (+) terminal of the rechargeable battery 126, and a P + terminal, which is a positive (+) input terminal of the LED 124 and a positive (+) terminal of the solar cell plate 113. A VDD terminal connected to the negative electrode terminal, a B- terminal which is a negative (-) terminal of the rechargeable battery 126 and a negative (-) output terminal of the LED 124, and a negative (-) terminal of the solar cell plate 113 PCM chip 127 including a VSS terminal electrically connected to the P- terminal. That is, the VSS terminal is electrically connected to the ground terminal.

That is, the B + terminal is electrically connected to the positive terminal of the rechargeable battery 126, the B- terminal is electrically connected to the negative terminal of the rechargeable battery, and the P + terminal is electrically connected to the positive terminal of the rechargeable battery 126. The P- terminal is electrically connected to the negative terminal of the rechargeable battery 126.

In addition, the PCM circuit further includes a MOS-FET switch 128, and the PCM chip 127 includes the rechargeable battery 126 when the voltage difference value between the VDD terminal and the VSS terminal is greater than or equal to the predetermined voltage value V1. Switch the MOS-FET switch so that charging of the battery is cut off and discharging the rechargeable battery 126 from the rechargeable battery 126 to the LED 124 when the voltage difference value between the VDD terminal and the VSS terminal is equal to or less than the predetermined constant voltage value V2. Switch the MOS-FET switch so that it is blocked.

In this case, as shown in FIG. 5A, the PCM circuit may further include resistors R1 and R2 and a capacitor C1.

The resistor R1 has one end electrically connected to the positive terminal B + of the rechargeable battery 126 and the positive output terminal P + of the PCM circuit, and the other end is electrically connected to the VDD terminal of the PCM chip 127. .

In addition, the resistor R2 has one end electrically connected to the V- terminal of the PCM chip 127 and the other end electrically connected to the negative output terminal P- of the PCM circuit.

In addition, the capacitor C1 is electrically connected to the VDD terminal of the PCM chip 127 and the other end is electrically connected to the VSS terminal connected to the ground terminal.

At this time, the PCM chip 127 is preferably used chip (U1) of the S8261-G4E model, the MOS-FET switch 128 is preferably used the MOS-FET switch (U2) of the SME8205 model. .

In addition, it is preferable that the constant volt value V1 is 3.89V and the other constant volt value V2 is 2.01V. However, the V1 and V2 may be changed in the range of about plus or minus 0.5V.

The body 100 may be composed of an upper body 110 and a lower body 120.

The solar panel 113 is installed on the upper body 110 and the convex lens 111 is coupled to the upper side and the first step 112 formed at an inner upper end under the convex lens. At this time, the coating treatment unit 119 is preferably formed on the upper body (110).

In addition, the lower body 120 has the PCB substrate 123 installed on the second step 122 formed at the upper end thereof, and a plurality of the LEDs 124 installed on the PCB substrate 123, The charger 126 is installed.

Preferably, the upper body 110 and the lower body 120 are coupled to each other by fitting or screwing to easily dismantle and couple for internal parts repair or replacement.

In addition, the wireless communication unit for receiving a unique identification number indicating the position of the solar LED indicator 10 from the control unit 130, and transmits the unique identification number to the comprehensive control center server 400 in charge of parking stop ( 135), wherein the controller 130 is configured to preset a distance from the specific vehicle 400 measured in real time by the distance sensor 117 embedded in the solar LED indicator 10. When a certain time is maintained within a distance, the unique identification number of the solar LED indicator 10 is transmitted to the wireless communication unit 135.

For example, if a particular vehicle was stopped within a second distance without moving for more than 5 minutes, the solar LED indicator 10 around the specific vehicle integrated the unique identification number assigned to each solar LED indicator 10. The control center server 400, and the comprehensive control center server 400 reads the unique identification number and transmits the unique identification number to the parking management staff located closest to the read position to crack down the parking violation efficiently. can do.

Here, it is preferable to set the 2nd distance within 50cm which the vehicle stops mainly.

Through this, it is possible to take a quick action on a vehicle that is stopped due to a parking stop violation or a defect of the vehicle, thereby bringing an effect of smoothing the traffic flow.

Delineator using a solar LED according to a preferred embodiment of the present invention is a solar LED indicator 10 is installed on the upper end of the support 200, is installed on the ground that is the boundary between the sidewalk and the driveway,

The solar LED display 10 includes a convex lens 111 coupled to an upper portion, a solar cell plate 113 installed under the convex lens 111 and collecting solar heat to generate electrical energy, and the solar cell plate ( Rechargeable battery 126 charged with storing electrical energy generated by 113, an LED 124 electrically connected to the rechargeable battery 126 and emitting light using electrical energy stored in the rechargeable battery 126 and an external environment An illuminance sensor 115 for detecting an illuminance of the illuminance sensor 115, installed toward the roadway, and configured to measure a distance between the support 200 and the vehicle 400; When the solar cell plate 113 and the rechargeable battery 126, the LED 124, the illumination sensor 115, and the distance sensor 117 are electrically connected, the illuminance detected by the illumination sensor 115 is equal to or greater than a predetermined illuminance value. The electric energy stored in the rechargeable battery 126 is supplied to the LED 124 only for a predetermined time only when the distance to the vehicle measured by the distance sensor 117 reaches within a preset first distance, or the illuminance When the illuminance sensed by the sensor 115 is equal to or less than a predetermined illuminance value, the electric energy stored in the rechargeable battery 126 is supplied to the LED 124, and the distance from the vehicle measured by the distance sensor 117 is the first. When reaching within a distance, the controller 130 increases the amount of electrical energy for a predetermined time, and when the voltage charged and stored in the rechargeable battery 126 is greater than or equal to a predetermined voltage value V1, charging of the rechargeable battery 126 is performed. Blocked PCM for switching and protecting the rechargeable battery 126 by switching so that discharge from the rechargeable battery 126 to the LED 124 is cut off when the voltage charged and stored in the rechargeable battery 126 is equal to or less than another predetermined volt value (V2). A PCB substrate 123 comprising a circuit 125.

That is, the delineator using the solar LED according to the present invention is composed of a support 200, the solar LED indicator 10, the convex lens 111, the cell plate 113, the rechargeable battery 126, LED 124, the illumination sensor 115, the distance sensor 117, and the body 100 including the PCB substrate 113.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalent concept are included in the scope of the present invention. Should be interpreted.

10: solar LED light 100: body
110: upper body 111: convex lens
112: first step 113: solar panel
115: Ambient light sensor 117: Distance sensor
119: coating treatment portion 120: lower body
122: second step 123: PCB substrate
124: LED 125: PCM circuit
126: rechargeable battery 127: PCM chip
128: MOS-FET switch 130: control unit
135: wireless communication unit 200: prop
300: connection part 400: central control center server

Claims (6)

In the fence installed at the top of the pillar, the solar LED light is installed on the ground that is the boundary between the sidewalk and the roadway,
The solar LED indicator light,
A convex lens coupled to the upper portion;
A solar cell plate installed under the convex lens and collecting solar heat to generate electric energy;
A rechargeable battery that stores and stores electrical energy generated by the solar cell plate;
An LED electrically connected to the rechargeable battery and emitting light using the electrical energy stored in the rechargeable battery;
An illumination sensor for detecting an illumination of an external environment;
A distance sensor installed toward a roadway and measuring a distance between the prop and the vehicle;
The solar panel is electrically connected to the rechargeable battery, the LED, the illumination sensor, and the distance sensor, but when the illuminance detected by the illuminance sensor is equal to or greater than a predetermined illuminance value, the distance between the vehicle and the vehicle measured by the distance sensor reaches a predetermined first distance. Only when the electric energy stored in the rechargeable battery to be supplied to the LED for a certain time, or when the illuminance sensed by the illuminance sensor is less than a predetermined illuminance value, the electric energy stored in the rechargeable battery is supplied to the LED and the distance sensor The controller increases the amount of electrical energy for a predetermined time when the distance measured from the vehicle reaches within the first distance, and when the voltage stored and stored in the rechargeable battery is equal to or greater than a predetermined voltage value V1, Switching to cut off the charge and stored in the battery Or less constant volt value (V2), the PCB substrate comprising a PCM circuit for protecting the rechargeable battery by switching to be discharged is cut off to the LED from the battery;
An upper body in which the convex lens is coupled to an upper portion and the solar cell plate is installed on a first step formed at an inner upper end under the convex lens; And
And a lower body on which the PCB substrate is installed on a second step formed at an upper end thereof, a plurality of LEDs are installed on the PCB substrate, and the rechargeable battery is installed on a lower side thereof.
Receiving a unique identification number indicating the position of the solar LED indicator from the control unit, Wireless communication unit for transmitting the unique identification number to the integrated control center server responsible for parking control;
The control unit,
When the distance from the specific vehicle measured in real time by the distance sensor built in the solar LED indicator is maintained within a predetermined second distance for a predetermined time, transmitting a unique identification number of the solar LED indicator to the wireless communication unit Fence using solar LED, characterized in that.
The method of claim 1,
The PCM circuit electrically connects the rechargeable battery and the LED and the solar cell plate,
The positive terminal of the rechargeable battery and the VDD terminal electrically connected to the positive input terminal of the LED and the solar cell plate, the negative terminal of the rechargeable battery and the negative output terminal of the LED, and the negative terminal of the solar cell plate. A PCM chip including a VSS terminal connected to a ground terminal; And a MOS-FET switch for blocking charging and discharging of a rechargeable battery by the PCM chip. Including,
The PCM chip,
When the voltage difference value between the VDD terminal and the VSS terminal is equal to or greater than the predetermined volt value V1, the MOS-FET switch is switched so that the charging of the rechargeable battery is cut off, and the predetermined volt value (V2) that is different from the voltage stored in the rechargeable battery is stored. Or less), the MOS-FET switch is switched so that discharge from the rechargeable battery to the LED is blocked.
The method of claim 2,
The PCM chip is used S8261-G4E model,
The MOS-FET switch is used SME8205 model,
The constant volt (V1) value is 3.89V,
The other constant volt value (V2) Higgs using solar LED, characterized in that 2.01V.
The method of claim 3, wherein the PCM circuit,
A resistor R1 having one end electrically connected to the positive terminal B + of the rechargeable battery and the positive output terminal P + of the PCM circuit and the other end electrically connected to the VDD terminal of the PCM chip, and one end of the V of the PCM chip. A resistor R2 electrically connected to the terminal and the other end electrically connected to the negative output terminal (P-) of the PCM circuit, one end of which is electrically connected to the VDD terminal of the PCM chip, and the other end of which is electrically connected to the VSS terminal. Fence using a solar LED, characterized in that it further comprises a capacitor C1.
delete In the delineator which is installed on the top of the pillar, the solar LED light is installed on the ground, which is the boundary between the sidewalk and the roadway,
The solar LED indicator light,
A convex lens coupled to the upper portion;
A solar cell plate installed under the convex lens and collecting solar heat to generate electric energy;
A rechargeable battery that stores and stores electrical energy generated by the solar cell plate;
An LED electrically connected to the rechargeable battery and emitting light using the electrical energy stored in the rechargeable battery;
An illumination sensor for detecting an illumination of an external environment;
A distance sensor installed toward a roadway and measuring a distance between the prop and the vehicle;
The solar panel is electrically connected to the rechargeable battery, the LED, the illumination sensor, and the distance sensor, but when the illuminance detected by the illuminance sensor is equal to or greater than a predetermined illuminance value, the distance between the vehicle and the vehicle measured by the distance sensor reaches a predetermined first distance. Only when the electric energy stored in the rechargeable battery to be supplied to the LED for a certain time, or when the illuminance sensed by the illuminance sensor is less than a predetermined illuminance value, the electric energy stored in the rechargeable battery is supplied to the LED and the distance sensor The controller increases the amount of electrical energy for a predetermined time when the distance measured from the vehicle reaches within the first distance, and when the voltage stored and stored in the rechargeable battery is equal to or greater than a predetermined voltage value V1, Switching to cut off the charge and stored in the battery Or less constant volt value (V2), the PCB substrate comprising a PCM circuit for protecting the rechargeable battery by switching to be discharged is cut off to the LED from the battery;
An upper body in which the convex lens is coupled to an upper portion and the solar cell plate is installed on a first step formed at an inner upper end under the convex lens; And
And a lower body on which the PCB substrate is installed on a second step formed at an upper end thereof, a plurality of LEDs are installed on the PCB substrate, and the rechargeable battery is installed on a lower side thereof.
Receiving a unique identification number indicating the position of the solar LED indicator from the control unit, Wireless communication unit for transmitting the unique identification number to the integrated control center server responsible for parking control;
The control unit,
When the distance from the specific vehicle measured in real time by the distance sensor built in the solar LED indicator is maintained within a predetermined second distance for a predetermined time, transmitting a unique identification number of the solar LED indicator to the wireless communication unit Delineator using a solar LED, characterized in that.

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