KR20100039537A - Automatic operating streetlight - Google Patents

Abstract

PURPOSE: A streetlight is provided to prevent the inflow of the rainwater inside an illumination sensor by arranging the illumination sensor under a transparent window. CONSTITUTION: An illumination sensor(100) is installed on one side of a streetlight to sense an ambient illumination. A timer(200) outputs a current date and a current time. A storage(300) stores an on-time and an off-time. An operation unit(400) determines the on/off of the streetlight by comparing the current date and time with the on-time with the off-time. A controller(500) determines the on/off of the streetlight by comparing the ambient illumination with the preset value. A determining unit determines the abnormality of the illumination sensor by analyzing the change of the output signal of the illumination sensor.

Description

Automatic operating streetlight

The present invention relates to an auto flashing street light, and more specifically, it is automatically turned on and off by determining whether the street light is turned on using a timer and an illuminance sensor, and analyzes the output value of the illuminance sensor to determine whether there is an abnormality of the illuminance sensor. The present invention relates to a street lamp that blinks automatically to identify and notify an administrator when an error occurs.

Street lamps will be installed to illuminate dark streets. When the street lamp is kept on, it consumes electricity and the life of the street lamp is shortened. Therefore, the street lamp is generally turned on at sunset and turned off at sunrise.

In the related art, the manager directly performs lighting and turning off in time, but as the number of street lamps to be managed increases, it becomes impossible to turn on or turn off the street lamp within a predetermined time.

Therefore, in order to solve this problem, a method of automatically turning on and off a street light has been developed.

Methods for automatically turning on and off the streetlight include a method of using an illumination sensor and a method of using a timer.

The method of using the Ambient Light Sensor is to connect the Ambient Light Sensor to the street lamp to set the standard illuminance for lighting and extinguishing. When the surrounding light becomes darker than the standard illuminance such as sunset or rainy weather, it is automatically detected and the surrounding light such as sunrise or cloud is rolled out. When it's bright, turn it off automatically.

In the case of using the above-mentioned illuminance sensor, the light is turned on and off according to the change of illuminance, so it can be easily applied to the change of sunrise or sunset time according to the season, and has the advantage of automatically lighting even in abnormal situations such as rainy weather. .

The illumination sensor is located inside a transparent window formed on one side of the streetlight (generally the upper side of the streetlight), so when foreign matters accumulate on the window or the roadside is located on the upper side of the light sensor, the illuminance may be turned on even during the day. There is a problem that can be.

On the contrary, despite the darkening of the surroundings, there may be a problem in that when the light generated by the ambient light is detected by the ambient light sensor, the lighting may not be made.

The method of using a timer is to install a timer that can identify the current time in the street lamp and to turn on and off at the time set by the administrator. Here, in order to consider the change of sunrise and sunset time according to the season, the lighting time and the lighting time may be changed by changing the lighting time and the lighting time by day or month.

When the timer is used as described above, the lamp is turned on and off at a predetermined time regardless of the surrounding environment. Therefore, a malfunction due to the surrounding environment such as an illumination sensor can be prevented, but there is a problem that lighting is impossible in an abnormal situation such as rainy weather.

The present invention is to solve the above problems is to provide an automatic flashing street lamp that is automatically turned on and off in accordance with the nighttime and abnormal circumstances.

In addition, it is another object of the present invention to provide an auto flashing street lamp that can detect the abnormality of the sensor and notify the administrator promptly to respond.

The present invention provides a street lamp for illuminating a dark street is installed on the street to achieve the above object, the illumination sensor 100 is installed on one side of the street lamp to sense the ambient light; A timer 200 for grasping and outputting a current date and time; A storage unit 300 for storing a lighting time and a lighting time; An operation unit 400 which receives the current date and time from the timer 200 and compares the lighting time and the extinguishing time stored in the storage unit 300 to determine whether the street light is turned on and to control the light; A control unit 500 which determines whether the street light is turned on by controlling the illuminance detected by the illuminance sensor 100 with a setting value and controls the lighting; Determination unit 600 for detecting the abnormality of the illuminance sensor 100 by analyzing a change in the signal detected by the illuminance sensor 100 and outputting the illuminance sensor 100; Make a point.

According to a preferred embodiment, the timer 200 is an output means for extracting the current date and time information from the receiving means 210 and the signal received by the receiving means 210 receiving the satellite 230 and outputting it Characterized in that it comprises a 220.

According to a preferred embodiment of the present invention, the lighting unit identified by the operation unit 400 and the control unit 500 is turned on when there is a conflict.

According to a preferred embodiment it is characterized in that it further comprises an input means 310 for changing the lighting time and the lighting time stored in the storage unit 300.

According to a preferred embodiment, the determination unit 600 detects an abnormality of the illuminance sensor 100 and flashes a street lamp to notify an administrator.

According to a preferred embodiment, the determination unit 600, if grasping the abnormality of the illumination sensor 100, characterized in that notified to the remote administrator via a wired or wireless network.

According to a preferred embodiment is provided with a cleaning means 16 for cleaning the illumination sensor 100 or the transparent window 14 protecting the illumination sensor 100 and the abnormality of the illumination sensor 100 in the determination unit 600. After the operation of the cleaning means 16 in accordance with the control signal to output characterized in that to remove the foreign matter adhering to the illumination sensor 100 or the transparent window (14).

According to the automatic flashing street light of the present invention is configured to determine whether the illumination sensor and the timer in combination in the normal state is turned on and off at a certain time, even in abnormal conditions such as when dark due to rainy weather during the day This is done.

In addition, by analyzing the output value of the illuminance sensor, it is possible to check whether there is an abnormality of the illuminance sensor and notify the manager of the problem so that the action can be taken promptly.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the flashing street lamp according to an embodiment of the present invention.

According to FIG. 1, the present invention includes an illuminance sensor 100, a timer 200, a storage unit 300, an operation unit 400, a control unit 500, and a determination unit 600.

First, the illumination sensor 100 will be described. The illuminance sensor 100 is a device that outputs a signal by measuring the brightness of the light. As the illuminance sensor 100, a CDS (photoconductive cell) or a photodiode is used. The light sensor 100 measures the brightness of the outside using the current because the current increases when the light is stronger. Since the operation principle of the illumination sensor 100 as described above is well known to those skilled in the art, a detailed description thereof will be omitted.

In the present invention, as shown in Figure 2, the illumination sensor 100 is installed on the upper side of the street light. The installation of the illuminance sensor 100 on the street lamp as described above is because when the illuminance sensor 100 is located at the lower side, the light of its own or an adjacent street lamp may flow and malfunction. However, it is not limited to providing in the upper side as mentioned above. Wherever the lights from the street lights do not flow. In addition, the illumination sensor 100 may be installed on one side of the street instead of directly installed on the street lamp and configured to detect illumination by connecting to a wired or wireless device.

In the embodiment of the present invention, since the light sensor 100 is located on the upper side of the street lamp, a transparent window 14 is installed on the upper side of the street lamp in order to prevent rain from flowing in the rain, and the light sensor 100 is mounted on the window 14. Will be installed below.

Next, the timer 200 will be described. The timer 200 detects the current date and time and outputs it as a digital signal. In the embodiment of the present invention for this purpose, the GPS receiving means 210 is installed in the street lamp to receive a signal transmitted from the GPS satellite 230 and analyze the current time to configure the current time. When using the GPS receiving means 210 for receiving the signal of the GPS satellite 230 as the timer 200 as described above, it is always convenient because there is almost no need to modify the time since the correct time can be obtained.

However, instead of using GPS as described above, it is worth considering a method of connecting a street lamp to a network to obtain a time by connecting to a server providing a current time.

Here, as described above, the timer 200 includes a clock chip, instead of receiving and outputting time from the outside, and having a means for checking the time inside the street lamp, such as checking the number of clocks directly, so as to identify and output the time. It is also contemplated to configure the timer 200.

Next, the storage unit 300 will be described. The storage unit 300 stores time for turning on and off the street light. In the embodiment of the present invention, the time to turn on and off the light is input to the storage unit 300 by date. This is to ensure that the lighting is turned on and off in consideration of the sunset and sunrise time changes depending on the date.

The lighting and turning off time stored in the storage unit 300 depends on the capacity of the storage space that can be stored in the storage unit 300. If the capacity is large, store several years. If the capacity is small, store several months or weeks.

However, instead of storing by date as described above, it is also possible to store by season or store one lighting time and off time so that the lighting is turned on and off regardless of the date.

Here, instead of storing the sunrise time and the sunset time in the storage unit 300, it is also considered that the formula for calculating the sunrise time and the sunset time is configured to calculate the lighting time and the extinguishing time.

The storage unit 300 may also consider adding an input means 310 for inputting a new lighting time and a lighting time or for modifying existing input information.

In the embodiment of the present invention, a receiver capable of receiving an RF ID signal is input to the input means 310. Accordingly, in the state where the administrator previously stored the information in the RF ID chip, the administrator accesses the street lamp and stores the information by contacting the RF ID chip with the receiver. This is to solve the inconvenience of performing a separate input operation for each street light when managing a plurality of street lights.

However, instead of using the RF ID as described above, it is also possible to connect to a general wired or wireless network to receive information or to install a terminal on a street light and connect a laptop to change the information.

Next, the operation unit 400 will be described. The operation unit 400 checks whether the street lamp is turned on by comparing the lighting time and the lighting time stored in the storage unit 300 after receiving the current date and time determined through the timer 200. The calculation unit 400 generates a control signal to turn on the street light when the current time is the lighting time, and generates a control signal to turn off the street light when the lighting time is off.

Next, the control unit 500 will be described. The control unit 500 generates a control signal to turn on when the measured illuminance is low, that is, when the outside becomes dark after receiving the value measured and output by the illuminance sensor 100 and compared with a predetermined illuminance. If the illuminance is high, the control signal is generated to turn off.

In this case, when the signals of the operation unit 400 and the control unit 500 conflict, one of the two should be given priority. In an embodiment of the present invention, priority is given to the controller 500. This is to turn on the street lamp in the daytime when it is dark due to rain or the like.

However, when the ambient light flows into the street light, the street light may not be turned on even at night. Therefore, the priority is given to the operation unit 400 in consideration of this, or the priority is given to the control unit 500 during the day, and the operation unit 400 takes priority at night. It may be configured to have.

In the embodiment of the present invention, the control unit 500 is configured to control the street light by generating a lighting signal and an off signal, but the control unit 500 may be configured to transmit a control signal for changing the brightness of the street light.

In other words, it is possible to save electric energy by dimming the brightness of the street light at night or at dawn when there is little traffic, and by brightening the brightness of the street light at the time of heavy traffic. For this purpose, it is preferable to input a change in illuminance according to time instead of simply inputting only the lighting and lighting time.

In addition to the change in time, it is also possible to consider the configuration to adjust the brightness according to the change in illumination.

Next, the determination unit 600 will be described. The determination unit 600 stores the change in the value input from the illuminance sensor 100 and analyzes it to check whether there is an abnormality of the illuminance sensor 100.

For example, when foreign matter is attached to the window 14 above the illumination sensor 100, external light is not input to the illumination sensor 100 or only a small amount of light is input. Here, if the current time is day, it may be determined that an abnormality has occurred in the illuminance sensor 100 when the external light is not input at all or is below a predetermined value despite the light being input.

On the contrary, if light continues to be input even at night, it may be determined that an abnormality has occurred because a failure of the illumination sensor 100 or other light is introduced into the illumination sensor 100.

In addition, even if time passes, if the signal output from the illuminance sensor 100 is always constant, it may be determined that an action is necessary because a failure of the illuminance sensor 100 or a constant light is continuously introduced from the outside.

As described above, if an abnormality occurs by analyzing a change in the output value of the illuminance sensor 100, the determination unit 600 notifies the manager of this. In the embodiment of the present invention, for this purpose, the lamp 610 is installed on one side of the pillar 18 of the street lamp, and when an abnormality occurs, the indicator 610 blinks so that the administrator can check.

However, as described above, instead of separately installing the indicator 610, the street lamps may be blinked at regular intervals or may be provided with a wireless communication means to notify the administrator by sending a text message or the like.

Here, as shown in FIG. 2, a cleaning means 16 for cleaning the transparent window 14 protecting the illuminance sensor 100 is installed in the street lamp, and the cleaning means (before the determination unit 600 notifies the manager). 16) by removing the foreign matter attached to the illumination sensor 100 or the window 14 by controlling the control, and then again to check the state of the illumination sensor 100 and to configure to notify the administrator if abnormality occurs even after cleaning Worth seeing

Hereinafter, with reference to the accompanying drawings will be described the operation and effect of the automatic flashing street light according to an embodiment of the present invention.

First, a control circuit including a GPS receiver 210, a calculator 400, a controller 500, a determiner 600, and a storage 300 is installed in the street lamp.

An upper side of the lampshade 12 forms a through hole and closes the through hole with a transparent window 14, and then installs an illuminance sensor 100 on the lower side thereof, and connects the illuminance sensor 100 with the control unit 500. Done.

In addition, the lamp 610 and the RF ID receiver are installed on the pole 18 of the street lamp and connected to the control circuit.

Thereafter, after storing the lighting time and the extinguishing time in the storage unit 300, street lights are installed at regular intervals.

The calculation unit 400 analyzes the signal of the satellite 230 received by the GPS receiver 210 to determine the current time and then compares the lighting time and the lighting time stored in the storage unit 300 to turn on the street lamp. On or off. As a result, all street lights are turned on and off at the same time.

In addition, the value input from the illuminance sensor 100 is transmitted to the control unit 500, and when the value input from the illuminance sensor 100 is less than a predetermined illuminance, the relay operates to turn on the street lamp even in the daytime.

As above, the lighting is turned on and off depending on the time of day, and the lighting is made according to the illuminance in abnormal situations such as rainy weather. As a result, administrative costs can be saved.

1 is a simplified block diagram of an automatic flashing street light according to an embodiment of the present invention

2 is a side view of a street lamp of the present invention

<Description of Symbols Used in Main Parts of Drawing>

100: Ambient light sensor 200: Timer

300: storage unit 310: input means

400: calculator 500: controller

600: determination unit 610: indicator light

Claims (7)

In the street lamps installed in the street to illuminate the dark street, An illuminance sensor 100 installed at one side of the street lamp to sense an ambient illuminance; A timer 200 for grasping and outputting a current date and time; A storage unit 300 for storing a lighting time and a lighting time; An operation unit 400 which receives the current date and time from the timer 200 and compares the lighting time and the extinguishing time stored in the storage unit 300 to determine whether the street light is turned on and to control the light; A control unit 500 which determines whether the street light is turned on by controlling the illuminance detected by the illuminance sensor 100 with a setting value and controls the lighting; Automatically blinking street light, characterized in that it comprises a; determining unit 600 for detecting the abnormality of the illumination sensor 100 by analyzing a change in the signal detected by the illumination sensor 100 to output the illumination. The method of claim 1, The timer 200 includes a receiving means 210 receiving a signal from the satellite 230 and an output means 220 for extracting the current date and time information from the signal received by the receiving means 210 and outputting it. Automatic flashing street light, characterized in that configured by. The method of claim 1, Automatic flashing street light, characterized in that to be turned on if there is a conflict between whether the lighting of the street light grasped by the operation unit 400 and the control unit 500. The method of claim 1, Automatic flashing street light, characterized in that it further comprises an input means 310 for changing the lighting time and lighting time stored in the storage unit 300. The method of claim 1, The determination unit 600 blinks the street light when grasping the abnormality of the illumination sensor 100 to notify the administrator, characterized in that the flashing lamp. The method of claim 1, The determination unit 600, if grasping the abnormality of the illumination sensor 100, the automatic flashing street light, characterized in that to notify the remote administrator via a wired or wireless network. The method of claim 1, It is provided with a cleaning means 16 for cleaning the illuminance sensor 100 or the transparent window 14 protecting the illuminance sensor 100, and the determination unit 600 detects the abnormality of the illuminance sensor 100 and outputs the control. The flashing street lamp, characterized in that for removing the foreign matter attached to the illumination sensor 100 or the transparent window 14 by operating the cleaning means 16 in accordance with the signal.

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