KR101668979B1 - Streetlamp and monitoring system using the dame - Google Patents

Abstract

The present invention relates to a street lamp and a management system therefor. The street lamp according to an aspect of the present invention is a street lamp which is installed on a border of a road to illuminate the road, comprising: a body which defines an exterior of the street lamp and is fixed on a bottom surface, wherein a portion of the body is extended upward from the bottom surface; a communication unit which is connected with a server and transmits and receives data to and from the server; a lamp which is coupled with one side of the body, wherein a portion of the lamp is exposed to the outside to illuminate outside; a gyro sensor which obtains an angle signal according to an angle change of the body; and a control unit which calculates an angle change direction and an angle change amount of the body based on the angle signal obtained from the gyro sensor, and determines that the street lamp is a damaged street lamp, when the angle change amount is greater than a preset reference, that the street lamp trespasses the road to cause a problem in a traffic on the road, when an installation position of the street lamp is a first side of the road and the angle change direction is toward an area in a first direction, and that the street lamp trespasses the road to cause a problem in a traffic on the road, when the installation position is a second side and the angle change direction is toward an area in a second direction opposite to the first direction, wherein when it is determined that the street lamp is a damaged street lamp, the control unit controls such that damage information, which includes at least one among a determination result on the damage to the street lamp and a determination result on whether the street lamp trespasses the road, as well as a street lamp identification number, which is preassigned to the street lamp, are transmitted to the server.

Description

[0001] STREET LAMP AND MONITORING SYSTEM USING THE DAME [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a streetlight and a control system therefor, and more particularly, to a streetlight for transmitting damage information to a control server in response to a breakage and a control system therefor.

Streetlights are mainly installed on roads to provide illumination to vehicles or people passing by. Street light is installed on many roads, but the management is mostly done by people.

Conventional street lighting management has been provided in the form that it is mainly checked by the management company or sent out after receiving the report of the damage.

Such a conventional street light management system is disadvantageous in that it can not be instantly repaired because it is difficult to confirm whether or not the street light is broken even if it is damaged in the case of an outside street lamp. In addition, even if a streetlight is tilted due to a typhoon or an earthquake and the road is blocked, it is difficult to confirm whether or not such a problem occurs without notification.

An object of the present invention is to provide a streetlight for transmitting damage information to a control server by judging whether or not a breakage has occurred, and a control system therefor.

Another object of the present invention is to provide a streetlight for judging whether or not a road is broken when it is damaged and transmitting the same to a control server, and a control system therefor.

Another object of the present invention is to provide a streetlight that receives damage information and requests repair from an adjacent administrator terminal, and a control system therefor.

It is to be understood that the present invention is not limited to the above-described embodiments and that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the following claims .

According to an aspect of the present invention, there is provided a streetlight installed at a boundary of a road to provide illumination to the road, the body being fixed to the floor and extending at least partly upward from the floor; A communication unit connected to the server to transmit and receive data; A lamp coupled to one side of the body and partially braking light to the outside by being exposed to the outside; A gyro sensor for acquiring an angle signal according to an angle change of the body; And judging that the street light is a broken street light when the angle change amount is equal to or greater than a predetermined reference based on an angle change direction and an angle change amount of the body based on an angle signal obtained from the gyro sensor, When it is the first side with respect to the road, it is determined that a problem has arisen in the traffic of the road by invading the road if the angle changing direction is in the first direction, and when the installation position is the second side, If it is determined that the vehicle is in a second direction opposite to the first direction,

The damage information including at least one of a result of a determination as to whether the street lamp is damaged or a result of a determination as to whether or not the street lamp has invaded a road and a street lamp identification number And a controller for controlling the server to transmit the streetlight to the server.

According to another aspect of the present invention, there is provided a control server for controlling a plurality of streetlights, comprising: a server communication unit connected to the plurality of streetlights; A server display unit for outputting a position of the plurality of streetlights on a map; A controller for obtaining the damage information from at least one street light among the plurality of street lights and outputting the position of the street light transmitting the damage information on a map outputted to the server display unit, And transmits repair information requesting repair to an adjacent manager terminal. When there is a plurality of management terminals within the same radius centering on the street lamp that transmitted the damage information on the map, Selecting one of the plurality of terminals existing within the same radius in consideration of at least one of a distance to the streetlight and a schedule previously given to the manager terminal and requesting repair of the streetlight that transmitted the damage information To send repair request information A control server including a control unit to control the operation of the control server.

It is to be understood that the solution of the problem of the present invention is not limited to the above-mentioned solutions, and the solutions which are not mentioned can be clearly understood by those skilled in the art to which the present invention belongs It will be possible.

According to the present invention, it is possible to determine whether the streetlight is damaged or not, and transmit damage information to the control server.

In addition, according to the present invention, it is possible to quickly determine whether a damaged streetlight has invaded a roadway, and to quickly share information on follow-up actions.

Further, according to the present invention, it is possible for the manager to promptly repair the lamp based on the damage information transmitted by the street lamp itself.

The effects of the present invention are not limited to the above-mentioned effects, and the effects not mentioned can be clearly understood by those skilled in the art from the present specification and the accompanying drawings.

1 is an environmental view of a streetlight control system 10000 according to an embodiment of the present invention.
2 is an exemplary view showing a body 1600 of a streetlight 1000 according to an embodiment of the present invention.
3 is a block diagram of a streetlight 1000 according to an embodiment of the present invention.
4 is a block diagram of a control server 2000 according to an embodiment of the present invention.
5 is a flowchart showing the operation of the controller 1500 of the streetlight 1000 according to an embodiment of the present invention.
FIG. 6 is an exemplary view for determining the tilted direction of the street lamp 1000 according to an embodiment of the present invention.
FIG. 7 is an exemplary view for judging a road infringement in a curve section according to an embodiment of the present invention. FIG.
FIG. 8 is a diagram illustrating an example of judging whether a road is involved in consideration of the length of the head 1630 according to an embodiment of the present invention.
9 is a flowchart showing the operation of the control server 2000 according to an embodiment of the present invention.
10 is an exemplary view showing the locations of the damaged street lamp 1000 and the administrator terminal 4000 according to an embodiment of the present invention.

The above objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities.

In the drawings, the thicknesses of the layers and regions are exaggerated for clarity and the element or layer is referred to as being "on" or "on" Included in the scope of the present invention is not only directly above another element or layer but also includes intervening layers or other elements in between. Like reference numerals designate like elements throughout the specification. The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, numerals (e.g., first, second, etc.) used in the description of the present invention are merely an identifier for distinguishing one component from another.

In addition, the suffix "module" and " part "for constituent elements used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

According to an aspect of the present invention, there is provided a streetlight installed at a boundary of a road to provide illumination to the road, the body being fixed to the floor and extending at least partly upward from the floor; A communication unit connected to the server to transmit and receive data; A lamp coupled to one side of the body and partially braking light to the outside by being exposed to the outside; A gyro sensor for acquiring an angle signal according to an angle change of the body; And judging that the street light is a broken street light when the angle change amount is equal to or greater than a predetermined reference based on an angle change direction and an angle change amount of the body based on an angle signal obtained from the gyro sensor, When it is the first side with respect to the road, it is determined that a problem has arisen in the traffic of the road by invading the road if the angle changing direction is in the first direction, and when the installation position is the second side, If it is determined that the vehicle is in a second direction opposite to the first direction,

The damage information including at least one of a result of a determination as to whether the street lamp is damaged or a result of a determination as to whether or not the street lamp has invaded a road and a street lamp identification number And a controller for controlling the server to transmit the streetlight to the server.

The area of the first direction and the area of the second direction may be the same.

In the case where the installation position of the streetlight is one side, the area in the first direction is relatively larger than the area in the second direction, and when the installation position of the streetlight is different from the area in the second direction, Can be relatively small compared to the two-directional region.

The body may include a fixing portion fixed to the bottom surface, a support portion extending upward from the fixing portion, and a head portion extending in a horizontal direction from one side of the support portion.

When the installation position of the streetlight is one side, the difference between the region in the first direction and the region in the second direction may be proportional to the size of the internal angle formed by the line extending from the head portion to the fixed portion and the support portion .

The control unit may further include a wind sensor, wherein the control unit determines, based on the signal value acquired from the wind sensor, the cause of the breakage as wind if the signal value is equal to or greater than a predetermined value, May further include breakage cause information.

According to another aspect of the present invention, there is provided a control server for controlling a plurality of streetlights, comprising: a server communication unit connected to the plurality of streetlights; A server display unit for outputting a position of the plurality of streetlights on a map; A controller for obtaining the damage information from at least one street light among the plurality of street lights and outputting the position of the street light transmitting the damage information on a map outputted to the server display unit, And transmits repair information requesting repair to an adjacent manager terminal. When there is a plurality of management terminals within the same radius centering on the street lamp that transmitted the damage information on the map, Selecting one of the plurality of terminals existing within the same radius in consideration of at least one of a distance to the streetlight and a schedule previously given to the manager terminal and requesting repair of the streetlight that transmitted the damage information To send repair request information A control server including a control unit to control the operation of the control server.

1 is an environmental view of a streetlight control system 10000 according to an embodiment of the present invention.

Referring to FIG. 1, a streetlight control system 10000 may include a plurality of street lamps 1000, a control server 2000, a related institution server 3000, and an administrator terminal 4000.

The street lamp 1000 may be connected to the control server 2000.

The streetlight 1000 can transmit status information to the control server 2000. Here, the status information may be whether the lamp is turned on, whether the power supply is abnormal or the like.

The street lamp 1000 can transmit damage information to the control server 2000. Here, the damage information may include at least one of a result of judging whether the street lamp 1000 is damaged according to a change in the slope of the street lamp 1000, and whether the road lamp 1000 is damaged due to the breakage of the street lamp 1000.

The street light 1000 may store identification information previously given. In addition, when the state information, the damage information, and the like are transmitted to the control server 2000, the streetlight 1000 may transmit identification information together with the control server 2000 so that the control server 2000 can identify the streetlight 1000 to which the information is transmitted .

Street lamp 1000 may include a body 1600 that defines an appearance.

2 is an exemplary view showing a body 1600 of a streetlight 1000 according to an embodiment of the present invention.

Referring to FIG. 2, the body 1600 includes a support portion 1610 braked downward to be fixed to the ground, a support portion 1620 extending upward from the lower portion, and a head portion 1610 coupled to the light portion 1100 1630).

The body 1600 may be fixedly mounted on a floor surface on the road A. Further, the body may be fixedly mounted on a floor adjacent to the road A. For example, the support portion 1610 may be fixed to the bottom surface by bolts, the support portion 1620 may be coupled to the support portion 1610, and the head portion 1630 may be coupled to the upper portion of the support portion 1620 .

The body 1600 may extend upward from the bottom surface. For example, the support portion 1620 included in the body 1600 may be coupled with the support portion 1610 to extend upward. At least one side of the body 1600 may be provided with an illumination unit 1100 coupled thereto. For example, the illumination portion 1100 may be combined with the head portion 1630 provided on one side of the upper portion of the support portion 1620 to provide illumination downward from the upper portion of the body 1600.

In addition, the body 1600 may provide a space in which at least part of the structure included in the street lamp 1000 may be located. For example, the body 1600 may provide an internal space in which at least one of the communication unit 1200, the sensor unit 1300, the power supply unit 1400, and the control unit 1500 may be located.

The body 1600 provided in the streetlight 1000 described above is not limited to the representative example, and the body 1600 may be provided in various forms depending on the selection. For example, the support portion 1620 of the body 1600 may be implemented as a electric pole, and the head portion 1630 may be connected to the support portion 1620 implemented as a electric pole.

The control server 2000 may be connected to a plurality of street lamps 1000. Also, the control server 2000 can be connected to the related institution server 3000 and the administrator terminal 4000.

The control server 2000 can obtain status information from the streetlight. For example, the control server 2000 can acquire status information with the streetlight at predetermined intervals. For example, the control server 2000 may request the transmission of the status information to the street lamp 1000 and receive and receive the status information in response thereto.

The control server 2000 can obtain the damage information from the streetlight. The control server 2000 can receive the damaged information transmitted by judging that the street light 1000 is broken. In addition, the control server 2000 can receive identification information that can identify the streetlight 1000 that has transmitted the information from the streetlight 1000.

The control server 2000 can output the location of the damaged street lamp 1000 through the server display unit 2300 included in and / or connected to the control server 2000. [ For example, the control server 2000 may display a location where the street light 1000, which transmitted damage information on a map, which is output in advance through the server display unit 2300, is displayed as a separate object and output.

The control server 2000 can transmit the failure notification information to the related institution server 3000. [ For example, the damage notification information may include at least one of the identification information given to the damaged street light 1000, the location information of the damaged street light 1000, the damage occurrence time, the cause information of the damage, and the road information where the damaged street light 1000 is located . ≪ / RTI >

The control server 2000 can transmit repair request information to the administrator terminal 3000. [ For example, the repair request information may include at least one of identification information given to the damaged street lamp 1000, location information of the damaged street lamp 1000, breakage occurrence time, breakage cause information, breakage site information, . ≪ / RTI >

The related institution server 3000 can receive the damage notification information from the control server 2000. For example, the related institution server 3000 may be a server device installed in an institution related to maintenance or repair such as a street lamp 1000, a road, a road, and a delivery, such as a city office, a city office, a ward office, have.

The administrator terminal 4000 can receive the repair request information from the control server 2000. For example, the administrator terminal 4000 may be an electronic device that can be moved by a manager such as a smart phone, a tablet, a PDA, a PMP, and navigation, or an electronic device that can be mounted on a vehicle.

The administrator terminal 4000 can output at least a part of the repair request information through the terminal display unit (not shown). For example, the administrator terminal 4000 may store identification information given to the damaged street light 1000 included in the repair request information, location information of the damaged street light 1000, damage occurrence time, damage cause information, It is possible to visually output at least one of the contact information assigned to the repair.

In addition, the administrator terminal 4000 may audibly output a notification informing that the repair request information is received through the terminal sound output unit (not shown).

3 is a block diagram of a streetlight 1000 according to an embodiment of the present invention.

3, the streetlight 1000 may include an illumination unit 1100, a communication unit 1200, a sensor unit 1300, a power supply unit 1400, and a control unit 1500.

The illumination unit 1100 can provide illumination to the outside.

The illumination unit 1100 may receive power from the power supply unit 1400 and provide illumination to the outside. For example, the illumination unit 1100 may be a lamp, an LED, a halogen lamp, and a fluorescent lamp that can provide illumination to the outside.

The communication unit 1200 may be connected to the control server 2000.

The communication unit 1200 is connected to the control server 2000 and can transmit and receive data. For example, the communication unit 1200 may transmit status information, damage information, streetlight identification information, and the like to the control server 2000. In addition, the communication unit 1200 can receive a transmission request for various information such as a request for transmission of status information and a request for transmission of the streetlight identification information from the control server 2000, From the control server 2000, the reception confirmation information.

The sensor unit 1300 can acquire a signal for the surrounding environment.

For example, the sensor unit 1300 can acquire a signal for at least one of the degree of tilting and tilting of the body 1600 and the wind force around the body.

As shown in FIG. 3, the sensor unit 1300 may include a gyro sensor 1310 and a wind sensor 1320.

The gyro sensor 1310 can acquire a signal as the body 1600 tilts.

The gyro sensor 1310 may acquire signals for the X, Y, and Z axes and transmit the acquired signals to the control unit 1500.

The wind sensor 1320 can acquire a signal for the wind blowing around the street lamp 1000. The wind sensor 1320 may acquire a signal for at least one of wind intensity and wind direction and transmit the signal to the controller 1500.

The wind sensor 1320 may be provided outside the body 1600 to obtain a signal for the wind blowing around the streetlight 1600. [

The power supply unit 1400 may provide power required for operation of each configuration included in the street lamp 1000. [ For example, the power supply unit 1400 may supply power necessary for the operation of the illumination unit 1100, the communication unit 1200, the sensor unit 1300, and the control unit 1500.

The control unit 1500 can control the operation of the structures included in the street lamp 1000. [

4 is a block diagram of a control server 2000 according to an embodiment of the present invention.

4, the control server 2000 may include a server communication unit 2100, a server storage unit 2200, a server display unit 2300, a server input unit 2400, and a server control unit 2500.

The server communication unit 2100 may be connected to the street lamp 1000, the related institution server 3000, and the administrator terminal 4000.

The server communication unit 2100 is connected to the street lamp 1000, the related institution server 3000, and the administrator terminal 4000 to transmit and receive data.

For example, the communication unit 2100 may be a communication module for connecting with the street lamp 1000, the related institution server 3000, and the administrator terminal 4000. The communication unit 2100 may be provided as one communication module and may be provided as a plurality of communication modules for connecting to the street lamp 1000, the related institution server 3000, and the administrator terminal 4000, respectively.

The server storage unit 2200 can store data.

The server storage unit 2200 may store information received from the streetlight 1000, and may store the history of the received information. For example, the server storage unit 2200 may store the state information received from the streetlight 1000 with at least one of the time of receiving the state information and the identification information of the streetlight 1000 that transmitted the state information.

The server display unit 2300 can output visual information. The server display unit 2300 may be included as a part of the control server 2300, but may also be provided in a separate configuration connected to the control server 2300.

The server input unit 2400 may receive the user's selection and obtain a signal corresponding to the input. For example, the server input unit 2400 may be configured to receive a user's selection such as a keyboard, a mouse, a touch panel, a jog shuttle, a wheel, and the like.

The server control unit 2500 can control the configuration included in the control server 2000. [

Hereinafter, operations of the street lamp 1000 and the control server 2000 according to the present invention will be described in detail with reference to the embodiments.

5 is a flowchart showing the operation of the controller 1500 of the streetlight 1000 according to an embodiment of the present invention.

Referring to FIG. 5, the operation of the controller 1500 includes a step S100 of determining whether the amount of change is equal to or greater than a predetermined value T, a step S200 of determining a tilted direction, S300) and transmitting the failure information (S400).

The control unit 1500 can determine whether the amount of change is equal to or greater than a predetermined value T (S100).

The control unit 1500 can determine whether the sensor value for at least one of the sensor values for the X axis, Y axis, and Z axis acquired from the gyro sensor 1310 is equal to or greater than a predetermined value T. For example, the controller 1500 can determine whether the sensor value of the Z axis is 2V or more.

The control unit 1500 may determine that the street lamp 1000 is broken if the sensor value for at least one axis is equal to or greater than a predetermined value T. [

The controller 1500 can determine that the street lamp 1000 is not damaged when the sensor value for all the axes is equal to or less than a predetermined value T. [

When the street light 1000 further includes an impact detection sensor (not shown), the control unit 1500 may determine whether the street light 1000 is broken by considering the signal obtained from the impact detection sensor . The control unit 1500 determines whether the sensor value of the sensor value acquired from the gyro sensor 1310 is equal to or less than a predetermined value T or not from a shock sensor (not shown) If the obtained sensor value is equal to or greater than the threshold value, it can be determined that the street lamp 1000 is broken.

The control unit 1500 can determine the tilted direction (S200).

If the controller 1500 determines that the street lamp 1000 is broken, the controller 1500 can determine the direction in which the street lamp 1000 is inclined

The controller 1500 can determine the direction in which the streetlight 1000 is inclined based on the sensor values of the X axis, the Y axis, and the Z axis obtained from the gyro sensor 1310. For example, the controller 1500 can determine the direction in which the streetlight 1000 is tilted based on the sensor values of the X-axis and the Y-axis obtained from the gyro sensor 1310.

The control unit 1500 may determine the direction in which the streetlight 1000 is inclined to determine whether the streetlight 1000 has been damaged and has invaded the roadway,

FIG. 6 is an exemplary view for determining the tilted direction of the street lamp 1000 according to an embodiment of the present invention.

As shown in FIG. 6, the first streetlight 1000a may be located at one side of the roadway A, and the second streetlight 1000b may be installed at the other side.

The control unit 1500 can determine whether or not the inclined streetlight 1000 or the like has invaded the roadway based on whether the streetlight 1000 is inclined toward the roadway. For example, the controller 1500 determines whether the streetlight 1000 is driven on the basis of whether the streetlight 1000 is inclined in the first direction D1, which is the direction of the roadway, or in the second direction D2, It is possible to judge whether or not it has been invaded. Here, the first direction D1 may be the roadway direction at a line extending horizontally from the roadway, and the second direction D2 may be the other direction.

The controller 1500 may determine that the first street lamp 1000a located at one side is inclined in the first direction D1 when the first streetlight 1000a is inclined. In addition, the controller 1500 can determine that the first street lamp 1000a located at one side is inclined in the second direction D2, if the first streetlight 1000a is not inclined. In addition, the controller 1500 can determine that the first streetlight 1000a located at one side is inclined in the second direction D2 when the first streetlight 1000a is in the second direction D2.

The second street lamp 1000b located on the other side may be opposite to the judgment reference direction with respect to the first street lamp 1000a located on one side.

The control unit 1500 can determine that the second street lamp 1000b located at the other side is inclined in the second direction D2 when the second street lamp 1000b is tilted in the second direction D2. Also, the controller 1500 may determine that the second street lamp 1000b does not invade the roadway if it is determined that the second street lamp 1000b is inclined in the first direction D1. If the controller 1500 determines that the second street lamp 1000b is inclined in the first direction D1,

The above description has been made with reference to FIG. 6 to determine whether or not a road is involved in a straight line, but it may be different from a straight line in an intersection, a curve, and the like.

FIG. 7 is an exemplary view for judging a road infringement in a curve section according to an embodiment of the present invention. FIG.

As shown in FIG. 7, the street lamp 1000 may be installed in a curve section.

As shown in FIG. 7, when the street lamp 1000 is installed in the curve section, the area determined by the curve may be further widened according to the characteristics of the curve section. Therefore, if the direction in which the lane is considered to be in the straight section is 0 to 180 degrees and the direction that does not involve the lane is in the ratio of 1: 1 to 181 to 360 degrees, it is determined that the lane has been invaded in the curve section Direction can be made larger corresponding to the curvature of the curve section. For example, when the curvature of the curve section in which the street lamp 1000 is installed is 10, the direction in which it is determined that the lane has been invaded may be set at 355 to 185 degrees, and the direction determined not to involve the lane is 186 to 355 degrees Can be set.

In the above description, 360 degrees has been described as an example, but the present invention is not limited thereto, and various ranges of directions may be used. For example, 360 degrees may be provided from 0 to 180, 0 to -180.

In the above description, the area determined as the roadway varies according to the straight line or the curve section of the lane, but the area judged as the roadway may also be changed according to the shape of the street lamp 1000.

The street lamp 1000 may be provided with the head portion 1630 at the top of the support portion 1620 extending straight from the ground but optionally the head portion 1630 may extend in a lane at one side of the support portion 1620 And may be provided so that the illumination unit 1100 is positioned on the driveway.

The control unit 1500 may determine whether the streetlamp 1000 has infiltrated the roadway by considering the length of the head 1630 extending to the roadway.

FIG. 8 is a diagram illustrating an example of judging whether a road is involved in consideration of the length of the head 1630 according to an embodiment of the present invention.

When the first direction D1 and the second direction D2 are set based on the roadway described with reference to Figs. 6 and 7, as shown in Fig. 8, the tilted direction of the first streetlight 1000a is It may happen that the roadway is invaded even in the two directions D2. Accordingly, the first direction D1 may be set larger corresponding to the length of the head portion 1630. [

8, the controller 1500 controls the first direction (the second direction) in response to the internal angle? Between the extended end of the head part 1630 and the lower end of the supporting part 1620 and the supporting part 1620, (D1) can be extended. For example, when the internal angle [theta] is 10 degrees, the controller 1500 can extend the range of the first direction D1 by 350 to 190 degrees from the existing range of 0 to 180 degrees

The control unit 1500 can determine the cause of the breakage (S300).

The control unit 1500 can determine the cause of the breakage based on the signal acquired from the sensor unit 1300.

For example, the control unit 1500 can determine the cause of the breakage based on the signal obtained from the wind sensor 1320. More specifically, if the signal value obtained from the wind sensor 1320 is equal to or greater than a predetermined wind power value, the controller 1500 can determine that the damage is caused by the wind.

For example, the control unit 1500 can determine the cause of the breakage based on the signal obtained from the gyro sensor 1310. [ More specifically, for example, the controller 1500 vibrates the sensor values of the X axis, Y axis, and Z axis acquired from the gyro sensor 1310 in the X axis-Y axis, the X axis-Z axis, and the Y axis-Z axis If it is judged, it can be judged that it is broken by earthquake.

For example, when the signal obtained from the gyro sensor 1310 is rapidly changed beyond a predetermined range, the control unit 1500 can determine that the signal is damaged due to an impact.

For example, when the signal obtained from another shock sensor (not shown) is equal to or greater than a predetermined range impact value, the controller 1500 can determine that the shock is caused by the impact.

The control unit 1500 can transmit the damage information (S400).

The control unit 1500 can control the control server 2000 to transmit the failure information. For example, the control unit 1500 may control the communication unit 1200 to transmit damage information to the control server 2000.

The control unit 1500 may control to transmit the streetlight identification information previously provided and provided together with the damage information.

The operation of the street lamp 1000 has been described above.

Hereinafter, the operation of the control server 2000 will be described with reference to FIGS.

9 is a flowchart showing the operation of the control server 2000 according to an embodiment of the present invention.

Referring to FIG. 9, the operation of the control server 2000 includes a step S500 of obtaining the breakage information, a step S600 of obtaining information about the location where the breakage streetlight is installed, Acquiring position information (S700), and transmitting repair request information (S800).

The server control unit 2500 can obtain the damage information (S500).

The server control unit 2500 can obtain the breakage information from the street lamp 1000 where the breakage occurred.

The server control unit 2500 can obtain the identification information from the street lamp 1000 in which the breakage has occurred. In addition, the server control unit 2500 can further receive the state information from the street lamp 1000 where the breakage occurred.

The server control unit 2500 can obtain information on the location where the damaged streetlight is installed (S600).

The server control unit 2500 can obtain installation location information corresponding to the identification information acquired from the damaged street light 1000. [ Here, the location information may be at least one of address information and coordinate information.

The server control unit 2500 can search whether or not the same identification information as the acquired identification information exists, and when the same identification information is stored in advance as the search result, the server control unit 2500 acquires the installed position information that is matched with the identification information .

The server control unit 2500 can output the position of the broken street lamp 1000 on the map which is output in advance through the server display unit 2300 based on the installation location information.

The server control unit 2500 can obtain the location information of the administrator terminal 4000 adjacent to the damaged street lamp 1000 (S700).

10 is an exemplary view showing the locations of the damaged street lamp 1000 and the administrator terminal 4000 according to an embodiment of the present invention.

The server control unit 2500 can acquire the location of the administrator terminal 4000 using the GPS information of the administrator terminal 4000. [

The server control unit 2500 can obtain the location information of the nearest administrator terminal 4000 about the location of the damaged street lamp 1000. [

The server control unit 2500 can determine whether the administrator terminal 4000 located within the radius R1 centered on the location of the damaged street lamp 1000 exists. The server control unit 2500 can determine whether there is an administrator terminal 4000 located within the radius R2 by extending the range to the radius R2 if the administrator terminal 4000 located within the radius R1 does not exist.

The server control unit 2500 can select the administrator terminal 4000 located at the narrowest radius R. [ For example, when the first administrator terminal 4000a exists in the radius R1 and the third administrator terminal 4000c exists in the radius R2 as shown in Fig. 10, the server control unit 2500 controls the radius The first administrator terminal 4000a can be selected.

The server control unit 2500 can select all of the plurality of administrator terminals 4000 if there are a plurality of administrator terminals 4000a in the same radius. 10, when the first administrator terminal 4000a and the second administrator terminal 4000b exist within the radius R1, the server control unit 2500 controls the first administrator terminal 4000a and the second administrator terminal 4000b, All of the terminals 4000b can be selected.

The server control unit 2500 can select one administrator terminal 4000a when there are a plurality of administrator terminals 4000a in the same radius. For example, the server control unit 2500 can select one administrator terminal 4000 at the closest position among the plurality of administrator terminals 4000 located within the same radius. For example, the server control unit 2500 may select the administrator terminal 4000 to which the repair fairy information is to be transmitted in consideration of the schedule previously given to the administrator terminal 4000. More specifically, for example, assuming that the first administrator terminal 4000a and the second administrator terminal 4000b exist within the radius R1, there is a schedule previously assigned to the first administrator terminal 4000a, If there is no schedule previously assigned to the terminal 4000b, the server control unit 2500 can select the second administrator terminal 4000b. For example, if the first administrator terminal 4000a is given three schedules and the second administrator terminal 4000b is given five schedules, the server control unit 2500 may transmit the schedule to the first administrator terminal 4000b 4000a) can be selected. For this, the server control unit 2500 can acquire information about a schedule assigned to each administrator terminal 4000 stored in the server storage unit 2200 in advance. In the server storage unit 2200, the identification information of the administrator terminal 4000 and the schedule information assigned to the administrator terminal 4000 may be matched and stored in advance.

The server control unit 2500 can control to transmit repair request information (S800).

The server control unit 2500 can control the selected administrator terminal 4000 to transmit repair request information.

The server control unit 2500 can acquire an image of the damaged street lamp 1000 from the surveillance camera capable of photographing the damaged street lamp 1000 adjacent to the damaged street lamp 1000. [ To this end, the server control unit 2500 may select a surveillance camera to acquire an image based on previously stored information on the position of the surveillance camera and information on the shooting direction of the surveillance camera, and acquire an image from the selected surveillance camera.

The server control unit 2500 can transmit the acquired image to the administrator terminal 4000 together with the repair request information.

The server control unit 2500 determines that a problem has occurred in the relevant roads such as the police station and the road traffic corporation when the damaged street lamp 1000 has invaded the road based on the damaged information transmitted by the damaged street lamp 1000 Ali can send a damage notification.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that such modifications or variations are within the scope of the appended claims.

10000 street light control system 1000 street light
1100 Lighting section 1200 Communication section
1300 Sensor part 1310 Gyro sensor
1320 Wind sensor 1400 Power unit
1500 control unit 2000 control server
2100 server communication unit 2200 server storage unit
2300 server display part 2400 server input part
2500 server controller

Claims (7)

A streetlight installed at a boundary of a road to provide illumination to the road,
A body defining an exterior shape of the streetlight, the body being fixed to the floor and at least a portion extending upwardly from the floor;
A communication unit connected to the server to transmit and receive data;
A lamp coupled to one side of the body and partially braking light to the outside by being exposed to the outside;
A gyro sensor for acquiring an angle signal according to an angle change of the body; And
When the angle change amount is equal to or greater than a predetermined reference based on an angle change direction and an angle change amount of the body based on an angle signal obtained from the gyro sensor,
When the installation position of the streetlight is the first side based on the road surface, it is determined that the road is invaded by the road if the angle change direction is the first direction area, It is determined that the road has not been invaded,
The damage information including at least one of a result of a determination as to whether the street lamp is damaged or a result of a determination as to whether or not the street lamp has invaded a road and a street lamp identification number To the server,
Wherein the body includes a fixing portion fixed to the bottom surface, a support portion extending upward from the fixing portion, and a head portion extending from one side of the support portion in the direction of the road,
The difference between the region in the first direction and the region in the second direction is proportional to the size of the internal angle formed by the line extending from the head portion to the point where the fixed portion and the support portion are coupled and the support portion
When the installation position of the streetlight is a curve section, the area in the first direction is adjusted corresponding to the curvature of the curve section
Street lamp.
delete delete delete delete The method according to claim 1,
Further comprising a wind force sensor,
Wherein the control unit judges the cause of the breakage as wind if the signal value is equal to or greater than a predetermined value based on the signal value obtained from the wind sensor,
Wherein the breakage information further includes breakage cause information that is a result of judging the cause of the breakage
Street lamp.
delete

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