KR100943030B1 - Monitoring system and temperature detecting apparatus for street lamp with led - Google Patents

Abstract

PURPOSE: An LED street lamp monitoring system and an LED street lamp temperature sensing apparatus are provided to monitor a temperature change of an LED module with reference to the product information and the position information by collecting the temperature of the LED module used as a lamp in a street lamp using the short range wireless communication. CONSTITUTION: A plurality of temperature sensing devices(100) transmit the temperature data of a detected LED street lamp mechanism(10) to a preselected relaying device(200) using the short range wireless communication. The plurality of relaying devices transmit the received temperature data and the referenced identification data of the temperature sensing apparatus to a remote monitoring apparatus using the long distance communication. The remote monitoring apparatus monitors the change of the temperature for each temperature sensing apparatus. A portable terminal(400) operates in the short range wireless communication mode of the relaying device performing the temperature sensing and the short range wireless communication.

Description

LED Street Light Monitoring System and LED Street Light Temperature Sensor {MONITORING SYSTEM AND TEMPERATURE DETECTING APPARATUS FOR STREET LAMP WITH LED}

The present invention relates to a LED street light monitoring system, and more particularly, by collecting the temperature of the LED module used as a lamp of the street lamp by short-range wireless communication to monitor the temperature change of the LED module while linking the product information and location information, The present invention relates to an LED street light monitoring system that can easily set a path of short-range wireless communication using a portable terminal.

In general, the life of the LED module used as the lamp of a street lamp depends on the heat generated when the lamp is turned on. Therefore, to use the LED module for a long time without shortening the life of the LED module once installed, the temperature of the LED module should be kept below an appropriate temperature value. To this end, the LED street light is a structure capable of dissipating heat generated from the LED module, for example, is provided in the form having a vent or cooling fan.

However, conventional LED street lamps installed on the top of street lamps cannot be cooled to an appropriate temperature when the ventilation holes are blocked by insects or dust, or when the cooling fans fail due to long-term use. There was a problem.

In order to solve the above problems, a technique for remotely monitoring or controlling a street light has been proposed, and such a prior art is disclosed in Korean Patent No. 10-0823086, "Remote street light control system using a low power wireless communication technology", registered patent No. 10-0813132, "Communication Cost Reduction Street Light Control System and Method Using Zigbee Network," and the like.

The prior arts are divided into a plurality of individual controllers installed in each street lamp, one or more local controllers for data communication with the individual controllers installed in the zone by dividing the individual controllers by zone, and a central control center for remotely controlling the local controller (3). This configuration allows the central control center to remotely control each individual controller via the local controller. In addition, the Patent No. 10-0813132 configures a plurality of local controllers as an ad hoc network and adds a separate gateway to reduce communication costs.

However, the related arts have the inconvenience of having to individually set the communication module of each individual controller in order to connect each individual controller to the local controller by short-range wireless communication. That is, the path of short-range wireless communication between the individual controller and the local controller should be set according to the site according to the location of the street lamp or the line connected to the street lamp blinker, but the above-mentioned conventional technologies do not suggest a configuration for setting such a communication path. will be.

In addition, the prior art, there is also the inconvenience that the administrator must directly enter the product information or location information of the individual controller installed in the street light.

In general, when the LED street light fixtures are installed in the street lamp, it is difficult to check the product information of the individual LED lamps because it is randomly selected from the plurality of LED street lamp fixtures of the same specification and installed in the street lamp. In other words, in order to make a database of product information of the installed LED street light fixture, there was a difficulty in inputting the information recorded and recorded to the management computer at the time of installation, and in case of incorrect recording or input in the recording process and the input process. In addition, it was difficult to accurately database the product information. Moreover, based on the product information of the failed LED street light fixtures can be replaced immediately by pre-order the LED street light fixtures of the same specification, the prior art also has a problem that improper operation due to incorrect ordering due to inaccurate information.

In addition, in order to classify the installed LED street light fixtures, but also the installed location information to the database, there was a limit that the prior art has not presented a technology for this. That is, in the case of replacing or repairing a failure among the installed LED streetlights, it is difficult to find a failed LED streetlight without knowing the location information of the failed LED streetlight.

Accordingly, an object of the present invention is to provide an LED street light monitoring system that can arbitrarily set a short-range wireless communication path in accordance with the location and installation line of the LED streetlight mechanism.

Another object of the present invention is to provide an LED street light monitoring system that can easily database the product information and location information after the installation of the LED streetlight mechanism.

Still another object of the present invention is to monitor and monitor the temperature change of the LED street light fixture corresponding to the product information and location information, LED can be easily selected and replaced or repaired heat generated above the predetermined temperature, LED It is to provide LED street light monitoring system that can thoroughly manage the street light fixtures.

In order to achieve the above object, the present invention, in the LED streetlight monitoring system for monitoring the temperature of the LED streetlight mechanism 10, the temperature sensor 120, the memory 140 and the short-range wireless communication unit 150, The unique temperature sensing device identification data and product information data determined for each temperature sensing device 100, and the relay device identification data of the predetermined relay device 200 are stored in the memory 140, and a plurality of LED streetlight devices A plurality of temperature sensing units respectively installed in the 10 to obtain temperature data by sensing the temperature of the LED street light fixture 10, and transmits the obtained temperature data by short-range wireless communication to the predetermined relay device 200. Device 100; A memory 240, a short-range wireless communication unit 220 and a long-distance communication unit 230, and the temperature detection in the area where the short-range wireless communication with the unique relay device identification data and product information data determined for each relay device 200 The temperature sensing device identification data of the device 100 is stored in the memory 240, and is installed for each zone to receive the temperature data from the temperature sensing device 100 in the zone by short-range wireless communication, and the received temperature data is sensed. A plurality of relay apparatuses 200 connected to the device identification data and transmitted to the remote monitoring apparatus 300 in a long distance communication; The remote communication unit 320 includes a temperature data and a temperature sensing device identification data from the relay 200 installed for each zone through the remote communication unit 320, and monitors the change in the temperature value for each temperature sensing device 200. Remote monitoring device 300; A short distance wireless communication unit 420 and a key input unit 460 are provided, and the short distance wireless communication with the temperature sensing device 100 and the relay device 200 and the temperature sensing device 100 and the relay device 200 The mobile terminal 400 is configured to operate in a local area network configuration mode to select the; characterized in that comprises a.

The local area network configuration mode of the mobile terminal 400 receives the temperature sensing device identification data and the relay device identification data, and selects the relay device 200 to which the temperature sensing device 100 is to be connected by short-range wireless communication. Relay to which the temperature sensing device 100 transmits the relay identification data of the selected relay device 200 to the temperature sensing device 100, and sends the temperature sensing device identification data to the selected relay device identification data 200. And short-range wireless communication with the device 200.

In addition, the present invention includes a temperature sensor 520, a memory 540 and a short-range wireless communication unit 550, the product information data and identification data is stored in advance in the memory 540, the LED street light 10 The built-in temperature is measured at a preset time to obtain temperature data and to store the temperature data in the memory 540, and when the data is requested to be transmitted, the temperature for transmitting the requested data from the temperature data, identification data, and product information data to short-range wireless communication. Sensing device 500; It is equipped with a near field communication unit 620, a data storage unit 640, a display unit 650, and a key input unit 660 and is portable, and operates in an identification data collection mode and a temperature data collection mode. In order to transmit the identification signal and the product information data to the temperature sensing device 500 to transmit identification data and product information data from the temperature sensing device 500 to store and manage, and in the temperature data acquisition mode It may be configured to include; a mobile terminal 600 for storing the temperature data to match the identification data stored by receiving the identification data and the temperature data from the temperature sensing device 500 by transmitting an indication signal to transmit the temperature data; It is characterized by.

In addition, the present invention, the LED street light temperature sensing device installed in the LED street lamp, the temperature sensor 720 is installed inside the LED street lamp mechanism 10 to sense the temperature; And a main body 710 installed at a lower side of the LED street light and converting and storing the temperature signal detected by the temperature sensor 720 into digital data. The main body 710 includes the temperature sensor ( A digital conversion unit 712 electrically connected to 720 to receive the sensed temperature signal and convert the detected temperature signal into temperature data of the digital data; A memory 715 for storing temperature data; A key input unit 713 having a button for receiving a user input to output temperature data; A display unit 714 for displaying temperature data on the screen; A rechargeable battery 715 electrically connected to a power line connected to the LED street light device 10 to supply electric power charged by charging electric power; The digital converter 712 acquires temperature data for each preset time and stores the temperature data in the memory 715. When the button of the key input unit 713 is pressed, the temperature data stored in the memory 715 is read out and displayed. And a temperature sensing controller 711 outputted to the unit 714.

Therefore, the present invention configured as described above, since the short-range wireless communication path is set by using a mobile terminal, it is easy to match the position of the LED streetlight mechanism without having to set the setting values for the communication network for each temperature sensing device and relay device individually. Has the advantage of forming a short-range wireless communication network.

In addition, the present invention, since the product information and location information for each LED streetlight mechanism by using a portable terminal easily and accurately database, there is also an advantage that can clearly grasp the installation information of the LED streetlight mechanism without problems due to incorrect input.

In addition, the present invention, by remotely monitoring the temperature change of the LED street light fixture, by quickly grasping the product information and location information of the LED street light fixture that is heated to the abnormal high temperature, it is possible to accurately perform the preparation for replacement or repair Thus, it is easy to maintain the LED streetlight mechanism.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described to be easily carried out by those of ordinary skill in the art. In the accompanying drawings, it is to be noted that the same reference numerals as shown in the configuration or action, the same reference numerals are used as much as possible when indicating the same configuration or action in the other drawings. In addition, in describing the present invention below, when it is determined that a detailed description of a related known function or known configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

<First Embodiment>

1 is an overall block diagram of an LED remote street monitoring system according to a first embodiment of the present invention.

The present invention shown in Figure 1, a plurality of temperature sensing device 100 is built in each of a plurality of LED streetlight mechanism (10); A relay device 200 for dividing an area in which a plurality of temperature sensing devices 100 is installed into zones and installing each zone; Remote monitoring device 300 is installed in the central manager office; A mobile terminal 400 which can be used while moving in the field; It is configured to include.

The temperature sensing device 100 is installed in the plurality of LED street light fixtures 10, respectively, to obtain temperature data by sensing the temperature of the LED street light fixtures 10, and the obtained temperature data is a pre-selected relay device. Transmitting by near field communication at 200.

The relay device 200 is installed for each zone to receive the temperature data from the temperature sensing device 100 in the zone by short-range wireless communication, and the received temperature data to the remote monitoring device 300 through the telecommunication network 30. send.

The remote monitoring device 300 is connected to the telecommunication network 30, receives the temperature data from each relay device 200 installed for each zone, the temperature value for each temperature sensing device 200 based on the received temperature data To monitor changes.

The portable terminal 400 performs short-range wireless communication with the temperature sensing device 100 and the relay device 200 to select a relay device 200 for short-range wireless communication with the temperature sensing device 100. Are configured to perform.

Specifically, the components 100, 200, 300, and 400 will be described in detail with reference to FIGS. 2 to 5 as follows.

2 is a detailed block diagram of a temperature sensing device 100 installed in the LED street light 10 according to the first embodiment of the present invention.

Referring to the detailed block diagram shown in Figure 2, the temperature sensing device 100 according to an embodiment of the present invention, attached to the substrate (not shown) of the LED lamp of the LED street light 10 to sense the temperature Temperature sensor 120; A digital converter 130 for converting the temperature signal sensed by the temperature sensor 120 into temperature data in a digital data format; Receives and charges power from a power line (not shown) connected to the LED street light fixture 10, and configured to supply power required by the temperature sensing device 100 even when power is not supplied to the power line (not shown). Rechargeable battery 160; The unique temperature sensor identification data determined for each temperature sensor device 100 and product information data indicating the manufacturer, manufacturing number, specification, etc. of the temperature sensor device 100 are stored in advance, and the digital converter 130 Memory 140 for storing the temperature data obtained in the) and the relay device identification data received from the portable terminal 400; Short-range wireless communication unit 150 for short-range wireless communication with the relay device 200 or the mobile terminal 400; And a temperature sensing controller 110 for controlling the operation of the components 120, 130, 140, and 150. It is configured to include.

The temperature sensing control unit 110 transmits the temperature sensing device identification data and the temperature sensing device product information data stored in the memory 140, and transmits the identification data transmission mode for receiving the relay identification data, and measures the temperature of the LED street light fixture. To obtain the temperature data and to operate in the temperature information providing mode for transmitting the obtained temperature data to the relay device 200.

In more detail, as described below with reference to FIG. 5, the temperature sensing control unit 110 operates in an identification data transmission mode when performing short-range wireless communication with the mobile terminal 400, thereby relaying from the mobile terminal 400. The device identification data is received and stored in the memory 140, and the temperature sensing device identification data and the product information data stored in the memory 140 are transmitted to the mobile terminal 400 through the short range wireless communication unit 150.

Here, the memory 140 stores initial setting values for communicating with the mobile terminal 400, for example, identification data of the mobile terminal 400, and according to the initial setting values, the mobile terminal 400 and the near field wireless communication are stored. It is to enable communication.

In addition, the temperature sensing control unit 110 switches to the temperature information providing mode after performing the identification data transmission mode, thereby operating the temperature sensor 120 and the digital converter 130 at predetermined time intervals. When the control unit acquires temperature data, stores the obtained temperature data in the memory 140, and receives a request for data transmission from the relay device 200 corresponding to the relay device identification data stored in the memory 140, The temperature data stored in the memory 140 is transmitted to the relay device 200 corresponding to the relay device identification data stored in the memory 140.

On the other hand, the short-range wireless communication unit 150 of the temperature sensing device 100 is provided with transmission power adjusting means 151 for adjusting the transmission signal power (power).

Specifically, the temperature sensing control unit 110 controls the transmission power adjusting means 151 so that the transmission signal power in the identification data transmission mode and the transmission signal power in the temperature information providing mode have different values.

Here, the transmission signal power in the identification data transmission mode is made to have a lower power value than the transmission signal power in the temperature information providing mode, and the mobile terminal 400 is within a predetermined distance from the temperature sensing device 100. It is determined to receive the transmission signal of the short range wireless communication unit 150 when there is.

That is, the temperature sensing device 100 adjusts the transmission power of the short range wireless communication unit 150 to receive the temperature sensing device identification data only when the portable terminal 400 approaches within a preset distance. . Preferably, the transmission power in the identification data transmission mode is set to a power capable of making a distance that can be transmitted within half of the distance between the street lamps provided with the temperature sensing device 100.

3 is a detailed block diagram of a relay device 200 installed in each zone according to the first embodiment of the present invention.

Referring to the detailed block diagram shown in Figure 3, the relay device 200 according to an embodiment of the present invention, the short-range wireless communication unit 220 for short-range wireless communication with the mobile terminal 400 and the temperature sensing device 100 ; A remote communication unit 230 for remote wireless communication with the remote monitoring apparatus 300 via the telecommunication network 30; Unique relay device identification data determined for each relay device 200 and product information data indicating a manufacturer, a manufacturing number, a specification, etc. of the relay device 200 are stored in advance, and the temperature designated by the mobile terminal 400 is stored. A memory 240 for storing the sensor device identification data and the temperature data received from the temperature sensor device 100; And a relay control unit 210 for controlling the operation of the components (220, 230, 240); It is configured to include.

In this case, the relay control unit 210 may transmit the relay device identification data and the product information data stored in the memory 240 when performing short-range wireless communication with the mobile terminal 400 through the short range wireless communication unit 220. And the temperature sensing device identification data received from the mobile terminal 400 is stored in the memory 240.

In addition, the relay controller 210 requests the temperature sensing device 100 corresponding to the temperature sensing device identification data stored in the memory 240 to transmit temperature data, and senses the temperature data received according to the request. After storing in the memory 240 in correspondence with the device identification data, the temperature data and the temperature sensing device identification data are transmitted to the remote monitoring device 300 through the remote communication unit 230.

The relay device 200 is preferably installed in the center of the zone in which the temperature sensing devices 100 for short-range wireless communication are installed, and is preferably fixed to a street lamp pole installed in the zone without installing a separate prop. Do.

4 is a detailed block diagram of a portable terminal 400 which is configured to be portable so as to control the temperature sensing apparatus 100 according to the first embodiment of the present invention.

The mobile terminal 400 illustrated in FIG. 4 approaches the temperature sensing apparatus 100 or the relay apparatus 200 and approaches the proximity distance capable of short-range communication, thereby the temperature sensing apparatus 100 or the relay apparatus 200. Short-range wireless communication unit 420 for short-range wireless communication with; A GPS receiver 430 which receives satellite signals from the GPS satellites 20 and acquires location information of the mobile terminal 400; A telecommunication unit 490 connected to the telecommunication network 30 to communicate with the remote monitoring apparatus 300; A data storage unit 440 for storing various data; A display unit 450 configured to output various information on a screen; A key input unit 460 configured to receive a key input of a user carrying the portable terminal 400 and receive a signal according to a key input; A controller 410 for controlling the operation of the components 420, 430, 440, 450, and 460; It is configured to include.

In detail, the control unit 410 receives an instruction from the user through the key input unit 460 to instruct the temperature sensing device 100 to designate a relay device for short-range wireless communication, and the user receives the portable terminal 400. When it is close to the temperature sensing device 100 while carrying, enabling short-range wireless communication with the temperature sensing device 100, the local area network configuration mode is performed.

Here, the local area network configuration mode is performed as follows.

That is, the control unit 410 receives and receives a request for transmission of relay device identification data and product information data from the relay device 200 capable of short-range wireless communication.

Next, the controller 410 requests the temperature sensing apparatuses 100 to transmit the temperature sensing apparatus identification data and the product information data, and the peripheral temperature sensing apparatuses 100 are in the identification data transmission mode. In order to control the transmission power adjusting means 151 to lower the transmission power of the short-range wireless communication unit 150, the control unit 410 is the identification data and product information data only from the adjacent temperature sensing device 100 Can be received.

Here, it is preferable that the transmission power of the short range wireless communication unit 150 is set such that the temperature sensing device 100 can only communicate with the mobile terminal 200 located on the lower surface of the street lamp. When the transmission power is determined as described above, since the transmission signal of the surrounding temperature sensor is not detected by the portable terminal 400, the portable terminal 400 may receive a signal only from the nearest temperature sensing apparatus 100. Will be. Accordingly, the controller 410 may set the location information acquired by the GPS receiver 430 as the location information of the nearest temperature sensing device 100. Preferably, the mobile terminal 400 includes a geographic information storage unit 480 for storing electronic map information; And a geographic information processing unit 470 for displaying a location corresponding to the location information on the electronic map, and outputs an image expressing the location information on the electronic map to the display unit 450.

In addition, the mobile terminal 400 obtains the location information through the GPS receiver 430 at the location where the relay device 200 is installed in advance, and receives the relay device identification data and the relay device product information data. It is preferable to store the positional information as the installation positional information of the relay device 200 in the data storage unit 440 together with the relay device identification data and the relay device product information data.

Therefore, even if the control unit 410 of the portable terminal 400 receives the relay device identification data and the relay device product information data from the two or more relay devices 200, the control unit 410 displays the position information for each relay device 200. Output through 450 and any one of the relay device 200 can be selected through the key input unit 460.

As a result, the portable terminal 400 is in a state in which one relay device 200 and one temperature sensor device 100 are selected, and the necessary information is transmitted to the selected relay device 200 and the temperature sensor device 100. It becomes possible. That is, the control unit 410 of the portable terminal 400 transmits the temperature sensing device identification data of the temperature sensing device 100 to the relay device 200, and transmits the relay device identification data of the relay device 200 to the temperature sensing device. By transmitting to (100), the relay device 200 and the temperature sensing device 100 are to perform short-range wireless communication with each other.

In addition, the portable terminal 400, the relay device identification data, the relay device product information data, the relay device position information, the temperature sensor device identification data, the temperature sensor device product information data, and the temperature sensor device information obtained above By transmitting to the remote monitoring device 300 through the telecommunications network 30, to make a database. Therefore, the remote monitoring apparatus 300 may not only determine the position of the temperature sensing apparatus 100 connected to the relay apparatus 200 through short-range wireless communication, but also each of the relay apparatus 200 and the temperature sensing apparatus installed in the field. Even if the product information of the 100 is not input, the manager of the remote monitoring apparatus 300 can easily grasp the product information of the relay device 200 and the temperature sensing device 100.

5 is a detailed block diagram of the remote monitoring apparatus 300 installed in the central management center according to the first embodiment of the present invention.

The remote monitoring device 300, the remote communication unit 320 is connected to the telecommunications network 30 and communicates with the mobile terminal 400 or the relay device 200; Streetlight information database for storing relay device identification data, relay device product information data, relay device location information, temperature sensor device identification data, temperature sensor device product information data, temperature sensor device location information, and LED street light temperature data ; A geographic information database 340 for storing electronic map information; A geographic information processor (350) for generating an electronic map image in which the temperature sensing device location information and the relay device location information are linked to the electronic map to display the positions of the temperature sensing device and the relay device on the electronic map; A monitor 360 for outputting various types of information and the generated electronic map image; A remote control unit 310 for controlling the components; It is configured to include.

First, the remote control unit 310, the relay device identification data, relay device product information data, relay device location information, temperature sensing device identification data, temperature sensing device received from the mobile terminal 400 through the remote communication unit 320 The product information data and the temperature sensor location information are stored in the streetlight information database 330, and the information of the relay device 200 and the temperature sensor device 100, which are configured for short-range wireless communication, are stored in association with each other.

The remote controller 310 reads the electronic map from the geographic information database 340 and outputs the electronic map to the monitor 360. A zone in which a mark indicating the relay device 200 and a mark indicating the temperature sensing device 100 are output, and the temperature sensing devices 100 for short-range wireless communication with the relay device 200 are centered on the relay device 200. The display is also output, so that the administrator can recognize at a glance the position of the relay 200 and the temperature sensing device 100 on a map.

Next, when the remote control unit 310 receives the temperature sensing device identification data and the temperature data from the relay device 200 through the remote communication unit 320, the remote controller 310 receives the temperature data for each of the received temperature sensing device identification data. The data stored in the database 330 is processed, and temperature data for each temperature sensing device identification data is processed to generate a graph indicating a change curve of the temperature value, and output the generated graph to the monitor 360.

In addition, the remote controller 310 monitors whether the received temperature data exceeds a preset temperature value, and if there is a value exceeding the preset temperature value among the temperature data, the corresponding temperature sensing device 100 is It determines that the LED module of the installed LED street light is overheated and warns. In this case, the warning may be formed in various forms such as changing the mark indicating the temperature sensing device 100 displayed on the electronic map, or outputting a separate warning message to the monitor 360.

In this way, the remote monitoring device 300, even if the administrator does not input the identification data and product information data of the installed temperature sensing device 100 and the relay device 200, through the mobile terminal 400 in the field Database can be easily received by receiving, and thus can be accurately database without fear of being incorrectly input by the administrator, and also the installation position of the temperature sensing device 100 and the relay 200 can be accurately received and easily transmitted on the electronic map. Has the advantage of being visible.

In addition, according to the present invention, after the identification data and product information data is stored in the temperature sensing device 100 and the LED street light fixture 10 having the temperature sensing device 100 is installed in the street lamp column, the temperature sensing device 100 Since the identification data and product information data stored in the database to be a database, it is not necessary to install while checking the identification data, product information data and position when installing the LED street light fixture 10 with a built-in temperature sensing device 100, Nor do the workers who install the street lamp mechanism 10 perform additional work.

In the LED streetlight monitoring system according to the present invention, it is preferable to database the product information, the installation date and the installation company name of the LED streetlight.

To this end, the portable terminal 400 receives the product information, the installation date and the installation company name information of the LED streetlight mechanism to the key input unit 460 and stores it in the data storage unit 440, and also the product information of the LED streetlight mechanism , The installation date and the installation company name information is sent to the remote monitoring device 300 to the telecommunications unit 490. In addition, the portable terminal 400 preferably transmits the product information, the installation date and the installation company name information of the received LED streetlight mechanism to the temperature sensing device 100 by short-range wireless communication.

In addition, the remote monitoring apparatus 300 stores the product information, the installation date, and the installation company name information of the LED streetlight mechanism in the streetlight information database 330 in association with the identification data of the temperature sensing device 100 to correspond to the identification data. The installation date and the installation company name can be inquired together with various information of the temperature sensing device 100, that is, the temperature sensing device product information data, temperature data and location information.

In addition, the LED street light monitoring system according to the present invention, even if the portable terminal 400 is not configured to be configured so that the administrator can check the information on the LED street light.

To this end, as shown in FIG. 2, the input unit 171 and the display unit 172 is composed of an input and output unit 170 which is connected to the temperature sensing device 100 and can be installed in the street lamp column. . In this case, when the temperature sensing controller 110 of the temperature sensing apparatus 100 receives an operation input for outputting information related to a street light through the key input unit 171, the temperature sensing apparatus product information data and the temperature sensing apparatus Identification data, temperature data, product information of the LED street light fixtures, the installation date and the installation company name is output to the display unit 172 so that the user can check.

Second Embodiment

6 is a block diagram of an LED street light monitoring system according to a second embodiment of the present invention.

7 is a detailed block diagram of the temperature sensing device 500 according to the second embodiment of the present invention.

8 is a detailed block diagram of the portable terminal 600 according to the second embodiment of the present invention.

6 to 8, the LED street light monitoring system according to the second embodiment of the present invention is embedded in the LED street light mechanism 10 to detect the temperature of the LED street light, obtain temperature data, and obtained temperature data A temperature sensing device 500 for transmitting the short range wireless communication; It is portable and can be used, the mobile terminal 600 for receiving and storing the temperature data from the temperature sensing device 500 is configured to include.

The temperature sensing device 500 includes a short-range wireless communication unit 550, a rechargeable battery 560, and a temperature sensor 520 having a temperature sensor 520, a digital converter 530, a memory 540, and a transmission power adjusting means 551. It is configured to include a controller 510.

The temperature sensor 520, the digital converter 530, the near field communication unit 550, and the rechargeable battery 560 may include a temperature sensor 120 provided in the temperature sensing device 100 of the first embodiment of the present invention. Since the digital conversion unit 130, the short-range wireless communication unit 150 and the rechargeable battery 160 are configured in the same manner, duplicate description thereof will be omitted.

The memory 540 stores the obtained temperature data, and stores the unique temperature sensor identification data and the product information data given to the temperature sensor 500.

The temperature sensing control unit 510 may operate in an identification data transmission mode for receiving identification data and a temperature information providing mode for detecting temperature of an LED street light and transmitting temperature data to the mobile terminal 600. It is composed.

First, when the temperature detection control unit 510 receives an instruction signal to operate in the identification data transmission mode from the mobile terminal 600, the temperature control unit 510 controls the transmission power adjusting means 551 to output the short range wireless communication unit 550. The power is lowered to transmit the temperature sensor product information data and the temperature sensor identification data. The transmission power in the identification data transmission mode is set in advance as a power capable of receiving a transmission signal only when the mobile terminal 600 is close to the temperature sensing device 500 as in the first embodiment of the present invention. do. That is, the portable terminal 600 is set to a power capable of receiving the temperature sensor product information data and the temperature sensor identification data only when the portable terminal 600 is close to the point where the street lamp column in which the temperature sensor 500 is installed is installed.

The preferable transmission power in the identification data transmission mode is set to a power capable of making a distance that can be transmitted within half of the distance between the street lamps provided with the temperature sensing device 500. When the transmission power is set in this way, the mobile terminal 600 can receive only a signal transmitted from the nearest temperature sensing device 500 even though there are a plurality of temperature sensing devices 500 in the vicinity.

Subsequently, when receiving the location information through the short range wireless communication unit 550, the temperature sensing control unit 510 stores the received location information in the memory 540 and outputs an indication signal for releasing the identification data transmission mode. When received from the mobile terminal 600 performs a temperature information providing mode.

In the temperature information providing mode, the temperature sensing controller 510 acquires temperature data from the temperature sensor 120 and the digital converter at a predetermined time interval, stores the temperature data in the memory 140, and transmits an instruction signal to transmit data. When received from the mobile terminal 600 through the short range wireless communication unit 550, the stored temperature sensing device identification data, location information data and temperature data is transmitted through the short range wireless communication unit 550.

At this time, it is preferable that the transmission power in the temperature information providing mode is set larger than the transmission power in the identification data transmission mode, so that the transmission distance is larger than that in the position information acquisition mode. For example, the transmission power of the temperature information providing mode may be determined so that the mobile terminal 600 can receive data from the plurality of temperature sensing devices 500 at any one point.

The mobile terminal 600 includes a short range wireless communication unit 620, a GPS receiver 630, a data storage unit 640, a display unit 650, a key input unit 660, a speaker 661, and a geographic information processing unit ( 670, a geographic information storage unit 680, an interface unit 690, and a controller 610.

Here, the short range wireless communication unit 620, the GPS receiver 630, the display unit 650, the geographic information processing unit 670 and the geographic information storage unit 680, the portable terminal 400 of the first embodiment of the present invention Since the short-range wireless communication unit 420, the GPS receiver 430, the display unit 450, the geographic information processing unit 470 and the geographic information storage unit 480 provided in each of the same configuration, the duplicate description thereof will be Omit.

The data storage unit 640 stores the identification data and the product information data in advance, and stores the temperature data received from the temperature sensing device 500 through the short range wireless communication unit 620.

The key input unit 660 is provided to receive a user's manipulation input, and in particular, includes an input button for selecting an identification data collection mode for collecting identification data and a temperature data collection mode for collecting temperature data.

The speaker 661 is provided to output a warning sound.

When the identification data collection mode is selected through the key input unit 660, the control unit 610 transmits an indication signal operating in the identification data transmission mode through the short range wireless communication unit 620 to detect the surrounding temperature. 500 to operate in the identification data transmission mode. At this time, since the peripheral temperature sensing apparatuses 500 lower the transmission power, the identification temperature and product information data are received only from the nearest temperature sensing apparatus 500 and stored in the data storage 640. In addition, the controller 610 generates the location information through the GPS receiver 630 and stores the location information in the data storage unit 640 and transmits the identification data and the product information data to the nearest temperature sensing device 500. Send location information to.

Preferably, a location information transmission button is provided in the key input unit 660, and the user of the portable terminal 600 presses the location information transmission button while contacting the portable terminal 600 with the street lamp column on the lower surface of a specific street lamp column. If so, accurate position information of the temperature sensing device 500 can be obtained.

As such, the user may operate the portable terminal 600 in the identification data collection mode to collect identification data, product information data, and location information of the temperature sensing device 500 installed in each street lamp while moving along the street lamp. The location information may be stored in the temperature sensing device 500.

In addition, the controller 610 transmits an instruction signal to release the identification data transmission mode and operate in the temperature information providing mode to the temperature sensing device 500 receiving the location information.

Meanwhile, when the temperature data collection mode is selected through the key input unit 660, the controller 610 may provide an instruction signal for transmitting temperature data to the surrounding temperature sensing apparatuses 500. By transmitting through, and receiving the temperature data and the identification data through the short-range wireless communication unit 620 and stores the temperature data in the data storage unit 640. At this time, since the identification data is stored in the data storage unit 640 by the identification data collection mode, temperature data is stored so as to be linked to the identification data.

Therefore, the user can easily collect the temperature history of the LED street light fixture from the temperature sensing device 500 in the moving path after operating the portable terminal 600 in the temperature data collection mode and moving along the street lamp. .

In addition, the control unit 610 reads the electronic map stored in the geographic information storage unit 680, reads the position information stored in the data storage unit 640, and matches the position information to the electronic map by the geographic information processing unit 670. The display unit 650 may be output to the display unit 650, and the user may confirm that the data is being received at a location on the electronic map corresponding to the identification data received together with the current temperature data.

In addition, the controller 610 may monitor whether the preset overheat temperature value is exceeded among the received temperature data, and if the overheat temperature value is exceeded, a warning sound may be output through the speaker 661 to inform the user. .

Preferably, the mobile terminal 600 is provided with an interface unit 690 that can be connected to a personal computer (PC) to transmit data to the PC, product information data and identification data stored in the data storage unit 640 Also, location information and temperature data can be transferred to a PC.

In the LED streetlight monitoring system according to the second embodiment of the present invention, it is preferable to database the product information, the installation date and the installation company name of the LED streetlight.

To this end, the mobile terminal 600 receives the product information, the installation date and the installation company name information of the LED streetlight mechanism to the key input unit 660 and stores it in the data storage unit 640, the mobile terminal 600 is The received product information, installation date and installation company name information is transmitted to the temperature sensing device 500 by short-range wireless communication to be stored.

In addition, the mobile terminal 600 is a short-range wireless communication with the temperature sensing device 500 in the vicinity, identification data, product information data, temperature for the temperature sensing device 500 selected through the key input unit 660 It is configured to output data, location information, product information of the LED street light fixture, the installation date and the installation company name on the display unit 650.

In addition, the LED street light monitoring system according to the present invention, it is preferable that the manager can check the information on the LED street light even if you do not carry the mobile terminal 600.

To this end, as shown in FIG. 7, the input unit 571 and the display unit 572 are further provided with an input / output unit 570 which is connected to the temperature sensing device 500 and can be installed in the street lamp column. . In this case, when the temperature sensing controller 510 of the temperature sensing apparatus 500 receives an operation input for outputting information related to a street light through the key input unit 571, the temperature sensing apparatus product information data and the temperature sensing apparatus are identified. Data, temperature data, product information of the LED street light fixture, the installation date and the installation company name is output to the display unit 572 so that the user can check.

In the first or second embodiment of the present invention, the temperature sensing device product information data preferably includes product information of the LED streetlight device 10 in which the temperature sensing devices 100 and 500 are incorporated. Accordingly, the product information of the LED streetlight mechanism 10 can also be integrated management corresponding to the installation location.

In addition, in the first or second embodiment of the present invention, the temperature sensors 120 and 520 of the temperature sensing apparatuses 100 and 500 may be installed on a board or a heat sink of an LED module, It may be provided in a form attached to the inside. In addition, the temperature sensors 120 and 520 may be provided in a power supply unit (not shown) installed in the street lamp column to drive the LED module.

In addition, in the first or second embodiment of the present invention, the short-range wireless communication technology applied may be made of a technology such as ZigBee, Bluetooth, binary CDMA, UWB, Wibree, or the like. In addition, it is desirable that the power consumption is small, the scalability is excellent, and the communication distance is appropriately made in consideration of the height of the street light and the installation interval.

In addition, the telecommunication network 30 of the first embodiment of the present invention may be formed of a public network such as CDMA.

9 is a block diagram of an LED street light temperature sensing apparatus according to an embodiment of the present invention.

Referring to FIG. 9, the LED street light temperature sensing device according to the present invention includes a temperature sensor 720 installed inside the LED street light fixture 10 to detect a temperature; And a main body 710 installed at the lower side of the LED street light and converting and storing the temperature signal detected by the temperature sensor 720 into digital data.

The temperature sensor 720 is installed in the form of being attached to the heat sink of the LED module, the circuit board or the inner surface of the body of the LED street light fixture 10 in the interior of the LED street light fixture 10, to detect the temperature of the attached portion do.

The main body 710 may include a digital converter 712 electrically connected to the temperature sensor 720 and converting the detected temperature signal into temperature data of digital data; A memory 715 for storing temperature data; A key input unit 713 including an output button for receiving a user input to output temperature data and a stop button for receiving a user input for stopping the output operation of the temperature data; A display unit 714 for displaying temperature data on the screen; A rechargeable battery 715 that is electrically connected to a power line connected to the LED street light device 10 to supply power charged to each component of the main body 710; The controller 712 controls the digital converter 712 at predetermined times to store temperature data, and stores the obtained temperature data in the memory 715. When the output button of the key input unit 713 is pressed, the memory 715 is stored in the memory 715. And a temperature sensing controller 711 for reading the stored temperature data and outputting the stored temperature data to the display unit 714.

In addition, the temperature sensing control unit 711 stops the output operation of the display unit 714 when the stop button of the key input unit 713 is pressed. Therefore, when the user presses the stop button, power consumption can be reduced by stopping the operation of the display unit 714 which outputs the temperature data. That is, the present invention is configured to operate even when the power supply is cut off by the power of the rechargeable battery 716 that was charged when the power was supplied. In this way, the stop button is provided so that the user frequently checks the temperature data. It is possible to reduce the power consumption during the daytime.

In addition, the temperature sensing control unit 711 is preferably configured to store only the temperature data within a predetermined period in consideration of the data storage capacity of the memory 715 in the memory 715. That is, the temperature detection control unit 711 stores the recently obtained temperature data, and at the same time deletes the temperature data stored in the past outside the preset period, so that only the latest temperature data is stored in the memory 715. It is.

Although illustrated and described in the specific embodiments to illustrate the technical spirit of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiment as described above, within the limits that various modifications do not depart from the scope of the invention It can be carried out in. Therefore, such modifications should also be regarded as belonging to the scope of the present invention, and the scope of the present invention should be determined by the claims below.

1 is an overall block diagram of a remote monitoring system for an LED street light according to a first embodiment of the present invention.

2 is a detailed block diagram of a temperature sensing device 100 installed in the LED street light according to the first embodiment of the present invention.

3 is a detailed block diagram of a relay device 200 installed in each zone according to the first embodiment of the present invention.

4 is a detailed block diagram of a portable terminal 400 which is configured to be portable so as to control the temperature sensing apparatus 100 according to the first embodiment of the present invention.

5 is a detailed block diagram of the remote monitoring apparatus 300 installed in the central management center according to the first embodiment of the present invention.

6 is a block diagram of an LED street light monitoring system according to a second embodiment of the present invention.

7 is a detailed block diagram of a temperature sensing device 500 according to a second embodiment of the present invention.

8 is a detailed block diagram of a portable terminal 600 according to a second embodiment of the present invention.

Figure 9 is a block diagram of an LED street light temperature sensing apparatus according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

10: LED streetlight mechanism 20: GPS satellite 30: long distance communication network

100: temperature sensing device 110: temperature sensing control unit 120: temperature sensor

130: digital conversion unit 140: memory 150: short-range wireless communication unit

151 transmission power adjusting means 160 rechargeable battery

200: relay device 210: relay control unit 220: short-range wireless communication unit

230: telecommunications unit 240: memory

300: remote monitoring device 310: remote control unit 320: telecommunications unit

330: street light information database 340: geographic information database

350: geographic information processing unit 360: monitor

400: portable terminal 410: control unit 420: short-range wireless communication unit

430: GPS receiver 440: data storage unit 450: display unit

460: key input unit 470: geographic information processing unit 480: geographic information storage unit

490: Telecommunications Department

500: temperature sensing device 600: portable terminal 700: temperature sensing device

Claims (7)

delete delete In the LED street light monitoring system for monitoring the temperature of the LED street light fixture 10, A temperature sensor 120, a memory 140, and a short-range wireless communication unit 150, the unique temperature sensing device identification data and product information data determined for each temperature sensing device 100 and the predetermined relay device 200 Repeater identification data of the) is stored in the memory 140, respectively installed in the plurality of LED street light fixtures 10 to sense the temperature of the LED street light fixtures 10 to obtain temperature data, and obtained temperature data A plurality of temperature sensing apparatuses 100 for transmitting the short-range wireless communication to a predetermined relay apparatus 200; A memory 240, a short-range wireless communication unit 220 and a long-distance communication unit 230, and the temperature detection in the area where the short-range wireless communication with the unique relay device identification data and product information data determined for each relay device 200 The temperature sensing device identification data of the device 100 is stored in the memory 240, and is installed for each zone to receive the temperature data from the temperature sensing device 100 in the zone by short-range wireless communication, and the received temperature data is sensed. A plurality of relay apparatuses 200 connected to the device identification data and transmitted to the remote monitoring apparatus 300 in a long distance communication; The remote communication unit 320 includes a temperature data and a temperature sensing device identification data from the relay 200 installed for each zone through the remote communication unit 320, and monitors the change in the temperature value for each temperature sensing device 200. Remote monitoring device 300; A short distance wireless communication unit 420 and a key input unit 460 are provided, and the short distance wireless communication with the temperature sensing device 100 and the relay device 200 and the temperature sensing device 100 and the relay device 200 The mobile terminal 400 is configured to operate in the local area network configuration mode to select the; Consists of including Local area network configuration mode of the mobile terminal 400, Receiving the temperature detection device identification data and the relay device identification data, by selecting the relay device 200 that the temperature sensor device 100 is to be connected by short-range wireless communication, the selected relay device 200 to the temperature sensor device 100 Transmits the relay device identification data, and transmits the temperature sensor device identification data to the selected relay device identification data 200, such that the temperature sensor device 100 performs short-range wireless communication with the selected relay device 200. The temperature sensing device 100, A transmission power adjusting means 151 for adjusting a transmission power of the short range wireless communication unit 150, When performing short-range wireless communication in accordance with the short-range communication network configuration mode of the mobile terminal 400, the transmission power of the short-range wireless communication unit 150 set by the transmission power adjusting means 151 is at the time of transmitting temperature data. It is set lower than the power, but is set as the transmission distance within half of the street light installation interval, The mobile terminal 400, It further includes a GPS receiver 430 for receiving satellite signals of the GPS satellites 20, and a remote communication unit 490 for communicating with the remote sensing device 300, and performing a temperature sensing device when performing a local area network configuration mode. 100) and each product information data of the relay device 200 is also received, the position information is obtained based on the satellite signal through the GPS receiver 430, the product information of the LED street light fixture, the date of installation and the name of the installation company key Received through the input unit 460, the acquired position information, the product information of the LED street light fixture, the installation date and the information on the installation company name together with the respective product information data of the temperature sensing device 100 and the relay device 200 By transmitting to the remote monitoring device 300 to the database to the remote monitoring device 300, and transmits the product information, the installation date and the name of the installation company name of the LED streetlight mechanism by the short-range wireless communication the temperature sensing device ( 500), The temperature sensing device 500, Connected to the key input unit 171 and the display unit 172 installed in the street lamp column, according to the operation of the key input unit 171, product information data, identification data, temperature data, product information of the LED street light fixture, installation date and installation LED street light monitoring system, characterized in that configured to output the company name to the display unit (172). delete delete delete delete

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