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JP5647866B2 - Tunnel lighting maintenance management system - Google Patents
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JP5647866B2 - Tunnel lighting maintenance management system - Google Patents

Tunnel lighting maintenance management system Download PDF

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JP5647866B2
JP5647866B2 JP2010251385A JP2010251385A JP5647866B2 JP 5647866 B2 JP5647866 B2 JP 5647866B2 JP 2010251385 A JP2010251385 A JP 2010251385A JP 2010251385 A JP2010251385 A JP 2010251385A JP 5647866 B2 JP5647866 B2 JP 5647866B2
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illuminance
abnormality
tunnel
illumination lamp
lamp
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JP2012104348A (en
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隆志 小柳
隆志 小柳
学 山崎
学 山崎
松尾 守
守 松尾
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株式会社アイアールエフ
株式会社コマデン
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Description

本発明は、例えば高速道路のトンネル内に設置されるLED照明灯等の劣化を判定する照明灯の劣化判定装置を備えるトンネル照明灯の保守管理システムに関する。 The present invention relates to a maintenance management system for a tunnel illumination lamp including an illumination lamp degradation determination device that determines degradation of an LED illumination lamp or the like installed in, for example, a highway tunnel.

LED照明灯の劣化を判定する装置として、特許文献1の劣化判定装置が知られている。特許文献1の劣化判定装置は、LED照明灯に通電を開始した初回の照度を照度センサーで測定し、その測定照度を基準値として記憶部に記憶し、初回以降に照度センサーで測定される測定照度が基準値に対して予め設定した設定値以下に低下した際に、点灯スイッチのON時にLED照明灯の点灯状態を変化させて寿命であることを告知する構成である。更に、この劣化判定装置では、必要に応じて、基準値より低い第1設定値と更に低い第2設定値を設定し、測定照度が第2設定値よりも高く第1設定値以下の範囲の場合と、第2設定値以下の範囲の場合とでLED照明灯の点灯状態を異ならせ、当面継続使用が可能な場合と、直ちにLED照明灯の交換が必要な場合とを区別することを可能にしている。   As a device for determining the deterioration of an LED illumination lamp, a deterioration determination device of Patent Document 1 is known. The degradation determination apparatus of Patent Document 1 measures the first illuminance when energization of the LED lighting is started by the illuminance sensor, stores the measured illuminance as a reference value in the storage unit, and is measured by the illuminance sensor after the first time. When the illuminance decreases below a preset value with respect to the reference value, the lighting state of the LED illumination lamp is changed when the lighting switch is turned on to notify the end of life. Furthermore, in this deterioration determination apparatus, if necessary, a first set value lower than the reference value and a second set value lower than the reference value are set, and the measured illuminance is higher than the second set value and less than or equal to the first set value. It is possible to distinguish between the case where the LED lighting lamp can be continuously used for the time being and the case where the LED lighting lamp needs to be replaced immediately by changing the lighting state of the LED lighting lamp depending on the case and the range below the second set value. I have to.

特開2010−113986号公報JP 2010-113986 A

ところで、照明灯の照度の劣化を判定する際には、外部からの光が入りにくい位置で安定的に照度を測定するために、照度センサーの設置位置が重要となる。即ち、外部からの光が入りにくい位置で安定的に照度を測定し、照明灯の照度劣化を正確に判定することができる装置が求められている。   By the way, when determining the deterioration of the illuminance of the illuminating lamp, the installation position of the illuminance sensor is important in order to stably measure the illuminance at a position where it is difficult for light from the outside to enter. That is, there is a need for an apparatus that can stably measure illuminance at a position where light from outside is difficult to enter and accurately determine illuminance deterioration of the illumination lamp.

本発明は上記課題に鑑み提案するものであって、外部からの光が入りにくい位置で安定的に照明灯の照度を測定し、照明灯の照度劣化を正確に判定することができる照明灯の劣化判定装置を備えるトンネル照明灯の保守管理システムを提供することを目的とする。 The present invention is proposed in view of the above problems, and it is possible to stably measure the illuminance of an illuminating lamp at a position where it is difficult for light from outside to enter, and to accurately determine the illuminance deterioration of the illuminating lamp. It is an object of the present invention to provide a maintenance management system for a tunnel illumination lamp equipped with a deterioration determination device.

本発明のトンネル照明灯の保守管理システムは、照明灯と、前記照明灯が出力する光を反射する反射板と、前記反射板に取り付けられる照度センサーと、前記照度センサーで測定される測定値と設定記憶されている設定値とを対比し、前記測定値が前記設定値以下になった場合に前記照明灯の照度異常を検出する照度異常検出回路と、前記照度異常の検出に応じて前記照明灯の照度異常を告知する告知手段と、前記告知手段として前記照明灯の照度異常信号を外部に送信する信号送信部とを有し、トンネル内に設置される照明灯の劣化判定装置と、トンネルの外部に設置され、所定位置のトンネル内の照明灯の照度異常信号の受信に応じて、前記照度異常信号の照度異常の程度を前記照度異常信号に含まれる程度情報と設定記憶されている設定程度情報とを対比して判定し、前記照度異常の程度が設定程度情報を超える場合に、前記所定位置のトンネル内の照明灯の照度異常を示す別の照度異常信号を送信する子局制御装置と、トンネルの外部に設置され、前記子局制御装置からの前記別の照度異常信号の受信に応じて、保守点検員による前記所定位置の前記照明灯の点検を促す出力を行う親局制御装置とを備え、前記劣化判定装置の前記照度異常検出回路が、照度に関する段階的な複数の設定値を記憶し、前記照度センサーで測定される測定値と前記設定値とを対比し、前記測定値が所定の設定値以下になった場合に、前記所定設定値に応じた前記照明灯の照度異常を検出し、前記劣化判定装置の前記信号送信部が、前記所定設定値に対応する程度情報を含む前記照度異常信号を前記子局制御装置に送信することを特徴とする。
この構成によれば、外部からの光が入りにくい位置で安定的に照明灯の照度を測定し、照明灯の照度劣化を正確に判定することができ、照度の劣化した照明灯を確実に告知することができる。また、例えばトンネルの外部など、遠隔地で所定位置の照明灯の照度異常を認識することができ、必要に応じて保守点検員が照明灯の交換等の作業を行うことができる。また、照明灯の交換が必要な場合など重要性の高い照度異常のみを子局から親局に伝え、トンネル内の照明灯の照度を安全基準に適合させつつ、効率的に照明灯の保守管理を行うことができる。
A tunnel illumination lamp maintenance management system of the present invention includes an illumination lamp, a reflector that reflects light output from the illumination lamp, an illuminance sensor attached to the reflector, and a measurement value measured by the illuminance sensor; An illuminance abnormality detection circuit that detects an illuminance abnormality of the illuminating lamp when the measured value is equal to or less than the setting value, and the illumination according to the detection of the illuminance abnormality A notification means for notifying an illuminance abnormality of the lamp, and a signal transmission unit for transmitting an illuminance abnormality signal of the illuminating lamp to the outside as the notification means, a deterioration determination device for the illuminating lamp installed in the tunnel, and a tunnel In response to the reception of the illuminance abnormality signal of the illuminating lamp in the tunnel at a predetermined position, the degree of illuminance abnormality of the illuminance abnormality signal is set and stored as the degree information included in the illuminance abnormality signal. Slave station control device that determines by comparing with the degree information, and transmits another illuminance abnormality signal indicating the illuminance abnormality of the illuminating lamp in the tunnel at the predetermined position when the degree of the illuminance abnormality exceeds the set degree information And a master station control device that is installed outside the tunnel and outputs an output prompting a maintenance inspector to inspect the illumination lamp at the predetermined position in response to reception of the another illuminance abnormality signal from the slave station control device. And the illuminance abnormality detection circuit of the degradation determination device stores a plurality of stepwise setting values related to illuminance, and compares the measurement value measured by the illuminance sensor with the setting value, and the measurement value When the illuminance is less than or equal to a predetermined set value, an illuminance abnormality of the illuminating lamp according to the predetermined set value is detected, and the signal transmission unit of the deterioration determination device provides information on the degree corresponding to the predetermined set value. Including the illuminance abnormality signal And transmits to Noriko station controller.
According to this configuration, it is possible to stably measure the illuminance of the illuminating lamp at a position where it is difficult for light from the outside to enter and accurately determine the illuminance deterioration of the illuminating lamp, and reliably notify the illuminating lamp with deteriorated illuminance. can do. Further, it is possible to recognize an illuminance abnormality of an illumination lamp at a predetermined position in a remote place such as outside the tunnel, and a maintenance inspector can perform work such as replacement of the illumination lamp as necessary. In addition, when the illumination lamp needs to be replaced, only the most important illuminance abnormality is transmitted from the slave station to the master station, and the illumination lamp maintenance in the tunnel is efficiently maintained and managed while conforming to the safety standards. It can be performed.

本発明のトンネル照明灯の保守管理システムは、前記劣化判定装置の前記照度センサーを透光性の照度センサーとすることを特徴とする。
この構成によれば、照度センサーを光が透過することにより、照明灯でより高い照度を得ることができる。
The maintenance management system for a tunnel illumination lamp according to the present invention is characterized in that the illuminance sensor of the deterioration determining device is a translucent illuminance sensor.
According to this configuration, it is possible to obtain higher illuminance with the illuminating lamp by transmitting light through the illuminance sensor.

本発明のトンネル照明灯の保守管理システムは、前記劣化判定装置の前記照度センサーを透光性の太陽電池パネルとすると共に、前記太陽電池パネルの発生電力により前記照度異常検出回路を制御することを特徴とする。
この構成によれば、照度センサーを光が透過することにより、照明灯でより高い照度を得ることができると共に、照明灯の光を有効活用して省エネルギーで劣化判定処理を行うことができる。
The maintenance management system for a tunnel illumination lamp according to the present invention uses the illuminance sensor of the deterioration determination device as a translucent solar cell panel, and controls the illuminance abnormality detection circuit by power generated by the solar cell panel. Features.
According to this configuration, by transmitting light through the illuminance sensor, it is possible to obtain higher illuminance with the illuminating lamp, and it is possible to perform degradation determination processing with energy saving by effectively using the light of the illuminating lamp.

本発明のトンネル照明灯の保守管理システムは、前記劣化判定装置の前記告知出段として、前記照明灯の近傍に設けられる表示部若しくはスピーカーと、前記表示部若しくは前記スピーカーの出力を制御する出力制御部とを備えることを特徴とする。
この構成によれば、保守点検員が視覚若しくは聴覚により、容易に照度の劣化した照明灯を認識し、交換することができる。
In the maintenance management system for a tunnel illumination lamp according to the present invention, as the notification stage of the deterioration determination device, a display unit or a speaker provided in the vicinity of the illumination lamp, and an output control for controlling an output of the display unit or the speaker And a section.
According to this configuration, the maintenance inspector can easily recognize and replace the illuminating lamp having deteriorated illuminance by visual or auditory sense.

本発明によれば、外部からの光が入りにくい位置で安定的に照明灯の照度を測定し、照明灯の照度劣化を正確に判定することができ、照度の劣化した照明灯を確実に告知することができる。また、例えばトンネルの外部など、遠隔地で所定位置の照明灯の照度異常を認識することができ、必要に応じて照明灯の交換等の作業を行うことができる。また、照明灯の交換が必要な場合など重要性の高い照度異常のみを子局から親局に伝え、トンネル内の照明灯の照度を安全基準に適合させつつ、効率的に照明灯の保守管理を行うことができる。 According to the present invention, it is possible to stably measure the illuminance of the illuminating lamp at a position where it is difficult for light from the outside to enter, and to accurately determine the illuminance deterioration of the illuminating lamp, and to reliably notify the illuminating lamp having deteriorated illuminance. can do. Further, it is possible to recognize an illuminance abnormality of an illumination lamp at a predetermined position at a remote place such as outside the tunnel, and work such as replacement of the illumination lamp can be performed as necessary. In addition, when the illumination lamp needs to be replaced, only the most important illuminance abnormality is transmitted from the slave station to the master station, and the illumination lamp maintenance in the tunnel is efficiently maintained and managed while conforming to the safety standards. It can be performed.

(a)は本発明による第1実施形態の照明灯の劣化判定装置を備える照明器具の正面図、(b)はその縦断面図、(c)は同図(a)のA部の部分拡大図。(A) is a front view of the lighting fixture provided with the deterioration determination apparatus of the illumination lamp of 1st Embodiment by this invention, (b) is the longitudinal cross-sectional view, (c) is the partial expansion of the A section of the same figure (a). Figure. 第1実施形態の照明灯の劣化判定装置の構成を説明する構成説明図。BRIEF DESCRIPTION OF THE DRAWINGS Structure explanatory drawing explaining the structure of the deterioration determination apparatus of the illuminating lamp of 1st Embodiment. 第1実施形態のトンネル照明灯の保守管理システムの構成を説明する構成説明図。BRIEF DESCRIPTION OF THE DRAWINGS The structure explanatory drawing explaining the structure of the maintenance management system of the tunnel illumination light of 1st Embodiment. 図3の保守管理システムの第1処理例を示すフローチャート。The flowchart which shows the 1st process example of the maintenance management system of FIG. 図3の保守管理システムの第2処理例を示すフローチャート。The flowchart which shows the 2nd processing example of the maintenance management system of FIG. (a)は本発明による第2実施形態の照明灯の劣化判定装置を備える照明器具の正面図、(b)は同図(a)のB部の部分拡大図。(A) is a front view of a lighting fixture provided with the degradation determination apparatus of the illuminating lamp of 2nd Embodiment by this invention, (b) is the elements on larger scale of the B section of the same figure (a). (a)は本発明による第3実施形態の照明灯の劣化判定装置を備える照明器具の正面図、(b)はその縦断面図、(c)は同図(a)のC部の部分拡大図。(A) is a front view of a lighting fixture provided with the deterioration determination device for an illumination lamp according to the third embodiment of the present invention, (b) is a longitudinal sectional view thereof, and (c) is a partial enlarged view of a portion C in FIG. Figure. 第3実施形態の照明灯の劣化判定装置の構成を説明する構成説明図。Structure explanatory drawing explaining the structure of the deterioration determination apparatus of the illuminating lamp of 3rd Embodiment.

次に、本発明による実施形態の照明灯の劣化判定装置及びトンネル照明灯の保守管理システムについて説明する。   Next, an illumination lamp deterioration determination device and a tunnel illumination lamp maintenance management system according to an embodiment of the present invention will be described.

〔第1実施形態の照明灯の劣化判定装置〕
第1実施形態の照明灯の劣化判定装置は、図1に示す照明器具100に設置される。照明器具100は、略直方体形箱状の筐体10と、筐体10内に長手方向を揃えて設けられる照明灯20と、筐体10の前面側開口に設置される拡散カバー等の透光カバー30と、筐体10内で照明灯10の背面側に設置され、照明灯20が出力する光を反射する反射板40と、反射板10の内面側に設置される照度センサー50と、照度センサー50と電気的に接続され、筐体10内に設けられる照度異常検出部60と、照度異常検出部60と電気的に接続され、筐体10に外部から視認可能に設けられる異常表示部70とを備える。
[Deterioration Determination Device for Illuminating Lamp of First Embodiment]
The illuminating lamp deterioration determination device of the first embodiment is installed in the luminaire 100 shown in FIG. The luminaire 100 includes a substantially rectangular parallelepiped box-shaped casing 10, an illumination lamp 20 provided in the casing 10 with the longitudinal direction aligned, and a translucent light such as a diffusion cover installed in a front-side opening of the casing 10. Cover 30, reflector 10 installed on the back side of illuminating lamp 10 within housing 10, reflecting light output from illuminating lamp 20, illuminance sensor 50 installed on the inner surface side of reflector 10, and illuminance An illuminance abnormality detection unit 60 that is electrically connected to the sensor 50 and provided in the housing 10, and an abnormality display unit 70 that is electrically connected to the illuminance abnormality detection unit 60 and provided to the housing 10 so as to be visible from the outside. With.

照明灯20は、図示省略するソケットに取り付けられ、外部から供給される電力により点灯するようになっている。照明灯20は、例えば蛍光灯型のLED照明灯とすると好適であるが、蛍光灯、水銀灯、ナトリウムランプなど適宜の照明灯とすることが可能である。   The illuminating lamp 20 is attached to a socket (not shown) and is lit by electric power supplied from the outside. The illumination lamp 20 is preferably a fluorescent lamp type LED illumination lamp, for example, but may be an appropriate illumination lamp such as a fluorescent lamp, a mercury lamp, or a sodium lamp.

反射板40は、側面視略弧状で棒状に伸びる凹曲面に形成されており、照明灯20に長手方向が揃うように設けられると共に、反射板40の頂点の前方近傍に照明灯20が位置するように配置される。反射板20の凹曲面の内面側で、照明灯20の近傍位置には、照度センサー50が接着或いはネジ止め等により取り付けられる。   The reflecting plate 40 is formed in a concave curved surface extending in a rod shape with a substantially arc shape when viewed from the side. The reflecting plate 40 is provided so that its longitudinal direction is aligned with the illuminating lamp 20, and the illuminating lamp 20 is positioned in front of the apex of the reflecting plate 40. Are arranged as follows. An illuminance sensor 50 is attached to the position near the illuminating lamp 20 on the inner surface side of the concave curved surface of the reflecting plate 20 by bonding or screwing.

照度センサー50には、受光した光を電気信号に置き換えて出力可能な適宜の照度センサーを使用することが可能であるが、本実施形態においては、透明樹脂フィルム等の透明体51の内部にシリコン等の球状太陽電池52が分散配置されている太陽電池パネルを照度センサー50として用いている。尚、照度センサー50は、透光性の太陽電池パネルなど透光性の照度センサーとすると、照度センサーが光を透過してより高い照度を得ることができるので良好である。   As the illuminance sensor 50, an appropriate illuminance sensor capable of outputting the received light by replacing it with an electrical signal can be used. In the present embodiment, silicon is placed inside the transparent body 51 such as a transparent resin film. A solar cell panel in which spherical solar cells 52 such as those are dispersedly arranged is used as the illuminance sensor 50. The illuminance sensor 50 is preferably a translucent illuminance sensor such as a translucent solar battery panel because the illuminance sensor can transmit light and obtain higher illuminance.

照度異常検出部60は、図2に示すように、照度異常検出回路61と、信号送信部62と、出力制御部63とを有する。照度異常検出回路61は、照度センサー50で測定される照度の測定値として入力される測定電圧と、照度異常検出回路61内の記憶部に設定記憶されている設定値である設定電圧とを対比し、前記測定電圧が前記設定電圧以下となった場合に照明灯20の照度異常として検出する。告知手段として設けられる信号送信部62は、照明灯20の照度異常の検出に応じて、照明灯20の照度異常信号を後述する子局制御装置310など外部に送信する。告知手段を構成する出力制御部63は、照明灯20の照度異常の検出に応じて、異常表示部70の出力を制御する。   As illustrated in FIG. 2, the illuminance abnormality detection unit 60 includes an illuminance abnormality detection circuit 61, a signal transmission unit 62, and an output control unit 63. The illuminance abnormality detection circuit 61 compares a measurement voltage input as a measurement value of illuminance measured by the illuminance sensor 50 with a setting voltage that is a setting value stored in the storage unit in the illuminance abnormality detection circuit 61. Then, when the measured voltage becomes equal to or lower than the set voltage, it is detected as an illuminance abnormality of the illumination lamp 20. The signal transmission unit 62 provided as notification means transmits an illuminance abnormality signal of the illuminating lamp 20 to the outside such as a slave station control device 310 described later in response to the detection of the illuminance abnormality of the illuminating lamp 20. The output control unit 63 constituting the notification means controls the output of the abnormality display unit 70 in response to the detection of the illuminance abnormality of the illuminating lamp 20.

異常表示部70は、告知手段として照明灯20の近傍に設けられる表示部により構成され、本実施形態の異常表示部70はLED灯である。このLED灯の異常表示部70は、照明灯20の照度異常が検出された場合には、出力制御部63の制御により所定パターンで点滅或いは点灯等して異常を表示するようになっている。   The abnormality display part 70 is comprised by the display part provided in the vicinity of the illuminating lamp 20 as a notification means, and the abnormality display part 70 of this embodiment is an LED lamp. When an illuminance abnormality of the illuminating lamp 20 is detected, the LED lamp abnormality display unit 70 displays the abnormality by blinking or lighting in a predetermined pattern under the control of the output control unit 63.

尚、告知手段として、照明灯20の近傍にスピーカーを設け、照度異常検出部60に設けられる出力制御部により、照明灯20の照度異常の検出に応じて、所定パターンの音を出力して異常を示すようにしてもよい。また、本発明における、照度異常の検出に応じて照明灯20の照度異常を告知する告知手段は、前述の信号送信部62、異常表示部70等の表示部の出力を制御する出力制御部63、或いはスピーカーの出力を制御する出力制御部の各々、又はこれらの適宜の組み合わせで構成することが可能である。   As a notification means, a speaker is provided in the vicinity of the illuminating lamp 20, and an output control unit provided in the illuminance abnormality detecting unit 60 outputs a predetermined pattern of sound according to the detection of the illuminance abnormality of the illuminating lamp 20. May be shown. Further, in the present invention, the notification means for notifying the illuminance abnormality of the illuminating lamp 20 in response to the detection of the illuminance abnormality is an output control unit 63 that controls the output of the display unit such as the signal transmission unit 62 and the abnormality display unit 70 described above. Alternatively, each of the output control units for controlling the output of the speaker, or an appropriate combination thereof can be used.

告知手段として、表示部若しくはスピーカーを設ける場合には、保守点検員が視覚若しくは聴覚により、容易に照度の劣化した照明灯を認識し、交換することができる。また、告知手段として信号送信部62を設ける場合には、例えば後述するトンネル200の外部など、遠隔地で所定位置の照明灯20の照度異常を認識することができ、必要に応じて照明灯20の交換等の作業を行うことができる。   In the case where a display unit or a speaker is provided as the notification means, the maintenance inspector can easily recognize and replace the illuminating lamp having deteriorated illuminance by visual or auditory sense. Further, when the signal transmission unit 62 is provided as a notification means, for example, an illuminance abnormality of the illumination lamp 20 at a predetermined position can be recognized at a remote place, for example, outside the tunnel 200 described later, and the illumination lamp 20 can be used as necessary. Can be exchanged.

そして、本実施形態の照明灯の劣化判定装置は、少なくとも、照明灯20と、反射板40と、照度センサー50と、照度異常検出回路61と、この告知手段とから構成される。   And the degradation determination apparatus of the illumination lamp of this embodiment is comprised from the illumination lamp 20, the reflecting plate 40, the illumination intensity sensor 50, the illumination intensity abnormality detection circuit 61, and this notification means at least.

第1実施形態の照明灯の劣化判定装置によれば、外部からの光が入りにくい位置で安定的に照明灯20の照度を測定し、照明灯20の照度劣化を正確に判定することができ、照度の劣化した照明灯20を確実に告知することができる。また、照明灯20をLED照明灯とする場合には、消灯で寿命が判断しにくいLED照明灯の寿命を正確に判定し、例えば安全性から所要照度が要求されるトンネル内など所要照度が要求される場所で、所要照度を発揮するLED照明灯を確実に据え付けることが可能となる。   According to the illuminating lamp deterioration determining apparatus of the first embodiment, the illuminance of the illuminating lamp 20 can be stably measured at a position where light from outside is difficult to enter, and the illuminance deterioration of the illuminating lamp 20 can be accurately determined. The illumination lamp 20 with deteriorated illuminance can be reliably notified. Further, when the illuminating lamp 20 is an LED illuminating lamp, the life of the LED illuminating lamp that is difficult to determine when it is turned off is accurately determined. For example, the required illuminance is required in a tunnel where the required illuminance is required for safety. Therefore, it is possible to reliably install the LED illumination lamp that exhibits the required illuminance at the place where the illumination is performed.

第1実施形態のトンネル照明灯の保守管理システム〕
次に、本実施形態の照明灯の劣化判定装置を備える照明器具100をトンネル200内に設置し、トンネル照明灯の保守管理システムを構成する場合について説明する。
[Maintenance Management System of tunnel illumination lamp of the first embodiment]
Next, the case where the lighting fixture 100 provided with the degradation determination apparatus of the illumination lamp of this embodiment is installed in the tunnel 200, and the maintenance management system of a tunnel illumination lamp is comprised is demonstrated.

このトンネル照明灯の保守管理システムは、図3に示すように、トンネル200内に照明器具100が電気的に接続して設置され、その接続線と専用回線L1を介してトンネル外部の子局300の子局制御装置310に接続されている。本実施形態における子局300は、トンネル200における照明器具100、換気、非常設備の制御等が行われる電気室である。また、子局制御装置310は、CPU等の制御処理部と、記憶部と、ディスプレイ等の表示部と、ボタン等の入力部とを備える構成である。   As shown in FIG. 3, in this tunnel illumination lamp maintenance management system, a lighting fixture 100 is electrically connected in a tunnel 200, and a slave station 300 outside the tunnel is connected via the connection line and a dedicated line L1. Is connected to the slave station controller 310 of the mobile station. The slave station 300 in this embodiment is an electric room in which the lighting fixture 100, ventilation, emergency equipment control, and the like in the tunnel 200 are performed. The slave station control device 310 includes a control processing unit such as a CPU, a storage unit, a display unit such as a display, and an input unit such as a button.

更に、子局制御装置310は、専用回線L2を介してトンネル外部の親局400の親局制御装置410に接続されている。本実施形態における親局400は、トンネル200の遠方に位置し、複数のトンネル200の子局300(電気室)から送られるデータを集中的に監視して制御すると共に、監視員が常駐する施設中央局である。また、親局制御装置410は、CPU等の制御処理部と、記憶部と、ディスプレイ等の表示部と、ボタン等の入力部とを備える構成である。500は保守点検員の常駐する管理事務所である。   Further, the slave station control device 310 is connected to the master station control device 410 of the master station 400 outside the tunnel via a dedicated line L2. In the present embodiment, the master station 400 is located far from the tunnel 200, centrally monitors and controls data sent from the slave stations 300 (electrical rooms) of the plurality of tunnels 200, and is a facility in which an observer is resident. Central office. The master station control device 410 includes a control processing unit such as a CPU, a storage unit, a display unit such as a display, and an input unit such as a button. Reference numeral 500 denotes a management office where maintenance inspectors reside.

上記トンネル照明灯の保守管理システムにおいて、トンネル200内の所定位置の照明器具100で照度異常が発生した場合、図4に示すように、この照明器具100の劣化判定装置において、照度センサー50から照度異常検出回路61に測定電圧が入力され(S101)、その測定電圧と設定電圧とが照度異常検出回路61で対比され、測定電圧が設定電圧以下となった場合に照度異常として検出される(S102、S103)。更に、その出力制御部63が、異常表示部70の出力を制御して異常表示部70であるLED灯を点滅等して現場で照度異常の照明灯20を認識し易くすると共に、その信号送信部62が、照度異常の照明器具100の識別番号等の位置情報を有する照度異常信号ES1を生成して子局制御装置310に送信する(S104)。   In the tunnel lighting maintenance management system, when an illuminance abnormality occurs in the luminaire 100 at a predetermined position in the tunnel 200, as shown in FIG. A measurement voltage is input to the abnormality detection circuit 61 (S101), and the measurement voltage and the set voltage are compared with each other by the illuminance abnormality detection circuit 61. When the measurement voltage falls below the set voltage, an illuminance abnormality is detected (S102). , S103). Further, the output control unit 63 controls the output of the abnormality display unit 70 to blink the LED lamp which is the abnormality display unit 70 to make it easy to recognize the illumination lamp 20 with abnormal illuminance at the site, and to transmit the signal. The unit 62 generates an illuminance abnormality signal ES1 having position information such as an identification number of the illuminating device 100 having an illuminance abnormality and transmits it to the slave station control device 310 (S104).

子局制御装置310は、照明器具100からの照度異常信号ES1の受信に応じて、受信した照度異常信号ES1に基づき、トンネル200の特定情報及び照度異常の照明器具100の位置情報を有する照度異常信号ES2を生成して親局制御装置410に送信する(S105)。親局制御装置410は、子局制御装置310からの照度異常信号ES2の受信に応じて、トンネル200の特定情報及び照度異常の照明器具100の位置情報で特定される照明器具100の照明灯20の点検を促す出力を表示部等で行う(S106)。その出力を認識した親局400の監視員は、図示一点鎖線矢印の如く管理事務所500の保守点検員に連絡を取り(S107)、図示太線矢印の如く保守点検員が子局300、照度異常の照明器具100に向かって点検、保守を行う(S108)。   In response to the reception of the illuminance abnormality signal ES1 from the luminaire 100, the slave station control device 310 has the illuminance abnormality having the specific information of the tunnel 200 and the position information of the illuminator 100 having the illuminance abnormality based on the received illuminance abnormality signal ES1. The signal ES2 is generated and transmitted to the master station control device 410 (S105). In response to the reception of the illuminance abnormality signal ES2 from the child station control apparatus 310, the master station control device 410 identifies the illuminating lamp 20 of the luminaire 100 identified by the specific information of the tunnel 200 and the position information of the illuminating device 100 having an abnormal illuminance. An output for prompting the inspection is performed on the display unit or the like (S106). The supervisor of the master station 400 that has recognized the output contacts the maintenance inspector of the management office 500 as shown by the one-dot chain line in the figure (S107), and the maintenance inspector is the slave station 300 and the illuminance abnormality as shown by the bold arrow in the figure. Inspection and maintenance are performed toward the lighting fixture 100 (S108).

本例のトンネル照明灯の保守管理システムでは、トンネル200の外部で所定位置の照明灯20の照度異常を認識し、保守点検員が照明灯20の交換等の保守管理を行うことができる。   In the tunnel illumination lamp maintenance management system of this example, an illuminance abnormality of the illumination lamp 20 at a predetermined position can be recognized outside the tunnel 200, and a maintenance inspector can perform maintenance management such as replacement of the illumination lamp 20.

また、図3の構成におけるトンネル照明灯の保守管理システムの別例の処理として、照明器具100の劣化判定装置を、照度異常検出回路61の記憶部に照度に関する段階的な複数の設定値である設定電圧を記憶し、照度センサー50で測定される測定電圧と設定電圧とを対比し、測定電圧が所定の設定電圧以下になった場合に、その所定の設定電圧に応じた照明灯の照度異常を検出し、信号送信部62が、その所定設定電圧に対応する程度情報を含む照度異常信号ES1を子局制御装置310に送信する構成とし、更には、出力制御部63が、測定電圧が最低の設定電圧以下になった場合にだけ異常表示部70の表示制御を行う構成、或いは測定電圧が所定の設定電圧以下になった場合に、その所定の設定電圧に応じたパターンで異常表示部70の表示制御を行う構成として処理してもよい。   In addition, as another example of the maintenance management system for tunnel lighting in the configuration of FIG. 3, the deterioration determination device of the luminaire 100 has a plurality of stepwise setting values related to illuminance in the storage unit of the illuminance abnormality detection circuit 61. The set voltage is stored, and the measured voltage measured by the illuminance sensor 50 is compared with the set voltage. When the measured voltage falls below the predetermined set voltage, the illuminance abnormality of the illumination lamp according to the predetermined set voltage And the signal transmission unit 62 transmits the illuminance abnormality signal ES1 including the degree information corresponding to the predetermined set voltage to the slave station control device 310. Further, the output control unit 63 has the lowest measurement voltage. The display control of the abnormality display unit 70 is performed only when the voltage is lower than the preset voltage, or when the measured voltage is lower than the predetermined set voltage, the abnormal display is performed in a pattern corresponding to the predetermined set voltage. It may be treated as a structure for controlling the display 70.

例えば照明器具の劣化判定装置において、照度異常検出回路61の記憶部に、照明灯20の初期点灯時の照度の70%(日本照明器具工業会制定によるLED照明灯の全光束が初期全光束の70%に低下した場合に寿命とする定義に対応)に対応する第1の設定電圧と、照明灯20の初期点灯時の照度の80%に対応する第2の設定電圧を記憶する。   For example, in a deterioration determination device for a luminaire, the storage unit of the illuminance abnormality detection circuit 61 stores 70% of the illuminance at the time of initial lighting of the illuminating lamp 20 (the total luminous flux of the LED illuminating lamp established by the Japan Luminaire Association is the initial total luminous flux). The first set voltage corresponding to the definition of the lifetime when it decreases to 70%) and the second set voltage corresponding to 80% of the illuminance when the lighting lamp 20 is initially turned on are stored.

そして、図5に示すように、照度センサー50で測定される測定電圧が照度異常検出回路61に入力され(S201)、照度異常検出回路61において、測定電圧と第1の設定電圧とを対比し(S202)、測定電圧が第1の設定電圧以下であった場合には、第1の設定電圧に対応する照度異常を検出する(S203)。更に、出力制御部63が、異常表示部70の出力を制御して異常表示部70であるLED灯を点滅等して現場で照度異常の照明灯20を認識し易くすると共に、信号送信部62が、照度異常の照明器具100の識別番号等の位置情報と、例えば異常の程度が高いランク2など第1の設定電圧に対応する照度異常の程度情報等を有する照度異常信号ES1を生成して子局制御装置310に送信する(S204)。   Then, as shown in FIG. 5, the measurement voltage measured by the illuminance sensor 50 is input to the illuminance abnormality detection circuit 61 (S201), and the illuminance abnormality detection circuit 61 compares the measurement voltage with the first set voltage. (S202) If the measured voltage is equal to or lower than the first set voltage, an illuminance abnormality corresponding to the first set voltage is detected (S203). Further, the output control unit 63 controls the output of the abnormality display unit 70 to blink the LED lamp which is the abnormality display unit 70 to make it easy to recognize the illumination lamp 20 with abnormal illuminance at the site, and the signal transmission unit 62. However, it generates an illuminance abnormality signal ES1 having position information such as an identification number of the illuminator 100 having an illuminance abnormality and illuminance abnormality degree information corresponding to the first set voltage such as rank 2 where the degree of abnormality is high. The data is transmitted to the slave station control device 310 (S204).

子局制御装置310は、照明器具100からの照度異常信号ES1の受信に応じて、照度異常信号の照度異常の程度を照度異常信号に含まれる程度情報と、例えば異常の程度がランク2より低いランク1など設定記憶されている設定程度情報とを対比して判定し(S205)、照度異常の程度が設定程度情報を超える場合に、受信した照度異常信号に基づき、トンネル200の特定情報及び照度異常の照明器具100の位置情報を有する照度異常信号ES2を生成して親局制御装置410に送信する(S206)。   In response to reception of the illuminance abnormality signal ES1 from the luminaire 100, the slave station control device 310 includes information indicating the degree of illuminance abnormality of the illuminance abnormality signal included in the illuminance abnormality signal, and the degree of abnormality is lower than rank 2, for example. Determination is made by comparing with setting degree information stored and set such as rank 1 (S205). When the degree of illuminance abnormality exceeds the setting degree information, the specific information and illuminance of the tunnel 200 based on the received illuminance abnormality signal An illuminance abnormality signal ES2 having position information of the abnormal lighting fixture 100 is generated and transmitted to the master station control device 410 (S206).

親局制御装置410は、子局制御装置310からの照度異常信号ES2の受信に応じて、トンネル200の特定情報及び照度異常の照明器具100の位置情報で特定される照明器具100の照明灯20の点検を促す出力を表示部等で行う(S207)。その出力を認識した親局400の監視員は、図示一点鎖線矢印の如く管理事務所500の保守点検員に連絡を取り(S208)、図示太線矢印の如く保守点検員が子局300、照度異常の照明器具100に向かって点検、保守を行う(S209)。   In response to the reception of the illuminance abnormality signal ES2 from the child station control apparatus 310, the master station control device 410 identifies the illuminating lamp 20 of the luminaire 100 identified by the specific information of the tunnel 200 and the position information of the illuminating device 100 having an abnormal illuminance. An output for prompting the inspection is performed on the display unit or the like (S207). The supervisor of the master station 400 that has recognized the output contacts the maintenance inspector of the management office 500 as shown by the one-dot chain line in the figure (S208). Inspection and maintenance are performed toward the lighting fixture 100 (S209).

他方において、照明器具100の劣化判定装置の照度異常検出回路61における、測定電圧と第1の設定電圧との対比の結果(S202)、測定電圧が第1の設定電圧超であった場合には、更に、測定電圧と第1の設定電圧より高い第2の設定電圧と対比し(S210)、測定電圧が第2の設定電圧以下であった場合には、第2の設定電圧に対応する照度異常を検出する(S211)。更に、必要に応じて出力制御部63が、異常表示部70の出力を制御して異常表示部70であるLED灯を別のパターンで点滅等して現場で照度異常の照明灯20を認識し易くすると共に、信号送信部62が、照度異常の照明器具100の位置情報と、例えば異常の程度が低いランク1など第2の設定電圧に対応する照度異常の程度情報等を有する照度異常信号ES1を生成して子局制御装置310に送信する(S204)。   On the other hand, in the result of the comparison between the measured voltage and the first set voltage in the illuminance abnormality detection circuit 61 of the deterioration determination device of the lighting fixture 100 (S202), when the measured voltage exceeds the first set voltage, Further, the measured voltage is compared with the second set voltage higher than the first set voltage (S210), and if the measured voltage is equal to or lower than the second set voltage, the illuminance corresponding to the second set voltage Abnormality is detected (S211). Further, if necessary, the output control unit 63 controls the output of the abnormality display unit 70 and blinks the LED lamp which is the abnormality display unit 70 in another pattern to recognize the illumination lamp 20 with abnormal illuminance at the site. The illuminance abnormality signal ES1 in which the signal transmission unit 62 includes the position information of the illuminating device 100 with abnormal illuminance and the illuminance abnormality degree information corresponding to the second set voltage such as rank 1 having a low degree of abnormality, for example. Is transmitted to the slave station controller 310 (S204).

子局制御装置310は、照明器具100からの照度異常信号ES1の受信に応じて、照度異常信号ES1の照度異常の程度を照度異常信号ES1に含まれる程度情報と設定記憶されている設定程度情報とを対比して判定し(S205)、照度異常の程度が設定程度情報以下である場合に、その記憶部に、照度異常の照明器具100の位置情報と、その照度異常の程度情報とを表示可能に記憶する(S212)。即ち、照度異常の程度が低い場合には、子局制御装置310から親局制御装置410への照度異常信号ES2の送信と、これに対応する親局400からの指令に基づく保守点検員による点検、保守は行わない。   In response to reception of the illuminance abnormality signal ES1 from the luminaire 100, the slave station control device 310 sets the degree of illuminance abnormality of the illuminance abnormality signal ES1 as the degree information included in the illuminance abnormality signal ES1 and the setting degree information stored. (S205), and when the degree of illuminance abnormality is less than or equal to the set degree information, the storage unit displays the positional information of the illuminating device 100 with illuminance abnormality and the degree information of the illuminance abnormality. It is stored as possible (S212). That is, when the degree of illuminance abnormality is low, transmission of the illuminance abnormality signal ES2 from the slave station control device 310 to the master station control device 410 and inspection by a maintenance inspector based on the command from the master station 400 corresponding thereto Maintenance is not performed.

上記トンネル照明灯の保守管理システムの別例の処理では、照明灯20の交換が必要な場合など重要性の高い照度異常のみを子局300から親局400に情報を伝え、トンネル200内の照明灯20の照度を安全基準に適合させつつ、効率的に照明灯20の保守管理を行うことができる。   In the processing of another example of the maintenance management system for the tunnel lamps described above, only the illuminance abnormality having high importance is transmitted from the slave station 300 to the master station 400, such as when the lamp 20 needs to be replaced, and the illumination in the tunnel 200 is performed. The maintenance management of the illuminating lamp 20 can be performed efficiently while adapting the illuminance of the lamp 20 to the safety standard.

〔第2実施形態の照明灯の劣化判定装置及びトンネル照明灯の保守管理システム
第2実施形態の照明灯の劣化判定装置では、図6に示すように、照明器具100の照明灯20の長手方向に沿って照度センサー50aが設けられ、反射板40に取り付けられている。照度センサー50aは、各細長板状で透光性の複数の太陽電池パネルをその長手方向に直列に配置して構成され、全体として照明灯20に近い長さを有する。その他の構成は第1実施形態の劣化判定装置と同一であり、又、上記第1実施形態や変形した別例のトンネル照明灯の保守管理システム等に適用することが可能である。
[Deterioration Judgment Device for Tunnel Lamp and Maintenance Management System for Tunnel Lamp ]
In the illuminating lamp degradation determination device of the second embodiment, as shown in FIG. 6, an illuminance sensor 50 a is provided along the longitudinal direction of the illuminating lamp 20 of the luminaire 100, and is attached to the reflecting plate 40. The illuminance sensor 50a is configured by arranging a plurality of light-transmitting solar cell panels in the form of elongated plates in series in the longitudinal direction, and has a length close to the illuminating lamp 20 as a whole. Other configurations are the same as those of the degradation determination apparatus of the first embodiment, and can be applied to the maintenance management system of the first embodiment or another modified tunnel illumination lamp.

第2実施形態の照明灯の劣化判定装置及びトンネル照明灯の保守管理システムは、第1実施形態と同様の効果を発揮することができると共に、照度センサー50aを照明灯20の長さに略対応する長さとすることにより、照明灯20の全体的な照度とより対応する照度を比較対象として照度異常を検出することが可能となり、照明灯20の照度異常をより高い精度で検出することができる。   The illuminating lamp degradation determination device and the tunnel illuminating lamp maintenance management system of the second embodiment can exhibit the same effects as those of the first embodiment, and the illuminance sensor 50a substantially corresponds to the length of the illuminating lamp 20. By setting the length to be the same, it becomes possible to detect an illuminance abnormality by comparing the overall illuminance of the illuminating lamp 20 with the corresponding illuminance, and the illuminance abnormality of the illuminating lamp 20 can be detected with higher accuracy. .

また、第2実施形態の照明灯の劣化判定装置の変形例として、図6の複数の太陽電池パネル或いは照度センサーの複数を直列に細長となるように配置する構成において、各太陽電池パネル或いは照度センサーのそれぞれの測定電圧をそれぞれに照度異常検出回路61に入力し、各照度異常検出回路61での測定電圧と設定電圧との対比、照度異常の検出を行ってもよい。   In addition, as a modification of the illumination lamp deterioration determination device of the second embodiment, in the configuration in which a plurality of solar cell panels or a plurality of illuminance sensors of FIG. The respective measurement voltages of the sensors may be input to the illuminance abnormality detection circuit 61, respectively, and the measurement voltage and the set voltage may be compared in each illuminance abnormality detection circuit 61 and the illuminance abnormality may be detected.

この場合には、直列配置されている各太陽電池パネル或いは各照度センサーのいずれか1つに異常が検出された場合に、信号送信部62、出力制御部63など各告知手段の動作を制御する構成とするとすることが好ましい。   In this case, when an abnormality is detected in any one of the solar cell panels or the illuminance sensors arranged in series, the operation of each notification means such as the signal transmission unit 62 and the output control unit 63 is controlled. A configuration is preferable.

この変形例では、例えば複数のLEDが長手方向に沿って並べて設けられる蛍光灯型のLED照明灯において、その一部の照度が低下している場合にも、照度異常を検出してメンテナンスを図ることが可能となる。   In this modification, for example, in a fluorescent lamp type LED illumination lamp in which a plurality of LEDs are arranged side by side along the longitudinal direction, even when the illuminance is partially reduced, an illuminance abnormality is detected to perform maintenance. It becomes possible.

〔第3実施形態の照明灯の劣化判定装置及びトンネル照明灯の保守管理システム
第3実施形態の照明灯の劣化判定装置では、図7に示すように、照明器具100の照明灯20の長手方向に沿って照度センサー50bが設けられ、反射板40に取り付けられている。照度センサー50bは、各板状で透光性の複数の太陽電池パネルを直列に配置して構成され、全体として照明灯20に近い長さを有する。各太陽電池パネルは、可撓性の樹脂フィルム或いは曲面状の透明体51の中に球状太陽電池52が分散配置して構成され、反射板20の凹曲面に倣うようにして透明体51が設けられている。図示例では、反射板20の凹曲面の上半分程度を占めるようにして各太陽電池パネルが配設されている。
[Third Embodiment Lighting Deterioration Determination Device and Tunnel Lighting Maintenance Management System ]
In the illuminating lamp degradation determination apparatus of the third embodiment, as shown in FIG. 7, an illuminance sensor 50 b is provided along the longitudinal direction of the illuminating lamp 20 of the luminaire 100 and is attached to the reflector 40. The illuminance sensor 50b is configured by arranging a plurality of plate-like and translucent solar cell panels in series, and has a length close to the illuminating lamp 20 as a whole. Each solar cell panel is formed by dispersing spherical solar cells 52 in a flexible resin film or curved transparent body 51, and the transparent body 51 is provided so as to follow the concave curved surface of the reflector 20. It has been. In the example of illustration, each solar cell panel is arrange | positioned so that about the upper half of the concave curved surface of the reflecting plate 20 may be occupied.

更に、第3実施形態では、図8に示すように、照度センサー50bで生じた電圧が照度異常検出部60bの照度異常検出回路61に入力されると共に、照度センサー50bで生じた電圧が照度異常検出部60bの電圧安定回路64に入力され、電圧安定回路64から照度異常検出回路61に駆動電力が供給される。即ち、太陽電池パネルである照度センサー50bの発生電力により、照度異常検出回路61の制御が行われ、照度異常検出回路61を駆動するための外部電力の供給が不要になっている。その他の構成は第1実施形態の劣化判定装置と同一であり、又、上記第1実施形態や変形した別例のトンネル照明灯の保守管理システム等に適用することが可能である。 Furthermore, in the third embodiment, as shown in FIG. 8, the voltage generated by the illuminance sensor 50b is input to the illuminance abnormality detection circuit 61 of the illuminance abnormality detection unit 60b, and the voltage generated by the illuminance sensor 50b is an illuminance abnormality. The voltage is input to the voltage stabilization circuit 64 of the detection unit 60 b, and driving power is supplied from the voltage stabilization circuit 64 to the illuminance abnormality detection circuit 61. That is, the illuminance abnormality detection circuit 61 is controlled by the electric power generated by the illuminance sensor 50b, which is a solar cell panel, and it is not necessary to supply external power for driving the illuminance abnormality detection circuit 61. Other configurations are the same as those of the degradation determination apparatus of the first embodiment, and can be applied to the maintenance management system of the first embodiment or another modified tunnel illumination lamp.

第3実施形態の照明灯の劣化判定装置及びトンネル照明灯の保守管理システムは、第1、第2実施形態と同様の効果を発揮することができると共に、太陽電池パネルで照明灯20の光を有効活用して省エネルギーで劣化判定処理を行うことができる。 Third maintenance system deterioration determination device and tunnel lighting of the illumination lamp implementation form, first, it is possible to exhibit the same effect as in the second embodiment, the light of the illuminative lamp 20 by the solar cell panel It is possible to effectively perform deterioration determination processing with energy saving.

〔実施形態の変形例等〕
本明細書開示の発明は、各発明、各実施形態、各例の構成の他に、適用可能な範囲で、これらの部分的な構成を本明細書開示の他の構成に変更して特定したもの、或いはこれらの構成に本明細書開示の他の構成を付加して特定したもの、或いはこれらの部分的な構成を部分的な作用効果が得られる限度で削除して特定した上位概念化したものを含むものである。そして、下記変形例等も包含する。
[Modifications of Embodiment, etc.]
The invention disclosed in this specification is specified by changing these partial configurations to other configurations disclosed in this specification, to the extent applicable, in addition to the configurations of each invention, each embodiment, and each example. Or those specified by adding other configurations disclosed in the present specification to these configurations, or those obtained by deleting these partial configurations to the extent that partial effects can be obtained, Is included. And the following modification etc. are included.

例えば上記劣化判定装置では、第1の設定電圧と、より高い照度に対応するこれより高い第2の設定電圧を対比する場合に、第1の設定電圧、第2の設定電圧の順に低い設定電圧から測定電圧と対比する例で説明したが、第2の設定電圧、第1の設定電圧の順に高い設定電圧から測定電圧と対比する処理としてもよい。   For example, in the degradation determination device, when the first set voltage is compared with the second set voltage higher than this corresponding to higher illuminance, the first set voltage and the second set voltage are sequentially set to the lower set voltages. However, it may be a process of comparing the measured voltage from the higher set voltage in the order of the second set voltage and the first set voltage.

本発明は、例えばトンネル照明灯の劣化を判定して保守管理する場合等に利用することができる。   The present invention can be used, for example, when determining deterioration of a tunnel lamp and performing maintenance management.

100、100a、100b…照明器具 10…筐体 20…照明灯 30…透光カバー 40…反射板 50、50a、50b…照度センサー 51…透光体 52…球状太陽電池 60、60b…照度異常検出部 61…照度異常検出回路 62…信号送信部 63…出力制御部 70…異常表示部 200…トンネル 300…子局 310…子局制御装置 400…親局 410…親局制御装置 500…管理事務所 L1、L2…専用回線 ES1、ES2…照度異常信号 DESCRIPTION OF SYMBOLS 100, 100a, 100b ... Lighting fixture 10 ... Housing 20 ... Illuminating lamp 30 ... Translucent cover 40 ... Reflector plate 50, 50a, 50b ... Illuminance sensor 51 ... Translucent body 52 ... Spherical solar cell 60, 60b ... Illuminance abnormality detection Unit 61: Illuminance abnormality detection circuit 62 ... Signal transmission unit 63 ... Output control unit 70 ... Abnormality display unit 200 ... Tunnel 300 ... Child station 310 ... Child station control device 400 ... Master station 410 ... Master station control device 500 ... Management office L1, L2 ... Dedicated line ES1, ES2 ... Illuminance abnormality signal

Claims (4)

照明灯と、前記照明灯が出力する光を反射する反射板と、前記反射板に取り付けられる照度センサーと、前記照度センサーで測定される測定値と設定記憶されている設定値とを対比し、前記測定値が前記設定値以下になった場合に前記照明灯の照度異常を検出する照度異常検出回路と、前記照度異常の検出に応じて前記照明灯の照度異常を告知する告知手段と、前記告知手段として前記照明灯の照度異常信号を外部に送信する信号送信部とを有し、トンネル内に設置される照明灯の劣化判定装置と、An illumination lamp, a reflector that reflects the light output by the illumination lamp, an illuminance sensor attached to the reflector, and a measured value measured by the illuminance sensor and a setting value stored and compared, An illuminance abnormality detection circuit that detects an illuminance abnormality of the illumination lamp when the measured value is less than or equal to the set value, a notification means for notifying the illuminance abnormality of the illumination lamp in response to the detection of the illuminance abnormality, A signal transmission unit that transmits an illuminance abnormality signal of the illuminating lamp to the outside as a notification means, and a deterioration determination device for the illuminating lamp installed in the tunnel;
トンネルの外部に設置され、所定位置のトンネル内の照明灯の照度異常信号の受信に応じて、前記照度異常信号の照度異常の程度を前記照度異常信号に含まれる程度情報と設定記憶されている設定程度情報とを対比して判定し、前記照度異常の程度が設定程度情報を超える場合に、前記所定位置のトンネル内の照明灯の照度異常を示す別の照度異常信号を送信する子局制御装置と、In response to the reception of the illuminance abnormality signal of the illuminating lamp inside the tunnel at a predetermined position, the degree of illuminance abnormality of the illuminance abnormality signal is set and stored as degree information included in the illuminance abnormality signal. Slave station control that judges by comparing with setting degree information, and transmits another illuminance abnormality signal indicating illuminance abnormality of the illumination lamp in the tunnel at the predetermined position when the degree of illuminance abnormality exceeds the setting degree information Equipment,
トンネルの外部に設置され、前記子局制御装置からの前記別の照度異常信号の受信に応じて、保守点検員による前記所定位置の前記照明灯の点検を促す出力を行う親局制御装置とを備え、A master station control device installed outside a tunnel and performing an output to prompt a maintenance inspector to check the illumination lamp at the predetermined position in response to reception of the other illuminance abnormality signal from the slave station control device; Prepared,
前記劣化判定装置の前記照度異常検出回路が、照度に関する段階的な複数の設定値を記憶し、前記照度センサーで測定される測定値と前記設定値とを対比し、前記測定値が所定の設定値以下になった場合に、前記所定設定値に応じた前記照明灯の照度異常を検出し、The illuminance abnormality detection circuit of the degradation determination apparatus stores a plurality of stepwise setting values related to illuminance, and compares the measurement value measured by the illuminance sensor with the setting value, and the measurement value is a predetermined setting. When the value is less than or equal to the value, an illuminance abnormality of the illumination lamp according to the predetermined set value is detected,
前記劣化判定装置の前記信号送信部が、前記所定設定値に対応する程度情報を含む前記照度異常信号を前記子局制御装置に送信することを特徴とするトンネル照明灯の保守管理システム。The tunnel illumination lamp maintenance management system, wherein the signal transmission unit of the degradation determination device transmits the illuminance abnormality signal including information about a degree corresponding to the predetermined set value to the slave station control device.
前記劣化判定装置の前記照度センサーを透光性の照度センサーとすることを特徴とする請求項1記載のトンネル照明灯の保守管理システム。The tunnel illumination lamp maintenance management system according to claim 1, wherein the illuminance sensor of the degradation determination device is a translucent illuminance sensor. 前記劣化判定装置の前記照度センサーを透光性の太陽電池パネルとすると共に、前記太陽電池パネルの発生電力により前記照度異常検出回路を制御することを特徴とする請求項1記載のトンネル照明灯の保守管理システム。2. The tunnel illumination lamp according to claim 1, wherein the illuminance sensor of the deterioration determination device is a translucent solar cell panel, and the illuminance abnormality detection circuit is controlled by power generated by the solar cell panel. Maintenance management system. 前記劣化判定装置の前記告知出段として、前記照明灯の近傍に設けられる表示部若しくはスピーカーと、前記表示部若しくは前記スピーカーの出力を制御する出力制御部とを備えることを特徴とする請求項1〜3の何れかに記載のトンネル照明灯の保守管理システム。2. The notification stage of the deterioration determination device includes a display unit or a speaker provided in the vicinity of the illuminating lamp, and an output control unit that controls an output of the display unit or the speaker. The maintenance management system of the tunnel illumination light in any one of -3.
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