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JP6620849B2 - Lighting device - Google Patents

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JP6620849B2
JP6620849B2 JP2018146069A JP2018146069A JP6620849B2 JP 6620849 B2 JP6620849 B2 JP 6620849B2 JP 2018146069 A JP2018146069 A JP 2018146069A JP 2018146069 A JP2018146069 A JP 2018146069A JP 6620849 B2 JP6620849 B2 JP 6620849B2
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housing
lighting circuit
power input
input unit
lighting
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JP2018166127A (en
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戸田 雅宏
雅宏 戸田
寺坂 博志
博志 寺坂
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Toshiba Lighting and Technology Corp
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Description

本発明の実施形態は、照明装置に関する。   Embodiments described herein relate generally to a lighting device.

従来、例えばLED素子などの光源を用いた防犯灯や街路灯などの照明装置では、金属製の筐体を用い、この筐体の下面側に光源を配置し、筐体内に点灯回路などを収納した延焼防止構造の照明装置がある。   Conventionally, in a lighting device such as a crime prevention light or a street light using a light source such as an LED element, a metal housing is used, and a light source is disposed on the lower surface side of the housing, and a lighting circuit is stored in the housing. There is an illuminating device with a fire spread prevention structure.

このような屋外に設置される照明装置では、雷サージを抑制する必要があるため、点灯回路と金属製の筐体との間に所定の絶縁距離を確保し、雷サージに対して点灯回路を保護するようにしている。   In such a lighting device installed outdoors, it is necessary to suppress the lightning surge. Therefore, a predetermined insulation distance is secured between the lighting circuit and the metal casing, and the lighting circuit is prevented from lightning surge. I try to protect it.

特開2013−125674号公報JP2013-125675A

従来、雷サージ対策のために点灯回路と金属製の筐体との間に所定の絶縁距離を確保しているが、これでは、筐体が大きくなり、小形の筐体を用いる照明装置の場合には耐雷サージ性能の確保が難しくなる問題がある。   Conventionally, a predetermined insulation distance has been secured between the lighting circuit and the metal housing as a countermeasure against lightning surges. However, in this case, the housing becomes larger and the lighting device uses a small housing. Has a problem that it is difficult to ensure lightning surge resistance.

本発明が解決しようとする課題は、小形の照明装置を提供することである。   The problem to be solved by the present invention is to provide a small illumination device.

実施形態の照明装置は、筐体、光源点灯回路および絶縁体を備える。筐体は、金属製で、一端側である基端側に取付部を有する。光源は、筐体内に収容される。点灯回路は、筐体内に配置され、複数の電子部品および電源入力部を有する。絶縁体は、電源入力部を除く点灯回路の周囲を覆って前記筐体との間に介在される。電源入力部と筐体との間の最短距離は、電源入力部以外の電子部品と筐体との間の最短距離より短い関係を有する。 The lighting device of the embodiment includes a housing, a light source , a lighting circuit, and an insulator . The housing is made of metal and has a mounting portion on the base end side which is one end side. The light source is accommodated in the housing. The lighting circuit is disposed in the housing and includes a plurality of electronic components and a power input unit. The insulator covers the periphery of the lighting circuit excluding the power input unit and is interposed between the casing. The shortest distance between the power input unit and the housing is shorter than the shortest distance between the electronic component other than the power input unit and the housing.

本発明によれば、照明装置を小形化することが期待できる。   According to the present invention, it can be expected that the lighting device is miniaturized.

一実施形態を示す照明装置の長手方向に沿った断面図である。It is sectional drawing along the longitudinal direction of the illuminating device which shows one Embodiment. 同上照明装置の幅方向に沿った断面図である。It is sectional drawing along the width direction of an illuminating device same as the above. 同上照明装置の分解状態の斜視図である。It is a perspective view of the decomposition | disassembly state of an illuminating device same as the above.

以下、一実施形態を、図1ないし図3を参照して説明する。   Hereinafter, an embodiment will be described with reference to FIGS. 1 to 3.

図において、照明装置10は、電柱やポールなどに取り付けられる防犯灯や街路灯などで、例えば長さ250mm、幅95mm、高さ74mm程度の小形タイプである。この照明装置10は、灯体11、およびこの灯体11を電柱やポールなどに取り付ける取付部12を有している。   In the figure, the lighting device 10 is a security light or street light attached to a utility pole or pole, and is a small type having a length of about 250 mm, a width of 95 mm, and a height of about 74 mm. The illuminating device 10 includes a lamp body 11 and a mounting portion 12 for attaching the lamp body 11 to a utility pole, a pole, or the like.

灯体11は、金属製の筐体15、この筐体15の下面を覆って筐体15との間に収容空間16を形成する金属製の取付板17、この取付板17の下面側に配置される光源ユニット18、この光源ユニット18を覆う透光性カバー19、収容空間16に収容される点灯回路20および絶縁体21を有している。なお、金属製の筐体15の一部を金属製の取付板17が構成しており、この金属製の取付板17が金属製の筐体15の一部として含まれる。   The lamp body 11 is arranged on the lower surface side of the metal plate 15, the metal mounting plate 17 that covers the lower surface of the housing 15 and forms the accommodation space 16 with the housing 15. A light source unit 18, a translucent cover 19 covering the light source unit 18, a lighting circuit 20 accommodated in the accommodation space 16, and an insulator 21. A metal mounting plate 17 constitutes a part of the metal housing 15, and the metal mounting plate 17 is included as a part of the metal housing 15.

そして、筐体15は、例えばアルミニウムなどの金属製で下面側が開口され、一端側である基端側に取付部12が一体に形成されており、その基端側から反対の他端側である先端側にかけての長手方向の長さが長く、長手方向に直交する幅方向の長さが短い形状に形成されている。   The housing 15 is made of a metal such as aluminum, and the lower surface side is opened, and the attachment portion 12 is integrally formed on the base end side which is one end side, and is the other end side opposite to the base end side. The length in the longitudinal direction toward the front end side is long, and the length in the width direction orthogonal to the longitudinal direction is short.

筐体15の下面周辺部の内側には、取付板17の周辺部が接触して取り付けられる環状の取付部24が形成されているとともに、この取付部24の周囲に環状の凹溝25が形成されている。この凹溝25には透光性カバー19との間に介在される環状のパッキング26が配置されている。さらに、筐体15の下面周辺部の四隅には透光性カバー19をねじ止めするためのボス27が形成されている。   An annular mounting portion 24 is formed on the inner side of the lower peripheral portion of the housing 15 so that the peripheral portion of the mounting plate 17 contacts and is mounted, and an annular concave groove 25 is formed around the mounting portion 24. Has been. An annular packing 26 interposed between the groove 25 and the translucent cover 19 is disposed. Further, bosses 27 for screwing the translucent cover 19 are formed at the four corners of the lower surface periphery of the housing 15.

筐体15の上面の中央領域には、筐体15の下面周辺部および取付部24と平行となる平面部28が形成されている。この平面部28の周辺から筐体15の下面周辺部にかけては、湾曲した形状に形成されている。   In the central region of the upper surface of the housing 15, a flat surface portion 28 that is parallel to the lower surface peripheral portion of the housing 15 and the mounting portion 24 is formed. A curved shape is formed from the periphery of the flat portion 28 to the periphery of the lower surface of the housing 15.

平面部28には、筐体15の先端側に寄った位置に、平面部28に対して垂直となる軸を中心とした円形の採光孔29が形成されている。この採光孔29には、その採光孔29の内側から、環状のパッキング30を介して透光部材31が嵌め込まれており、採光孔29を閉塞している。透光部材31は、絶縁性および透光性を有する合成樹脂やガラスによって形成され、パッキング30を介して採光孔29に嵌め込まれるカップ状の透光部32、および平面部28の下面に設けられたボスにねじ止めされる一対の取付脚部33を有している。   In the flat portion 28, a circular daylighting hole 29 is formed at a position close to the front end side of the housing 15 with the axis perpendicular to the flat portion 28 as the center. A translucent member 31 is fitted in the daylighting hole 29 from the inside of the daylighting hole 29 via an annular packing 30 to close the daylighting hole 29. The translucent member 31 is formed of a synthetic resin or glass having insulating properties and translucency, and is provided on the lower surface of the cup-shaped translucent portion 32 and the flat portion 28 that are fitted into the daylighting holes 29 via the packing 30. A pair of mounting legs 33 screwed to the bosses.

筐体15の内側で周壁面には、取付板17をねじ止めするための複数のボス34、および点灯回路20をねじ止めするための複数のボス35がそれぞれ一体に形成されている。   A plurality of bosses 34 for screwing the mounting plate 17 and a plurality of bosses 35 for screwing the lighting circuit 20 are integrally formed on the peripheral wall surface inside the housing 15.

筐体15の基端側には、点灯回路20に電源を供給する電源ケーブルが挿通する配線孔36が形成されている。この配線孔36には電源ケーブルが挿通した状態で配線孔36を閉塞するブッシング37が嵌め込まれている。さらに、筐体15の基端側には、筐体15内と外部とを連通する通気孔38が形成されている。この通気孔38は、空気を通し、雨などの液体は通さないフィルタ39で閉塞されている。   A wiring hole 36 through which a power cable for supplying power to the lighting circuit 20 is inserted is formed on the base end side of the housing 15. A bushing 37 that closes the wiring hole 36 in a state where the power cable is inserted is fitted into the wiring hole 36. Further, a vent hole 38 is formed on the base end side of the housing 15 to communicate the inside of the housing 15 with the outside. The ventilation hole 38 is closed by a filter 39 that allows air to pass but does not allow liquid such as rain to pass through.

また、取付板17は、例えばアルミニウムなどの金属製で、筐体15内に下面開口側から照明光が入らないように筐体15の下面開口を閉塞するとともに筐体15の取付部24に当接可能とする略長方形板状に形成されている。この取付板17は、取付板17の周辺部が筐体15の取付部24に当接した状態で複数のボス34にねじ止めされ、筐体15の取付部24に圧接されて熱伝導可能としている。筐体15の内部と取付板17との間に収容空間16を形成している。取付板17の一端側の周縁部に配線溝17aが形成されている。   The mounting plate 17 is made of a metal such as aluminum, for example. The mounting plate 17 closes the lower surface opening of the housing 15 so that illumination light does not enter the housing 15 from the lower surface opening side and contacts the mounting portion 24 of the housing 15. It is formed in a substantially rectangular plate shape that can be contacted. The mounting plate 17 is screwed to a plurality of bosses 34 in a state where the peripheral portion of the mounting plate 17 is in contact with the mounting portion 24 of the housing 15, and is pressed against the mounting portion 24 of the housing 15 so as to be able to conduct heat. Yes. A housing space 16 is formed between the inside of the housing 15 and the mounting plate 17. A wiring groove 17 a is formed in the peripheral edge portion on one end side of the mounting plate 17.

また、光源ユニット18は、発光モジュール42、およびレンズモジュール43を有している。   The light source unit 18 includes a light emitting module 42 and a lens module 43.

発光モジュール42は、例えば金属製の基板44上に絶縁層を介して配線パターンが形成され、この配線パターン上に光源としての複数の半導体発光素子であるLED素子45が実装されているとともにコネクタ46が実装されている。LED素子45は、基板44の長手方向に沿って一列または複数列に配列されている。LED素子45の実装方式は、SMD(Surface Mount Device)方式、およびCOB(Chip On Board)方式のいずれでもよい。なお、半導体発光素子としては、EL(Electro Luminescence)素子などを用いてもよい。また、コネクタ46は、基板44の一端側に配置されている。   In the light emitting module 42, for example, a wiring pattern is formed on a metal substrate 44 via an insulating layer, and LED elements 45, which are a plurality of semiconductor light emitting elements as light sources, are mounted on the wiring pattern and a connector 46 is mounted. Has been implemented. The LED elements 45 are arranged in one or a plurality of rows along the longitudinal direction of the substrate 44. The mounting method of the LED element 45 may be either an SMD (Surface Mount Device) method or a COB (Chip On Board) method. Note that an EL (Electro Luminescence) element or the like may be used as the semiconductor light emitting element. The connector 46 is disposed on one end side of the substrate 44.

レンズモジュール43は、例えば透光性を有する合成樹脂やガラスによって形成され、平板状の板部47、および各LED素子45の位置に対応して形成された複数のレンズ部48を有している。レンズ部48は、LED素子45が発生する光を例えば照明装置10の幅方向に広がる配光となるように制御する。   The lens module 43 is formed of, for example, a light-transmitting synthetic resin or glass, and includes a flat plate portion 47 and a plurality of lens portions 48 formed corresponding to the positions of the LED elements 45. . The lens unit 48 controls the light generated by the LED element 45 so as to be a light distribution that spreads in the width direction of the lighting device 10, for example.

そして、レンズモジュール43で発光モジュール42を取付板17との間に挟み込み、その状態でレンズモジュール43が取付板17にねじ止めされ、発光モジュール42の基板44が取付板17に圧接されている。   Then, the light emitting module 42 is sandwiched between the lens module 43 and the mounting plate 17, and in this state, the lens module 43 is screwed to the mounting plate 17, and the substrate 44 of the light emitting module 42 is pressed against the mounting plate 17.

また、透光性カバー19は、例えば透光性を有する合成樹脂やガラスによって形成され、周辺部には筐体15の凹溝25に侵入してパッキング26に接触する環状のパッキング押え51を有している。そして、透光性カバー19の四隅が筐体15のボス27にねじ止めされ、パッキング押え51がパッキング26に圧接されている。   The translucent cover 19 is formed of, for example, a translucent synthetic resin or glass, and has an annular packing presser 51 that enters the concave groove 25 of the housing 15 and contacts the packing 26 at the periphery. are doing. Then, the four corners of the translucent cover 19 are screwed to the boss 27 of the housing 15, and the packing presser 51 is pressed against the packing 26.

また、点灯回路20は、電子式点灯回路であり、回路基板54、およびこの回路基板54上に実装された複数の電子部品55を有している。回路基板54は、プリント配線基板であり、上面がリード線を有する電子部品55を実装する実装面、下面が電子部品55をはんだ付けによって電気的に接続する配線パターン面に形成されている。そして、回路基板54は、絶縁体21を介して取付板17に保持され、金属製の筐体15および取付板17に対して絶縁状態に保たれている。   The lighting circuit 20 is an electronic lighting circuit, and includes a circuit board 54 and a plurality of electronic components 55 mounted on the circuit board 54. The circuit board 54 is a printed wiring board, and an upper surface is formed on a mounting surface on which an electronic component 55 having lead wires is mounted, and a lower surface is formed on a wiring pattern surface on which the electronic component 55 is electrically connected by soldering. The circuit board 54 is held on the mounting plate 17 via the insulator 21, and is kept in an insulated state with respect to the metal casing 15 and the mounting plate 17.

点灯回路20は、商用交流電源に接続され、交流電力を所定の直流電力に変換してLED素子45に供給し、LED素子45を点灯させる。回路基板54の一端側は商用交流電源に接続される電源入力部56であり、この電源入力部56には配線孔36から筐体15内に引き込まれる電源ケーブルが接続されるコネクタ57が実装され、また、回路基板54の他端側は直流電力を出力する負荷出力部58であり、この負荷出力部58にはコネクタ59が実装されている。この負荷出力部58のコネクタ59と発光モジュール42のコネクタ46とが接続ケーブルによって接続される。接続ケーブルは取付板17の配線溝17aを通じて配線される。   The lighting circuit 20 is connected to a commercial AC power source, converts AC power into predetermined DC power, supplies the LED power to the LED element 45, and turns on the LED element 45. One end of the circuit board 54 is a power input unit 56 connected to a commercial AC power source, and a connector 57 to which a power cable drawn into the housing 15 from the wiring hole 36 is connected is mounted on the power input unit 56. In addition, the other end side of the circuit board 54 is a load output unit 58 that outputs DC power, and a connector 59 is mounted on the load output unit 58. The connector 59 of the load output unit 58 and the connector 46 of the light emitting module 42 are connected by a connection cable. The connection cable is wired through the wiring groove 17a of the mounting plate 17.

回路基板54上には、筐体15の採光孔29および透光部材31に対向する位置に照度センサ60が実装されている。照度センサ60は、この照度センサ60の照度検出面の中心が採光孔29および透光部材31の中心と一致されているとともに、回路基板54の回路パターンに電気的に接続され、すなわち点灯回路20に接続されている。   On the circuit board 54, an illuminance sensor 60 is mounted at a position facing the daylighting hole 29 and the translucent member 31 of the housing 15. In the illuminance sensor 60, the center of the illuminance detection surface of the illuminance sensor 60 is coincident with the centers of the daylighting hole 29 and the translucent member 31, and is electrically connected to the circuit pattern of the circuit board 54, that is, the lighting circuit 20. It is connected to the.

そして、電源入力部56と筐体15との間の最短距離Aは、電源入力部56以外の電子部品55と筐体15との間の最短距離Bより短い関係を有している。   The shortest distance A between the power input unit 56 and the housing 15 is shorter than the shortest distance B between the electronic component 55 other than the power input unit 56 and the housing 15.

なお、取付板17は、筐体15の下面開口を閉塞しているが、上述した接続ケーブルを通すために配線溝17aが設けられているため、配線溝17aと接続ケーブルとの隙間を通じてLED素子45が発生した照明光が筐体15内に入り、照度センサ60で誤検出するおそれがある。そこで、照度センサ60は回路基板54の他端側である負荷出力部58側に配置されるのに対して、配線溝17aは回路基板54の一端側である電源入力部56側に対応して取付板17の一端側に設けることにより、配線溝17aを通じて筐体15内に入った照明光が照度センサ60に届きにくくし、照度センサ60での誤検出への影響を低減することができる。   The mounting plate 17 closes the opening on the lower surface of the housing 15, but since the wiring groove 17a is provided to pass the connection cable described above, the LED element passes through the gap between the wiring groove 17a and the connection cable. There is a possibility that the illumination light generated by 45 enters the housing 15 and is erroneously detected by the illuminance sensor 60. Therefore, the illuminance sensor 60 is disposed on the load output unit 58 side, which is the other end side of the circuit board 54, whereas the wiring groove 17a corresponds to the power input unit 56 side, which is one end side of the circuit board 54. By providing it on one end side of the mounting plate 17, the illumination light that has entered the housing 15 through the wiring groove 17a can hardly reach the illuminance sensor 60, and the influence on erroneous detection by the illuminance sensor 60 can be reduced.

また、絶縁体21は、絶縁性を有する支持板63および絶縁部材64を備え、電源入力部56を除く点灯回路20の周囲を覆って点灯回路20と筐体15および取付板17との間に介在されている。   The insulator 21 includes an insulating support plate 63 and an insulating member 64, covers the periphery of the lighting circuit 20 excluding the power input portion 56, and between the lighting circuit 20, the housing 15, and the mounting plate 17. Intervened.

支持板63は、回路基板54の外形より大きい外形寸法に形成されており、複数の支持具によって支持板63の内側域でかつ支持板63から離反した状態に回路基板54を支持している。この支持板63の周辺部が筐体15のボス35に絶縁部材64を介してねじ止めされ、この支持板63によって点灯回路20が筐体15内に支持されている。   The support plate 63 is formed to have an outer size larger than the outer shape of the circuit board 54, and supports the circuit board 54 in a state in which the support plate 63 is separated from the support plate 63 in an inner region of the support plate 63 by a plurality of support tools. The periphery of the support plate 63 is screwed to the boss 35 of the housing 15 via an insulating member 64, and the lighting circuit 20 is supported in the housing 15 by the support plate 63.

絶縁部材64は、例えば絶縁シートが用いられており、筐体15内に配置可能なように上面部65および幅方向両側の側面部66を有する断面略コ字形に折り曲げ形成されている。両側面部66の先端には、筐体15のボス35と支持板63との間に挟み込まれて支持板63に接するように取り付けられる縁部67が折り曲げ形成されている。   The insulating member 64 is made of, for example, an insulating sheet, and is formed into a substantially U-shaped cross section having an upper surface portion 65 and side surface portions 66 on both sides in the width direction so that the insulating member 64 can be disposed in the housing 15. An edge portion 67 that is sandwiched between the boss 35 of the housing 15 and the support plate 63 and attached so as to be in contact with the support plate 63 is formed at the tip of the side surface portions 66 by bending.

絶縁体21は、電源入力部56を除く点灯回路20の周囲を覆って点灯回路20と筐体15および取付板17との間に介在されているが、一端側および他端側は点灯回路20を覆わずに開口されている。ただし、電源入力部56より後で交流電源を処理する電子部品55と筐体15との間、および負荷出力部58と筐体15との間は、十分な絶縁性が確保される所定の絶縁距離が設けられている。   The insulator 21 covers the periphery of the lighting circuit 20 excluding the power input unit 56 and is interposed between the lighting circuit 20, the housing 15 and the mounting plate 17, but one end side and the other end side are the lighting circuit 20 It is opened without covering. However, the predetermined insulation that ensures sufficient insulation is provided between the electronic component 55 that processes the AC power after the power input unit 56 and the housing 15 and between the load output unit 58 and the housing 15. A distance is provided.

絶縁部材64の上面部65には、採光孔29および透光部材31に対向する位置に、透光部材31を透過した外光を照度センサ60に入射させるための窓孔68が形成されている。窓孔68の寸法は透光部材31よりも小さい寸法とされている。   In the upper surface portion 65 of the insulating member 64, a window hole 68 for allowing the external light transmitted through the light transmitting member 31 to enter the illuminance sensor 60 is formed at a position facing the daylighting hole 29 and the light transmitting member 31. . The size of the window hole 68 is smaller than that of the translucent member 31.

このように構成された照明装置10は、取付部12および別途用いられる取付金具によって例えば道路の脇に設置された電柱やポールなどに設置される。その際、点灯回路20は電源ケーブルによって交流電源に接続され、筐体15はアース接続される。照明装置10の設置状態では、灯体11の先端側が斜め上方に向けて傾斜し、光源ユニット18および透光性カバー19が道路の中心側に対向されている。   The illuminating device 10 configured in this way is installed, for example, on a utility pole or pole installed on the side of a road by the mounting portion 12 and a separately used mounting bracket. At that time, the lighting circuit 20 is connected to an AC power source by a power cable, and the casing 15 is grounded. In the installed state of the lighting device 10, the front end side of the lamp body 11 is inclined obliquely upward, and the light source unit 18 and the translucent cover 19 are opposed to the center side of the road.

そして、照明装置10では、外光が筐体15の上面に設けられた採光孔29に配置された透光部材31および絶縁部材64の窓孔68を通じて照度センサ60に入射し、照度センサ60で明るさを検出する。   In the illuminating device 10, external light enters the illuminance sensor 60 through the light transmitting member 31 and the window hole 68 of the insulating member 64 disposed in the daylighting hole 29 provided on the upper surface of the housing 15. Detect brightness.

点灯回路20は、照度センサ60で検出する明るさが基準値より低くなることによりLED素子45を点灯させ、一方、照度センサ60で検出する明るさが基準値より高くなることによりLED素子45を消灯させる。   The lighting circuit 20 lights the LED element 45 when the brightness detected by the illuminance sensor 60 is lower than the reference value, while the LED circuit 45 is turned on when the brightness detected by the illuminance sensor 60 is higher than the reference value. Turn off the light.

LED素子45の点灯時に発生する熱は基板44から取付板17に熱伝導されるとともに取付板17から筐体15に熱伝導され、筐体15から大気中に効率よく放熱される。   Heat generated when the LED element 45 is turned on is thermally conducted from the substrate 44 to the mounting plate 17 and is also conducted from the mounting plate 17 to the housing 15 and efficiently radiated from the housing 15 to the atmosphere.

また、照明装置10は、金属製の筐体15と金属製の取付板17との間に形成された収容空間16に点灯回路20を収容しているため、延焼防止構造に構成されている。   Further, since the lighting device 10 houses the lighting circuit 20 in the housing space 16 formed between the metal casing 15 and the metal mounting plate 17, the lighting device 10 has a fire spread prevention structure.

また、照明装置10は、誘電雷による例えば15kV程度の耐雷サージ性能を備えている。誘電雷とは、落雷の雷電流による電磁界の急激な変化の影響で、電磁誘導が配電線に発生し、配電線に接続された照明装置10などに被害を及ぼす雷害のことをいう。仮に、雷サージによって筐体15と電子部品55との間でアークが発生すると、放電電流が通過した電子部品55が破損してしまうことになる。   The lighting device 10 has lightning surge resistance performance of about 15 kV, for example, due to dielectric lightning. Dielectric lightning refers to lightning damage that causes electromagnetic induction in a distribution line due to the effect of a sudden change in an electromagnetic field due to a lightning current of a lightning strike, and damages the lighting device 10 connected to the distribution line. If an arc is generated between the casing 15 and the electronic component 55 due to a lightning surge, the electronic component 55 through which the discharge current has passed is damaged.

照明装置10では、点灯回路20の電源入力部56側を除く点灯回路20の周囲を覆って点灯回路20と筐体15との間に介在する絶縁体21を備えている。そのため、絶縁体21で筐体15と点灯回路20の電子部品55との間を絶縁し、雷サージによって筐体15と電子部品55との間でアークが発生するのを防止できる。さらに、絶縁体21では点灯回路20の電源入力部56側を覆っていないことで、雷サージによって電源入力部56と筐体15との間にアークを積極的に発生させ、電源入力部56および電源ケーブルを通じて交流電源側に逃がすようにできる。そのため、雷サージは、アース接続されている筐体15を通じてアース側に流れるか、電源ケーブルを通じて交流電源側に流れ、点灯回路20には影響を及ぼさない。   The lighting device 10 includes an insulator 21 that covers the periphery of the lighting circuit 20 excluding the power input unit 56 side of the lighting circuit 20 and is interposed between the lighting circuit 20 and the housing 15. Therefore, it is possible to insulate between the casing 15 and the electronic component 55 of the lighting circuit 20 with the insulator 21 and prevent arcing between the casing 15 and the electronic component 55 due to lightning surge. Further, since the insulator 21 does not cover the power input part 56 side of the lighting circuit 20, an arc is actively generated between the power input part 56 and the housing 15 by a lightning surge, and the power input part 56 and It can escape to the AC power supply side through the power cable. Therefore, the lightning surge flows to the ground side through the casing 15 connected to the ground, or flows to the AC power source side through the power cable, and does not affect the lighting circuit 20.

さらに、電源入力部56と筐体15との間の最短距離Aは、電源入力部56以外の電子部品55と筐体15との間の最短距離Bより短い関係を有していることにより、電源入力部56と筐体15との間でアークが発生しやすく、雷サージが電源ケーブルを通じて交流電源側に流れやすくできる。   Furthermore, the shortest distance A between the power input unit 56 and the housing 15 is shorter than the shortest distance B between the electronic component 55 other than the power input unit 56 and the housing 15, An arc is easily generated between the power input unit 56 and the housing 15, and a lightning surge can easily flow to the AC power source through the power cable.

このように、絶縁体21によって耐雷サージ性能を確保できるため、小形の照明装置10であるために筐体15と電子部品55との間の距離が近くなっても、耐雷サージ性能を確保できる。   As described above, since the lightning surge performance can be ensured by the insulator 21, the lightning surge performance can be secured even if the distance between the housing 15 and the electronic component 55 is short because the lighting device 10 is small.

また、絶縁体21では負荷出力部58側の端面を覆っていないが、筐体15と負荷出力部58側との間には十分な絶縁距離を形成することができるため、負荷出力部58側に雷サージが影響を及ぼさない。   In addition, the insulator 21 does not cover the end surface on the load output unit 58 side, but a sufficient insulation distance can be formed between the housing 15 and the load output unit 58 side, so the load output unit 58 side The lightning surge will not affect.

以上のように、本実施形態の照明装置10は、点灯回路20の電源入力部56側を除く点灯回路20の周囲を覆って点灯回路20と筐体15との間に介在する絶縁体21を設けていることにより、小形化しても耐雷サージ性能を確保できる。   As described above, the lighting device 10 of the present embodiment covers the periphery of the lighting circuit 20 except for the power input unit 56 side of the lighting circuit 20, and includes the insulator 21 interposed between the lighting circuit 20 and the casing 15. By providing it, lightning surge resistance can be secured even if it is downsized.

さらに、絶縁体21が、点灯回路20の電源入力部56側を除く点灯回路20の周囲を覆うだけの構造であるため、例えば点灯回路20の全体を覆う樹脂ケースなどの構造の場合に比べて、絶縁構造を簡素化でき、小形化もできる。   Furthermore, since the insulator 21 has a structure that only covers the periphery of the lighting circuit 20 excluding the power input unit 56 side of the lighting circuit 20, for example, compared to a structure such as a resin case that covers the entire lighting circuit 20. The insulation structure can be simplified and the size can be reduced.

また、照度センサ60で明るさを検出して点灯制御を行う照明装置10の場合、筐体15の採光孔29の透光部材31を入射する外光を照度センサ60に導くために絶縁体(絶縁部材64)21に窓孔68をあけているが、この窓孔68は絶縁性を有する透光部材31に対向していることにより、十分な絶縁性が確保され、耐雷サージ性能が低下することはない。   Further, in the case of the lighting device 10 that detects lighting by the illuminance sensor 60 and performs lighting control, an insulator (in order to guide the external light incident on the light transmitting member 31 of the lighting hole 29 of the housing 15 to the illuminance sensor 60) The insulating member 64) 21 has a window hole 68. The window hole 68 is opposed to the light-transmitting member 31 having an insulating property, so that sufficient insulation is ensured, and lightning surge resistance is reduced. There is nothing.

なお、照度センサ60を備えず、筐体15に採光孔29を有さない照明装置10の場合には、絶縁体(絶縁部材64)21に窓孔68を設けないことにより、十分な絶縁性が確保され、耐雷サージ性能が低下することはない。   In the case of the lighting device 10 that does not include the illuminance sensor 60 and does not have the daylighting hole 29 in the casing 15, sufficient insulation can be achieved by not providing the window hole 68 in the insulator (insulating member 64) 21. Is ensured, and the lightning surge resistance performance is not reduced.

本発明のいくつかの実施形態を説明したが、これらの実施形態は、例として提示したものであり、発明の範囲を限定することは意図していない。これら新規な実施形態は、その他の様々な形態で実施されることが可能であり、発明の要旨を逸脱しない範囲で、種々の省略、置き換え、変更を行うことができる。これら実施形態やその変形は、発明の範囲や要旨に含まれるとともに、特許請求の範囲に記載された発明とその均等の範囲に含まれる。   Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

10 照明装置
12 取付部
15 筐体
20 点灯回路
21 絶縁体
45 光源としてのLED素子
55 電子部品
56 電源入力部
10 Lighting equipment
12 Mounting part
15 housing
20 Lighting circuit
21 insulator
45 LED element as light source
55 Electronic components
56 Power input section

Claims (1)

一端側である基端側に取付部を有する金属製の筐体と;
前記筐体内に収容された光源と;
前記筐体内に配置され、複数の電子部品および電源入力部を有する点灯回路と;
前記電源入力部を除く前記点灯回路の周囲を覆って前記筐体との間に介在される絶縁体と;
を具備し、
前記電源入力部と前記筐体との間の最短距離は、前記電源入力部以外の前記電子部品と前記筐体との間の最短距離より短い関係を有している
ことを特徴とする照明装置。
A metal housing having a mounting portion on the base end side which is one end side;
A light source housed in the housing;
A lighting circuit disposed in the housing and having a plurality of electronic components and a power input portion;
An insulator that covers the periphery of the lighting circuit excluding the power input unit and is interposed between the casing and the casing;
Comprising
The shortest distance between the power input unit and the housing has a relationship shorter than the shortest distance between the electronic component other than the power input unit and the housing. .
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