JP5400458B2 - In-vehicle shooting unit - Google Patents

In-vehicle shooting unit Download PDF

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JP5400458B2
JP5400458B2 JP2009103125A JP2009103125A JP5400458B2 JP 5400458 B2 JP5400458 B2 JP 5400458B2 JP 2009103125 A JP2009103125 A JP 2009103125A JP 2009103125 A JP2009103125 A JP 2009103125A JP 5400458 B2 JP5400458 B2 JP 5400458B2
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啓之 大石
善夫 濱田
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Yazaki Energy System Corp
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Description

本発明は、車両に搭載される撮影ユニットに係り、特に、カメラと共に照明用の光源を備える車載用撮影ユニットに関するものである。   The present invention relates to a photographing unit mounted on a vehicle, and more particularly to an in-vehicle photographing unit including a light source for illumination together with a camera.

従来から広く利用されている防犯用の監視カメラは、近年、車両においても利用されつつある。例えばタクシー等の営業車両においては、車内で乗客と乗務員との間にトラブルが生じた場合等に備えて、監視カメラを設置することがある。   In recent years, surveillance cameras for crime prevention that have been widely used have been used in vehicles in recent years. For example, in a business vehicle such as a taxi, a surveillance camera may be installed in case a trouble occurs between a passenger and a crew member in the vehicle.

特に、ドライブレコーダを搭載した車両では、事故が発生した場合にその原因を検証する目的で、車両の前方を撮影して記録に残す設備が既に整っている。そこで、車内を撮影するカメラをドライブレコーダの設備に追加すれば、車内も車両の前方と共に撮影し、映像として記録に残しておくことができる(以上、例えば特許文献1)。   In particular, a vehicle equipped with a drive recorder is already equipped with facilities for photographing the front of the vehicle and recording it for the purpose of verifying the cause when an accident occurs. Therefore, if a camera for photographing the inside of the vehicle is added to the equipment of the drive recorder, the inside of the vehicle can also be photographed together with the front of the vehicle and recorded as a video (for example, Patent Document 1).

特開2000−6854号公報JP 2000-6854 A

ところで、車内を撮影する場合、特に自然光の入射がなくなる夜間においては、カメラの露出不足により被写体を鮮明に撮影できないことが多い。したがって、低露出環境での撮影に適した赤外線カメラを用いたり、照明光で被写体を照明することが、鮮明な被写体の映像を記録に残す上で効果的である。   By the way, when photographing the inside of a car, especially at night when natural light is not incident, the subject cannot often be photographed clearly due to insufficient exposure of the camera. Therefore, using an infrared camera suitable for photographing in a low-exposure environment or illuminating the subject with illumination light is effective in leaving a clear image of the subject in the record.

車内にカメラや照明光の光源を設置するのに当たっては、それらが運転者の視界の妨げとならないように配慮する必要がある。また、カメラと光源の配線を一本化する必要性もあることから、カメラと光源は一つのケースに一緒に収容して車内に設置されることになる。   When installing a camera or a light source of illumination light in the car, it is necessary to consider so that they do not interfere with the driver's view. Moreover, since there is a need to unify the wiring between the camera and the light source, the camera and the light source are housed together in one case and installed in the vehicle.

その場合、カメラの画角中心軸の向きに光軸の向きを合わせて光源がケースに収容されていると、カメラの画角の中心側ほど照明光の光量が高く、画角の周縁側ほど照明光の光量が低くなることになる。このような照明光の光量分布は、カメラで撮影する被写体の配置と必ずしも一致するとは限らず、カメラによって車内の乗員を漏れなくある程度の鮮明さで撮影するというニーズが満たされるという保証はない。   In that case, if the light source is housed in the case with the direction of the optical axis aligned with the direction of the camera's angle of view, the amount of illumination light is higher toward the center of the angle of view of the camera, and toward the periphery of the angle of view. The light quantity of illumination light will become low. Such a light quantity distribution of the illumination light does not always match the arrangement of the subject to be photographed by the camera, and there is no guarantee that the need for photographing the passenger in the vehicle with a certain degree of clearness by the camera will be satisfied.

本発明は前記事情に鑑みなされたもので、本発明の目的は、カメラと共にケースに収容された光源からの照明光によって、ケースが取り付けられる車内の乗員をカメラにより漏れなくある程度の鮮明さで撮影することができる車載用撮影ユニットを提供することにある。   The present invention has been made in view of the above circumstances, and an object of the present invention is to capture a passenger in a vehicle to which a case is attached with a certain degree of clarity by a camera by illumination light from a light source housed in the case together with the camera. It is in providing the vehicle-mounted imaging unit which can do.

上記目的を達成するため、請求項1に記載した本発明の車載用撮影ユニットは、
車内の前席の乗員と後席の乗員とを含む撮影範囲を撮影する車載用撮影ユニットであって、
車両に取り付けられるケースと、
前記ケースに収容され、該ケースが前記車両に取り付けられた状態で前記撮影範囲が画角内に収まる向きに配置され、該撮影範囲を撮影するカメラと、
前記ケースに収容され、該ケースが前記車両に取り付けられた状態で、前記前席及び前記後席のうち前記カメラからの距離が遠い席の高さに光軸を合わせて配置され、前記カメラによる前記撮影範囲の撮影用照明光を出力する光源と、
を備えることを特徴とする。
In order to achieve the above object, an in-vehicle photographing unit according to the present invention described in claim 1 includes:
A vehicle-mounted shooting unit that captures a shooting range including a front passenger and a rear passenger in a vehicle,
A case attached to the vehicle,
A camera that is housed in the case and is arranged in a direction in which the shooting range is within an angle of view with the case attached to the vehicle, and shooting the shooting range;
In the state where the case is accommodated and the case is attached to the vehicle, the optical axis is arranged at the height of a seat far from the camera among the front seat and the rear seat, A light source for outputting illumination light for photographing in the photographing range;
It is characterized by providing.

請求項1に記載した本発明の車載用撮影ユニットによれば、車両にケースを取り付けた状態で、車両の前席と後席の両乗員を含む撮影範囲がカメラの画角内に収まる向きに配置されるカメラの画角中心軸は、垂直方向において、撮影範囲の中央又はその付近に位置することになる。これに対して、光源の光軸の向きは、車両の前席及び後席のうちカメラからの距離が遠い席の高さに位置することになる。即ち、光源の光軸は、必ずしもカメラの画角中心軸の向きに合わせた向きとはならない。したがって、カメラを撮影範囲の全体を撮影できる向きにカメラを配置しても、カメラと共にケースに収容された光源を、撮影用照明光による照明を最も必要とする被写体に効率良く照明光が届く向きに配置することができる。   According to the in-vehicle photographing unit of the present invention described in claim 1, in a state where the case is attached to the vehicle, the photographing range including both the front seat and the rear seat passenger is within the angle of view of the camera. The central angle of view of the arranged camera is positioned at or near the center of the shooting range in the vertical direction. On the other hand, the direction of the optical axis of the light source is located at the height of a seat far from the camera among the front seat and rear seat of the vehicle. In other words, the optical axis of the light source is not necessarily oriented in accordance with the orientation of the central field angle of the camera. Therefore, even if the camera is placed in a direction that allows the entire shooting range to be shot, the light source housed in the case together with the camera is oriented so that the illumination light efficiently reaches the subject that most needs illumination with the shooting illumination light. Can be arranged.

また、請求項1に記載した本発明の車載用撮影ユニットは、前記光源が、前記ケースに保持される回路基板に実装された固体発光素子であり、前記回路基板が、前記カメラの画角中心軸に対して前記固体発光素子の前記光軸を傾斜させて前記ケースに保持されていることを特徴とする。 Further, vehicle imaging unit of the present invention according to claim 1, before Symbol light source, Ri Oh solid light-emitting element mounted on the circuit board to be held in the case, the previous SL circuit board, of the camera The optical axis of the solid state light emitting device is tilted with respect to the central axis of view angle and is held in the case.

請求項1に記載した本発明の車載用撮影ユニットによれば、カメラの画角中心軸に対して固体発光素子の光軸を傾けさせて、光源を適切な向きに精度良くかつ容易に配置することができる。 According to vehicle imaging unit of the present invention as set forth in claim 1, and let tilting the optical axis of the solid-state light-emitting element with respect to angle the central axis of the camera, accurately and easily position the light source in the proper orientation can do.

さらに、請求項1に記載した本発明の車載用撮影ユニットは、前記光源が前記固体発光素子を複数有しており、これら複数の固体発光素子が単一の前記回路基板に実装され、前記カメラの片側の脇に集中配置されて前記ケースに収容されていることを特徴とする。 Furthermore, vehicle imaging unit of the present invention according to claim 1, before Symbol light source has a plurality of said solid state light emitting devices, the plurality of solid state light emitting devices are mounted on a single of the circuit board, The camera is housed in the case in a concentrated manner on one side of the camera .

さらに、請求項1に記載した本発明の車載用撮影ユニットによれば、複数の固体発光素子をカメラの片側の脇に隣接する箇所にまとめて配置し単一の回路基板に実装する構成としたので、カメラを挟んで両側に固体発光素子を分散配置したり、カメラの周囲に固体発光素子を点在させる場合に比べて、回路基板の枚数や占有スペースを極力減らして、車載用撮影ユニット全体の小型化を図ることができる。これにより、車内に設置しても運転者の運転操作の妨げにならないコンパクトな車載用撮影ユニットを実現することができる。 Furthermore, according to the vehicle photographing unit of the present invention as set forth in claim 1, and configured to be mounted on a single circuit board and arranged together at a location adjacent the multiple solid-state light-emitting element on the side of one side of the camera Therefore, the number of circuit boards and the occupied space are reduced as much as possible compared to the case where solid light emitting elements are distributed on both sides of the camera and the solid light emitting elements are scattered around the camera. The overall size can be reduced. As a result, a compact in-vehicle imaging unit that does not hinder the driving operation of the driver even when installed in the vehicle can be realized.

本発明の車載用撮影ユニットによれば、カメラと共にケースに収容された光源からの撮影用照明光によって、ケースが取り付けられる車内の乗員をカメラにより漏れなくある程度の鮮明さで撮影することができる。   According to the in-vehicle photographing unit of the present invention, the occupant in the vehicle to which the case is attached can be photographed with a certain degree of clarity by the camera by the photographing illumination light from the light source housed in the case together with the camera.

本発明の一実施形態に係る車載用撮影ユニットが使用される車両の車内を示す側面図である。It is a side view which shows the inside of the vehicle in which the vehicle-mounted imaging | photography unit which concerns on one Embodiment of this invention is used. 図1に示す車内の平面図である。It is a top view in the vehicle shown in FIG. 図1に示す本発明の一実施形態に係る撮影ユニットの正面図である。It is a front view of the imaging | photography unit which concerns on one Embodiment of this invention shown in FIG. 図1のカメラの画角中心軸と赤外線LEDの光軸とを垂直方向において一致させた場合に図3のカメラで撮影される映像の説明図である。FIG. 4 is an explanatory diagram of an image photographed by the camera of FIG. 3 when the central angle of view of the camera of FIG. 1 and the optical axis of the infrared LED coincide with each other in the vertical direction. 図3の撮影ユニットの要部拡大断面図である。FIG. 4 is an enlarged cross-sectional view of a main part of the photographing unit in FIG. 図5のカメラの画角中心軸と赤外線LEDの撮影ユニットの光軸との関係を示す車両の車内の側面図である。FIG. 6 is a side view of the interior of the vehicle showing the relationship between the central angle of view of the camera of FIG. 5 and the optical axis of the imaging unit of the infrared LED. 図1のカメラの画角中心軸に対して赤外線LEDの光軸を垂直方向において傾斜させた場合に図3のカメラで撮影される映像の説明図である。FIG. 4 is an explanatory diagram of an image captured by the camera of FIG. 3 when the optical axis of the infrared LED is tilted in the vertical direction with respect to the central angle of view of the camera of FIG. 1.

以下、本発明による車載用撮影ユニットの実施形態を、図面を参照しながら説明する。   Hereinafter, embodiments of a vehicle-mounted photographing unit according to the present invention will be described with reference to the drawings.

図1は本発明の一実施形態に係る車載用撮影ユニットが使用される車両の車内を示す側面図、図2は図1に示す車内の平面図、図3は図1に示す本発明の一実施形態に係る撮影ユニットの正面図である。   FIG. 1 is a side view showing the inside of a vehicle in which an in-vehicle photographing unit according to an embodiment of the present invention is used, FIG. 2 is a plan view of the inside of the vehicle shown in FIG. 1, and FIG. It is a front view of the photography unit concerning an embodiment.

図1中引用符号10で示す本実施形態の車載用撮影ユニットは、車両1の車内天井3のおおよそルームミラー付近の箇所(天井前端中央)に配置される。図3に示すように、車載用撮影ユニット10は、取付金具11によって車内天井3に取り付けられるケース13を有している。このケース13には、赤外線カメラ15(請求項中のカメラに相当)と複数の赤外線発光ダイオード17(請求項中の固体発光素子に相当)とが収容されている。   The in-vehicle photographing unit of the present embodiment indicated by reference numeral 10 in FIG. 1 is disposed at a location (in the center of the front end of the ceiling) in the vicinity of the room mirror of the interior ceiling 3 of the vehicle 1. As shown in FIG. 3, the in-vehicle shooting unit 10 has a case 13 that is attached to the ceiling 3 in the vehicle by a mounting bracket 11. The case 13 accommodates an infrared camera 15 (corresponding to the camera in the claims) and a plurality of infrared light emitting diodes 17 (corresponding to the solid light emitting elements in the claims).

上述した赤外線カメラ15は、図1及び図2に示す車両1の前席7と後席9の乗員7a,9aを撮影するもので、図中の細線の一点鎖線で示すように、それら前席7及び後席9の乗員7a,9aを含む撮影範囲Aが収まる画角Bを有している。また、上述した複数の赤外線発光ダイオード(以下、赤外線LEDという。)17は、前席7及び後席9の乗員7a,9aを照明する照明光C(請求項中の撮影用照明光に相当)を出力するもので、赤外線カメラ15の正面から見て左方に、上下二段に並べて配置されている。これら複数の赤外線LED17による照明光Cは、図中の太線の一点鎖線で示すように、赤外線カメラ15の画角Bよりも狭い(角度が小さい)照射角度の拡散光となる。   The above-described infrared camera 15 captures the occupants 7a and 9a of the front seat 7 and the rear seat 9 of the vehicle 1 shown in FIGS. 1 and 2, and these front seats as shown by the dashed line in the drawing. 7 and an angle of view B in which the photographing range A including the occupants 7a and 9a of the rear seat 9 is accommodated. Further, the plurality of infrared light emitting diodes (hereinafter referred to as infrared LEDs) 17 described above illuminate light C that illuminates the occupants 7a, 9a of the front seat 7 and the rear seat 9 (corresponding to the illumination light for photographing in the claims). Are arranged in two upper and lower stages on the left side when viewed from the front of the infrared camera 15. Illumination light C from the plurality of infrared LEDs 17 becomes diffused light having an irradiation angle narrower (smaller angle) than the angle of view B of the infrared camera 15 as indicated by a thick dashed line in the drawing.

仮に、上述した各赤外線発光LED17が、赤外線カメラ15の画角中心軸B1に向きを合わせた光軸C1を有しているとすると、図1に示すように、赤外線LED17の光軸C1が、前席7の乗員7aの頭部と後席9の乗員9aの腰部とを通る。したがって、後席9の乗員9aは、赤外線LED17に近い前席7の乗員7aよりも、赤外線LED17の光軸C1から外れた位置にいることになる。このため、前席7の乗員7aに比べて後席9の乗員9aは、赤外線LED17による照明光の受光量が圧倒的に低くなる。そのため、赤外線カメラ15によって撮影される後席9の乗員9aの映像は、図4の説明図に示すように、前席7の乗員7aよりも暗く視認しづらいものとなってしまう。   Assuming that each infrared light emitting LED 17 described above has an optical axis C1 oriented to the central field angle B1 of the infrared camera 15, the optical axis C1 of the infrared LED 17 is as shown in FIG. It passes through the head of the occupant 7a of the front seat 7 and the waist of the occupant 9a of the rear seat 9. Accordingly, the occupant 9a of the rear seat 9 is located farther from the optical axis C1 of the infrared LED 17 than the occupant 7a of the front seat 7 near the infrared LED 17. For this reason, the amount of light received by the infrared LED 17 in the occupant 9a in the rear seat 9 is significantly lower than that in the occupant 7a in the front seat 7. Therefore, the image of the occupant 9a in the rear seat 9 photographed by the infrared camera 15 is darker and harder to see than the occupant 7a in the front seat 7, as shown in the explanatory diagram of FIG.

ここで、温度の変動幅が大きい使用環境で長い寿命が要求される車載用の赤外線LED17は、専ら安価で小型の頑強な造りのものとなる。そのような造りの赤外線LED17において高光量を期待することには無理がある。したがって、赤外線LED17の発光光量を増やすことで後席9の乗員9aの映像の視認性を高めることは困難である。かといって、赤外線カメラ15の出力信号を増幅して後席9の乗員9aが映った画素の輝度を高めようとすると、出力信号に重畳されたノイズ成分まで増幅されてしまう。ノイズ成分の増幅は、赤外線カメラ15の出力信号による映像の画質を低下させ、それに起因した映像の視認性低下を招いてしまう。   Here, the in-vehicle infrared LED 17 that is required to have a long life in a use environment having a large temperature fluctuation range is exclusively inexpensive and small and robust. It is impossible to expect a high amount of light in the infrared LED 17 having such a structure. Therefore, it is difficult to increase the visibility of the image of the occupant 9a in the rear seat 9 by increasing the amount of light emitted from the infrared LED 17. However, if the output signal of the infrared camera 15 is amplified to increase the luminance of the pixel on which the passenger 9a in the rear seat 9 is reflected, the noise component superimposed on the output signal is amplified. The amplification of the noise component degrades the image quality of the image by the output signal of the infrared camera 15 and causes the image visibility to be lowered due to the image quality.

そこで、本実施形態の車載用撮影ユニット10では、図5の要部拡大断面図に示すように、赤外線カメラ15の画角中心軸B1に対して各赤外線LED17の光軸C1を、垂直方向において上方に傾けている。具体的には、ケース13の内部に突設した上下の位置決めピン13a,13bの先端の位置に前後差を持たせ、これら位置決めピン13a,13bの先端に実装面19aが当接するように回路基板19をケース13内に取り付けている。そして、上段の各赤外線LED17の端子を下段の各赤外線LED17の端子よりも長くし、各赤外線LED17を回路基板19の実装面19aに対して実装することで、上下両段の各赤外線LED17を、それらの先端がケース13の前面に揃って位置するように配置している。   Therefore, in the in-vehicle photographing unit 10 of the present embodiment, the optical axis C1 of each infrared LED 17 is set in the vertical direction with respect to the field angle central axis B1 of the infrared camera 15 as shown in the enlarged sectional view of the main part in FIG. Tilt upward. Specifically, the circuit board is configured such that the front and rear positions of the upper and lower positioning pins 13a and 13b projecting from the inside of the case 13 are different from each other and the mounting surface 19a is in contact with the front ends of the positioning pins 13a and 13b. 19 is mounted in the case 13. Then, the terminals of the upper infrared LEDs 17 are made longer than the terminals of the lower infrared LEDs 17, and the infrared LEDs 17 are mounted on the mounting surface 19a of the circuit board 19, whereby the upper and lower infrared LEDs 17 are These tips are arranged so as to be aligned with the front surface of the case 13.

図5に示すように各赤外線LED17を配置して、赤外線カメラ15の画角中心軸B1に対して各赤外線LED17の光軸C1を上方に傾けると、図6に示すように、赤外線LED17の光軸C1が、前席7の乗員7aの頭部の上方と後席9の乗員9aの頭部の下方とを通る。したがって、各赤外線LED17の光軸C1の向きを図1に示すように赤外線カメラ15の画角中心軸B1の向きに合わせる場合に比べて、後席9の乗員9aに赤外線LED17の光軸C1が近づくことになる。このため、後席9の乗員9aが赤外線LED17から受光する照明光の受光量が高くなり、図7の説明図に示すように、赤外線カメラ15によって撮影される後席9の乗員9aの映像は、前席7の乗員7aと比べても遜色がない程度に明るく鮮明なものとなる。   When each infrared LED 17 is arranged as shown in FIG. 5 and the optical axis C1 of each infrared LED 17 is tilted upward with respect to the field angle center axis B1 of the infrared camera 15, as shown in FIG. The axis C1 passes above the head of the occupant 7a of the front seat 7 and below the head of the occupant 9a of the rear seat 9. Therefore, as compared with the case where the direction of the optical axis C1 of each infrared LED 17 is aligned with the direction of the field angle central axis B1 of the infrared camera 15 as shown in FIG. It will approach. For this reason, the amount of illumination light received by the occupant 9a of the rear seat 9 from the infrared LED 17 is increased, and the image of the occupant 9a of the rear seat 9 photographed by the infrared camera 15 is shown in the explanatory diagram of FIG. Even if compared with the occupant 7a of the front seat 7, it becomes bright and clear so as not to be inferior.

このように、本実施形態の車載用撮影ユニット10では、ケース13に対して各赤外線LED17を、同じくケース13に収容された赤外線カメラ15の画角中心軸B1に対して光軸C1が上方に傾くように収容して、赤外線カメラ15から遠い後席9の高さに光軸C1を合わせる構成とした。   As described above, in the in-vehicle photographing unit 10 of the present embodiment, each infrared LED 17 is located with respect to the case 13, and the optical axis C <b> 1 is upward with respect to the field angle center axis B <b> 1 of the infrared camera 15 housed in the case 13. The optical axis C <b> 1 is adjusted to the height of the rear seat 9 far from the infrared camera 15.

このため、赤外線カメラ15を車両1の前席7及び後席9を含む撮影範囲Aが画角Bに収まる向きとなるようにケース13を車両1の車内天井3に取り付けても、赤外線カメラ15から遠い後席9の乗員9aが映像上で鮮明に映るように、各赤外線LED17からの照明光によりある程度の光量で照明することができる。   For this reason, even if the case 13 is attached to the ceiling 3 of the vehicle 1 so that the imaging range A including the front seat 7 and the rear seat 9 of the vehicle 1 is within the angle of view B, the infrared camera 15 is attached. It is possible to illuminate with a certain amount of light by the illumination light from each infrared LED 17 so that the occupant 9a of the rear seat 9 that is far from the vehicle is clearly displayed on the image.

なお、各赤外線LED17を、赤外線カメラ15の周囲に等間隔でリング状に並べて配置したり、赤外線カメラ15を挟んだ両脇に分散して配置するのではなく、本実施形態のように、各赤外線LED17を赤外線カメラ15の脇にまとめて配置する構成とすれば、赤外線LED17の回路基板19を一枚にまとめて、車載用撮影ユニット10の小型化を実現することができる。 Each infrared LED 17 is not arranged in a ring around the infrared camera 15 at regular intervals, or distributed on both sides of the infrared camera 15, instead of being arranged as in the present embodiment. If the infrared LED 17 is configured to be arranged on the side of the infrared camera 15, the circuit board 19 of the infrared LED 17 can be integrated into one sheet, and the vehicle-mounted photographing unit 10 can be downsized.

また、本実施形態では、赤外線カメラ15の画角中心軸B1に対して各赤外線LED17の光軸C1を傾けて配置するために、赤外線LED17の回路基板19をケース13の長さが異なる上下の位置決めピン13a,13bの先端に当接させて、ケース13の前面に対して回路基板19を傾斜させて取り付ける構成とした。このため、各赤外線LED17の光軸C1を赤外線カメラ15の画角中心軸B1に対して傾斜させる構造を、簡便安価な構成で品質良く実現することができる。しかし、赤外線カメラ15の画角中心軸B1に対して各赤外線LED17の光軸C1を傾けて配置するための構成は、回路基板19をケース13の前面に対して傾斜させる構造に限定されない。例えば、各赤外線LED17を回路基板19の実装面19aに対して傾斜させて実装しても良い。   Further, in the present embodiment, the circuit board 19 of the infrared LED 17 is arranged up and down with different lengths of the case 13 so that the optical axis C1 of each infrared LED 17 is inclined with respect to the central axis B1 of the angle of view of the infrared camera 15. The circuit board 19 is attached so as to be inclined with respect to the front surface of the case 13 in contact with the tips of the positioning pins 13a and 13b. For this reason, the structure which inclines the optical axis C1 of each infrared LED 17 with respect to the view angle center axis B1 of the infrared camera 15 can be realized with a simple and inexpensive configuration with high quality. However, the configuration for inclining and arranging the optical axis C <b> 1 of each infrared LED 17 with respect to the field angle center axis B <b> 1 of the infrared camera 15 is not limited to the structure in which the circuit board 19 is inclined with respect to the front surface of the case 13. For example, each infrared LED 17 may be mounted inclined with respect to the mounting surface 19 a of the circuit board 19.

さらに、前席7と後席9とを含む撮影範囲Aを撮影するカメラと照明する光源は、本実施形態で説明した赤外線カメラ15と赤外線LED17に限定されないが、赤外線カメラ15と赤外線LED17をカメラと光源として使用すれば、低露光の状態でも比較的鮮明に撮影範囲Aの被写体を撮影することができる。   Further, the camera for photographing the photographing range A including the front seat 7 and the rear seat 9 and the light source for illumination are not limited to the infrared camera 15 and the infrared LED 17 described in the present embodiment, but the infrared camera 15 and the infrared LED 17 are connected to the camera. If the light source is used as a light source, a subject in the photographing range A can be photographed relatively clearly even in a low exposure state.

また、本実施形態では、車両1の車内天井3の前端中央に車載用撮影ユニット10を取り付けて、前席7や後席9(の乗員7a,9a)を前方から撮影及び照明する場合について説明した。しかし、本発明は、例えば、車内天井3の後端中央に車載用撮影ユニット10を取り付けて、前席7や後席9(の乗員7a,9a)を後方から撮影及び照明する場合にも、同様に適用可能である。   Further, in the present embodiment, a case will be described in which the in-vehicle shooting unit 10 is attached to the center of the front end of the vehicle interior ceiling 3 and the front seat 7 and the rear seat 9 (occupants 7a and 9a) are photographed and illuminated from the front. did. However, the present invention is also applicable to, for example, the case where the in-vehicle photographing unit 10 is attached to the center of the rear end of the vehicle interior ceiling 3 and the front seat 7 and the rear seat 9 (occupants 7a, 9a) are photographed and illuminated from the rear. The same applies.

本発明は、カメラと共に照明用の光源を備えて車内の前席と後席とを含む撮影範囲を照明しながら撮影する車載用撮影ユニットに用いて好適である。   INDUSTRIAL APPLICABILITY The present invention is suitable for use in a vehicle-mounted shooting unit that includes a camera and a light source for illumination, and shoots while shooting a shooting range including a front seat and a rear seat in the vehicle.

1 車両
3 車内天井
7 前席
7a 乗員
9 後席
9a 乗員
10 車載用撮影ユニット
11 取付金具
13 ケース
13a 位置決めピン
13b 位置決めピン
15 赤外線カメラ(カメラ)
17 赤外線発光ダイオード(固体発光素子)
19 回路基板
19a 実装面
A 撮影範囲
B 画角
B1 画角中心軸
C 照明光(撮影用照明光)
C1 光軸
DESCRIPTION OF SYMBOLS 1 Vehicle 3 Car interior ceiling 7 Front seat 7a Passenger 9 Rear seat 9a Passenger 10 In-vehicle imaging unit 11 Mounting bracket 13 Case 13a Positioning pin 13b Positioning pin 15 Infrared camera (camera)
17 Infrared light emitting diode (solid state light emitting device)
19 Circuit board 19a Mounting surface A Shooting range B Field angle B1 Field angle central axis C Illumination light (illumination light for photographing)
C1 optical axis

Claims (1)

車内の前席の乗員と後席の乗員とを含む撮影範囲を撮影する車載用撮影ユニットであって、
車両に取り付けられるケースと、
前記ケースに収容され、該ケースが前記車両に取り付けられた状態で前記撮影範囲が画角内に収まる向きに配置され、該撮影範囲を撮影するカメラと、
前記ケースに収容され、該ケースが前記車両に取り付けられた状態で、前記前席及び前記後席のうち前記カメラからの距離が遠い席の高さに光軸を合わせて配置され、前記カメラによる前記撮影範囲の撮影用照明光を出力する光源とを備え、
前記光源は、前記ケースに保持される回路基板に実装された固体発光素子であり、
前記回路基板は、前記カメラの画角中心軸に対して前記固体発光素子の前記光軸を傾斜させて前記ケースに保持されており、
前記光源は前記固体発光素子を複数有しており、これら複数の固体発光素子が単一の前記回路基板に実装され、前記カメラの片側の脇に集中配置されて前記ケースに収容されている、
ことを特徴とする車載用撮影ユニット。
A vehicle-mounted shooting unit that captures a shooting range including a front passenger and a rear passenger in a vehicle,
A case attached to the vehicle,
A camera that is housed in the case and is arranged in a direction in which the shooting range is within an angle of view with the case attached to the vehicle, and shooting the shooting range;
In the state where the case is accommodated and the case is attached to the vehicle, the optical axis is arranged at the height of a seat far from the camera among the front seat and the rear seat, A light source that outputs illumination light for photographing in the photographing range ,
The light source is a solid state light emitting device mounted on a circuit board held by the case,
The circuit board is held in the case by inclining the optical axis of the solid-state light emitting element with respect to the central axis of view angle of the camera.
The light source has a plurality of the solid-state light-emitting elements, the plurality of solid-state light-emitting elements are mounted on a single circuit board, are concentrated on one side of the camera, and are accommodated in the case.
An in-vehicle shooting unit characterized by that.
JP2009103125A 2009-04-21 2009-04-21 In-vehicle shooting unit Active JP5400458B2 (en)

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