JP4432846B2 - Lighting device and lighting fixture - Google Patents

Lighting device and lighting fixture Download PDF

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JP4432846B2
JP4432846B2 JP2005186996A JP2005186996A JP4432846B2 JP 4432846 B2 JP4432846 B2 JP 4432846B2 JP 2005186996 A JP2005186996 A JP 2005186996A JP 2005186996 A JP2005186996 A JP 2005186996A JP 4432846 B2 JP4432846 B2 JP 4432846B2
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frame
emitting panel
light emitting
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electrodes
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正喜 小林
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Panasonic Corp
Panasonic Electric Works Co Ltd
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Matsushita Electric Works Ltd
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Description

この発明は、照明用EL(エレクトロ・ルミネッセンス)パネルを用いた照明装置および照明器具に関するものである。   The present invention relates to a lighting device and a lighting fixture using an EL (electroluminescence) panel for lighting.

有機ELパネルは、基板上に電極層(陽極)、EL(エレクトロルミネッセンス)素子層、電極層(陰極)を積層し、これらの積層部分を湿度から保護する防湿膜から作られている。有機ELパネルの基板として、ガラスを用いることが多い。有機ELパネルの基板の厚さは、ガラス基板上に電極層、発光層の薄い膜が形成され、ガラス基板と併せても3mm程度と非常に薄い。また、最近の有機ELパネルの製造技術の進歩により有機ELの面積の大型化が可能となってきている。そのため、機械的応力が加わると非常に割れやすく、取扱いに注意を要する。   An organic EL panel is made of a moisture-proof film in which an electrode layer (anode), an EL (electroluminescence) element layer, and an electrode layer (cathode) are stacked on a substrate, and these stacked portions are protected from humidity. Glass is often used as the substrate of the organic EL panel. The substrate of the organic EL panel has a very thin electrode layer and a light emitting layer formed on a glass substrate. In addition, the area of the organic EL can be increased due to recent advances in manufacturing technology of the organic EL panel. Therefore, when mechanical stress is applied, it is very fragile and requires care.

機械的応力の防止方法として、特許文献1のように、有機ELパネルを装置本体である箱状の枠内に収納する方法が提案されている。特許文献1では、枠の一部に開口部があり、開口部より有機ELパネルを収納する。また枠の一箇所に枠外に突出した外部接続用の電源端子が設けてある。開口部には、蓋がなく、有機ELパネルの電極の一部を狭持し、枠に保持しているために有機ELパネルには機械的応力がかかりやすい。   As a method for preventing mechanical stress, a method of storing an organic EL panel in a box-shaped frame which is a device main body has been proposed as disclosed in Patent Document 1. In Patent Document 1, there is an opening in a part of the frame, and the organic EL panel is accommodated from the opening. In addition, a power terminal for external connection protruding outside the frame is provided at one position of the frame. The opening does not have a lid, and a part of the electrode of the organic EL panel is sandwiched and held in the frame, so that the organic EL panel is easily subjected to mechanical stress.

また、蓋がないことから、開口部を下にして設置すると有機ELパネルが落下する恐れがあり、枠の設置向きが限定されてしまう。   In addition, since there is no lid, there is a risk that the organic EL panel may fall when installed with the opening facing down, and the installation direction of the frame is limited.

また、有機ELパネルを照明として使用するには、明るさが従来の蛍光ランプに比べてまだ暗いため、有機ELパネルを複数用いないと、従来からの照明としての機能を果たすことが難しいのが現状である。   In addition, when using an organic EL panel as illumination, the brightness is still dark compared to conventional fluorescent lamps, so unless multiple organic EL panels are used, it is difficult to fulfill the function of conventional illumination. Currently.

しかし、上記のように端子が枠の外部に突出している場合、枠同士を隣接して配置する際に隙間が生じてしまい、隙間を生じないで隣接させる場合は、一直線状に並べ外部突出部を一方向に配置するか、縦横2列の正方形に並べるなどの限定されたものとなってしまう。   However, when the terminals protrude outside the frame as described above, a gap is generated when the frames are arranged adjacent to each other. Are arranged in one direction, or arranged in two vertical and horizontal squares.

また、有機ELパネルは直流電圧を印加して点灯させるものであり、通常は有機ELパネルの外部電源からの電源供給用の電極をガラス基板上の発光面近傍に配置してある。電極への電気的接続は、電極の一部にリード線を用いて接続することが多い。リード線と外部電源(電極)との間は、有機ELパネルを固定または保持する部材の中空部にリード線を挿入する場合が多く、リード線接続を行う際にリード線を引張ったり、屈曲したりする。   The organic EL panel is lit by applying a DC voltage, and usually an electrode for supplying power from an external power source of the organic EL panel is disposed in the vicinity of the light emitting surface on the glass substrate. In many cases, electrical connection to an electrode is performed using a lead wire on a part of the electrode. Between the lead wire and the external power supply (electrode), the lead wire is often inserted into the hollow part of the member that holds or holds the organic EL panel. When connecting the lead wire, the lead wire is pulled or bent. Or

そこで、接続部への応力緩和するのため、保持部材によりリード線をある部分で保持することが必要となる。このため、配線処理に非常に時間がかかるという問題があった。   Therefore, in order to relieve stress on the connection portion, it is necessary to hold the lead wire at a certain portion by the holding member. For this reason, there has been a problem that the wiring process takes a very long time.

また、陽極に用いる透明電極のITO膜は電気抵抗が大きいため、電極の一部のみ接続した場合、接続箇所から遠い部分では電流が流れにくい。したがって、上記電極の一部に電気的接続を行うと、発光面内の発光にむらが生じやすくなり、発光面積が大きくなるとさらに顕著にむらが生じてしまうという問題が生じやすいという課題がある。
特開平6−223972号公報
Further, since the ITO film of the transparent electrode used for the anode has a large electric resistance, when only a part of the electrode is connected, current does not easily flow in a part far from the connection part. Therefore, when electrical connection is made to a part of the electrode, there is a problem that unevenness in light emission within the light emitting surface is likely to occur, and that a problem that unevenness occurs more significantly when the light emitting area is large is likely to occur.
JP-A-6-223972

この発明は、このような状況に鑑み、上記の配線作業が簡単になり外部接続部材との接続が容易な照明装置および照明器具を提供することである。   In view of such a situation, the present invention is to provide a lighting device and a lighting fixture in which the above wiring work is simplified and connection with an external connection member is easy.

この発明の照明装置は、片面の周辺に沿って複数の電極を有する面発光パネルと、前記面発光パネルの前記片面に位置する第1の枠と他の片面に位置する第2の枠とを有し前記第1の枠と前記第2の枠の間に前記面発光パネルを収納するスペースを形成しかつ前記第1の枠および前記第2の枠の少なくとも一方が前記面発光パネルの発光を通すようにした装置本体とを備えている。前記第1の枠は、前記面発光パネルの前記片面が向く平面部を有し、前記平面部の側端に前記面発光パネルの前記スペースを形成する側端部を有し、前記第2の枠は前記側端部に取付けられている。前記平面部は前記面発光パネルが収納された状態で前記複数の電極にそれぞれ接触する接触部を有し、前記側端部は外側面に接続部となる凹部を有し、前記側端部を貫通して前記凹部内に配置されるとともに配線部を介して前記接触部と接続された外部接触部を有する。前記凹部に外部接続部材の電極の付いた被接続部を挿入することにより、前記被接続部の電極が前記外部接触部に接触するとともに、前記装置本体が前記被接続部に固定される。 The lighting device of the present invention includes a surface emitting panel having a plurality of electrodes along the periphery of one side, a first frame located on the one side of the surface emitting panel, and a second frame located on the other side. A space for accommodating the surface light emitting panel is formed between the first frame and the second frame, and at least one of the first frame and the second frame emits light from the surface light emitting panel. And a device main body through which it passes. The first frame has a flat surface portion on which the one surface of the surface light emitting panel faces, a side end portion that forms the space of the surface light emitting panel at a side end of the flat surface portion, and the second frame. The frame is attached to the side end. The planar portion has contact portions that respectively contact the plurality of electrodes in a state in which the surface light emitting panel is accommodated, the side end portion has a concave portion serving as a connection portion on an outer surface, and the side end portion is It has an external contact portion that penetrates and is disposed in the recess and connected to the contact portion through a wiring portion. By inserting the connected portion with the electrode of the external connection member into the recess, the electrode of the connected portion comes into contact with the external contact portion, and the apparatus main body is fixed to the connected portion.

上記構成において、前記複数の電極は一対の電極であり、前記外部接触部は前記一対の電極に対応して前記凹部に一対有し、前記被接続部の前記電極は前記一対の外部接触部に対応して一対有するIn the above configuration, the plurality of electrodes are a pair of electrodes, the external contact portion has a pair in the recess corresponding to the pair of electrodes, and the electrode of the connected portion is in the pair of external contact portions. Correspondingly has a pair .

上記構成において、前記接続部および前記被接続部の少なくとも一方は、他方を弾性的に保持するばね部を有する。   The said structure WHEREIN: At least one of the said connection part and the said to-be-connected part has a spring part which hold | maintains the other elastically.

この発明の別の照明装置は、片面の周辺に沿って複数の電極を有する面発光パネルと、前記面発光パネルの前記片面に位置する第1の枠と他の片面に位置する第2の枠とを有し前記第1の枠と前記第2の枠の間に前記面発光パネルを収納するスペースを形成しかつ前記第1の枠および前記第2の枠の少なくとも一方が前記面発光パネルの発光を通すようにした装置本体とを備え、
前記第1の枠は、前記面発光パネルの前記片面が向く平面部を有し、前記平面部の側端に前記面発光パネルの前記スペースを形成する側端部を有し、前記第2の枠は前記側端部に取付けられており、
前記平面部は前記面発光パネルが収納された状態で前記複数の電極にそれぞれ接触する接触部を有し、前記平面部の前記面発光パネルと反対側に固定用の部材を有し、前記部材の側面に凹部を有し、前記平面部を貫通して前記凹部に設けられるとともに同極同士が対角となるように前記平面部の角部に位置した外部接触部を有し、前記接触部と前記外部接触部を接続する配線部を有し、前記凹部に前記外部接続部材の一対の電極の付いた被接続部を挿入することにより、前記一対の電極が前記外部接触部に接触するとともに、前記装置本体が前記被接続部に固定される
Another lighting device of the present invention includes a surface emitting panel having a plurality of electrodes along the periphery of one side, a first frame located on the one side of the surface emitting panel, and a second frame located on the other side. A space for housing the surface light emitting panel is formed between the first frame and the second frame, and at least one of the first frame and the second frame is the surface light emitting panel. With a device body that allows light to pass through,
The first frame has a flat surface portion on which the one surface of the surface light emitting panel faces, a side end portion that forms the space of the surface light emitting panel at a side end of the flat surface portion, and the second frame. The frame is attached to the side end,
The planar portion has contact portions that respectively contact the plurality of electrodes in a state in which the surface emitting panel is accommodated, and has a fixing member on the opposite side of the planar portion to the surface emitting panel. A concave portion on a side surface of the flat surface portion, and an external contact portion that is provided in the concave portion through the flat surface portion and located at a corner portion of the flat surface portion so that the same poles are diagonal to each other. And connecting the external contact portion to the external contact portion, and inserting the connected portion with the pair of electrodes of the external connection member into the recess, so that the pair of electrodes are in contact with the external contact portion. The apparatus main body is fixed to the connected portion .

上記構成において、前記第1の枠または前記第2の枠の発光面側を導光部材により形成しているIn the above configuration, the light emitting surface side of the first frame or the second frame is formed by a light guide member .

この発明の照明器具は、上記構成の照明装置を複数用いた照明器具であって、複数の装置本体を相隣接したとき前記凹部同士が対向するように、前記凹部が前記枠の側面に溝状に形成され、前記外部接続部材が前記溝状の凹部の端部から挿入されることにより前記装置本体が前記外部接続部材に固定されるThe lighting fixture of the present invention is a lighting fixture using a plurality of lighting devices having the above-described configuration, and the recesses are formed in a groove shape on the side surface of the frame so that the recesses face each other when a plurality of device main bodies are adjacent to each other. The apparatus main body is fixed to the external connection member by inserting the external connection member from the end of the groove-shaped recess .

この発明の照明装置によれば、外部接触部により外部接続部材との固定と給電を行うため、外部接続部材を外部接触部に固定すると同時に面発光パネル例えばELパネルへの給電を行うことが可能となり、従来の配線作業が容易となり、結線作業や施工性が良好となる。   According to the lighting device of the present invention, the external contact member is fixed to the external connection member and power is supplied, so that the external connection member can be fixed to the external contact portion and simultaneously supplied to the surface emitting panel, for example, an EL panel. Thus, the conventional wiring work is facilitated, and the wiring work and workability are improved.

1つの接続部にELパネルの陽極、陰極にそれぞれ接続される一対の外部接続手段をまとめて設けたため、1箇所の接続箇所で接続固定が可能となり接続固定に要する作業が簡単に行える。   Since a pair of external connection means connected to the anode and cathode of the EL panel are provided together in one connection portion, the connection can be fixed at one connection point, and the work required for the connection fixing can be easily performed.

接続部および被接続部の少なくとも一方は他方をばね部により弾性的に保持するため、外部接続部材と装置本体とは、少なくともその一方の弾性により互いに固定保持をより確実に行えることが可能となる。   Since at least one of the connecting portion and the connected portion holds the other elastically by the spring portion, the external connecting member and the apparatus main body can be more reliably fixed to each other by the elasticity of at least one of them. .

外部接触部を角形の装置本体の角部に設けたことにより、ELパネルと装置本体との互いの外形輪郭距離を小さくすることが可能となり、照明装置全体の面積におけるELパネルの発光面の比率を高くすることができる。   By providing the external contact part at the corner of the square device main body, it is possible to reduce the external contour distance between the EL panel and the device main body, and the ratio of the light emitting surface of the EL panel to the total area of the lighting device Can be high.

装置本体の前面を、ELパネルの発光面に対向して、ELパネルの発光部以外の領域に光を導光する導光部材で覆うと、照明装置の前面である発光面側全体を発光させることが可能となる。   When the front of the device body is opposed to the light emitting surface of the EL panel and covered with a light guide member that guides light to a region other than the light emitting part of the EL panel, the entire light emitting surface, which is the front of the lighting device, emits light. It becomes possible.

この発明の照明器具によれば、固定と給電を同時に行える照明装置を隣接して複数配置することにより発光面積を増大させることが可能となる。   According to the lighting fixture of this invention, it becomes possible to increase the light emitting area by arranging a plurality of lighting devices adjacent to each other that can be fixed and fed simultaneously.

この発明の第1の実施の形態を図1から図7、図21から図23により説明する。面発光パネルである有機ELパネル10は、各実施の形態に共通の図21から図23に示すように、透明基板であるガラス基板7上に、陽極1、正孔輸送層2、発光層3、電子輸送層4、陰極5を順次積層し、上記各層を防湿膜6にて覆っている。陽極1はITO膜等の透明電極とし、ガラス基板7側から発光する。8は発光部でありガラス基板7の表面となる。なお、陰極5を透明電極、防湿膜6を透光性部材で形成すると、陰極面からの発光も可能となり、ガラス面との両面発光も可能である。ガラス基板7はガラスに限らず、透光性を有するものであれば良い。   A first embodiment of the present invention will be described with reference to FIGS. 1 to 7 and FIGS. 21 to 23. FIG. As shown in FIGS. 21 to 23, which are common to each embodiment, the organic EL panel 10 that is a surface light-emitting panel has an anode 1, a hole transport layer 2, and a light emitting layer 3 on a glass substrate 7 that is a transparent substrate. The electron transport layer 4 and the cathode 5 are sequentially laminated, and each layer is covered with a moisture-proof film 6. The anode 1 is a transparent electrode such as an ITO film, and emits light from the glass substrate 7 side. Reference numeral 8 denotes a light emitting portion, which becomes the surface of the glass substrate 7. If the cathode 5 is formed of a transparent electrode and the moisture-proof film 6 is formed of a translucent member, light can be emitted from the cathode surface, and both surfaces can be emitted from the glass surface. The glass substrate 7 is not limited to glass, and may be any material having translucency.

有機ELパネル10の外部と接続する電極は陽極1および陰極5の各々が発光層3の面積より広くなっており、各々が発光層3の対向する両辺に沿って形成され、したがって陽極1と陰極5は互いに直交するようにガラス基板7上に形成されている。   As for the electrodes connected to the outside of the organic EL panel 10, each of the anode 1 and the cathode 5 is wider than the area of the light emitting layer 3, and each is formed along both opposing sides of the light emitting layer 3. 5 are formed on the glass substrate 7 so as to be orthogonal to each other.

上記有機ELパネル10を収納する外枠となる照明装置の装置本体11は、図1から図3に示すように、透光性材料からなる枠12と枠13により構成されている。枠12の透光性材料としては、アクリル、エポキシ樹脂等透光性を有するものであれば良い。枠13には、有機ELパネル10の電極1、5と電気的接続する接触部14a、14b、外部接続部材15の外部電極18と電気的に接続する外部接触部16a、16b、外部接触部16a、16bと接触部14a、14bとを接続する配線部17a、17bを外部接触手段として電路板により一体に形成している。陰極側は一対の接触部14aと配線部17aで平面コ字形をなし、配線部17aの中央に外部接触部16aをつないでいる。外部接触部16aは段差を付けるように屈曲している。陽極側は一対の接触部14bの両端を配線部17bで輪状につなぎ、一方の接触部14bの中央で外部接触部16aと反対側に外部接触部16bを配置している。外部接触部16aと接触部14bの交差部間には部材24を介在して絶縁を確保している。そして外部接続部材15の一方に外部接触部16aが対向し、他方に外部接触部16bが対向する。なお、配線部17a、17bは電路板だけでなく、リード線を用いたものや、枠13に印刷にて形成するなど、外部接触部16a、16bと接触部14a、14bとを電気的に接続できれば良い。   As shown in FIGS. 1 to 3, the device main body 11 of the illuminating device serving as an outer frame for housing the organic EL panel 10 is composed of a frame 12 and a frame 13 made of a translucent material. The translucent material of the frame 12 may be any material having translucency such as acrylic or epoxy resin. The frame 13 includes contact portions 14a and 14b that are electrically connected to the electrodes 1 and 5 of the organic EL panel 10, external contact portions 16a and 16b that are electrically connected to the external electrode 18 of the external connection member 15, and an external contact portion 16a. , 16b and the contact portions 14a, 14b are integrally formed of an electric circuit board as wiring contact portions 17a, 17b as external contact means. On the cathode side, a pair of contact portions 14a and a wiring portion 17a form a U-shaped plane, and an external contact portion 16a is connected to the center of the wiring portion 17a. The external contact portion 16a is bent so as to have a step. On the anode side, both ends of the pair of contact portions 14b are connected in a ring shape by the wiring portion 17b, and the external contact portion 16b is disposed on the opposite side of the external contact portion 16a at the center of one contact portion 14b. A member 24 is interposed between the intersections of the external contact portion 16a and the contact portion 14b to ensure insulation. Then, the external contact portion 16a faces one of the external connection members 15, and the external contact portion 16b faces the other. The wiring parts 17a and 17b are not only electrical circuit boards, but also using lead wires or printed on the frame 13 to electrically connect the external contact parts 16a and 16b and the contact parts 14a and 14b. I can do it.

枠13は、外部接続部材15との接続部となる凹部20、21を有する側端部22、平面部23、屈曲した上記電路板を保護し、陽極との電気的絶縁を確保する部材24から構成されている。各部材の材料は絶縁性材料からなっており、アクリル、エポキシ等の樹脂にて作成する。これらの樹脂は電路板や電極を外部から見えないように、着色している。側端部22には電路板を収納する貫通穴25が凹部20、21の表面と平面部23の結合面との間に設けられている。   The frame 13 protects the side end portion 22 having the recesses 20 and 21 to be connected to the external connection member 15, the flat surface portion 23, and the bent electric circuit board, and from the member 24 that ensures electrical insulation with the anode. It is configured. The material of each member is made of an insulating material and is made of a resin such as acrylic or epoxy. These resins are colored so that the circuit boards and electrodes are not visible from the outside. A through hole 25 for accommodating the circuit board is provided in the side end portion 22 between the surfaces of the recesses 20 and 21 and the coupling surface of the flat portion 23.

平面部23と側端部22の接合は、接着部材やビスなどを適宜選択する。   For joining the flat portion 23 and the side end portion 22, an adhesive member, a screw or the like is appropriately selected.

有機ELパネル10の陰極5と接続する電路板は平面部23の形状に沿って、屈曲させ、平面部23の表面に取り付ける。取付は、接着する方法や、ビスによる固定等とし、有機ELパネル10の収納時にこれらの固定部分が接触せず、陰極5と接触部14aとの接続に支障がない方法であれば、構わないものとする(図示せず)。陰極5の電路板を平面部23に取付た後、部材24を取付け、部材24の表面に陽極1の電路板を取付ける。陽極1の電路板についても陰極5の電路板と同様の方法により取付ける。   The circuit board connected to the cathode 5 of the organic EL panel 10 is bent along the shape of the flat part 23 and attached to the surface of the flat part 23. The attachment may be a method of bonding, fixing with screws, or the like as long as the fixing portion does not come into contact when the organic EL panel 10 is stored, and there is no problem in connection between the cathode 5 and the contact portion 14a. It shall be (not shown). After the electric circuit board of the cathode 5 is attached to the flat portion 23, the member 24 is attached, and the electric circuit board of the anode 1 is attached to the surface of the member 24. The circuit board of the anode 1 is also attached by the same method as the circuit board of the cathode 5.

外部接触部16a、16bの先端は枠13の凹部21の内表面に取り付けてあり、外部接続部材15の被接続部27を凹部21に挿入して装置本体11を固定すると同時に、外部接触部16a、16bと外部接続部材15の電極18とが接触し、装置本体11の固定と給電と行うことが可能となり、配線作業が容易になる。陽極1側の外部接触部16bは凹部20の下面側に配置し、陰極5側の外部接触部16aは凹部21の上面側に配置している。各外部接触部16a、16bに対向して外部接続部材15の被接続部27に電極18を設けている。   The tips of the external contact portions 16a and 16b are attached to the inner surface of the concave portion 21 of the frame 13. The connected portion 27 of the external connection member 15 is inserted into the concave portion 21 to fix the apparatus main body 11, and at the same time, the external contact portion 16a. 16b and the electrode 18 of the external connection member 15 come into contact with each other, so that the apparatus main body 11 can be fixed and fed, and wiring work is facilitated. The external contact portion 16 b on the anode 1 side is disposed on the lower surface side of the concave portion 20, and the external contact portion 16 a on the cathode 5 side is disposed on the upper surface side of the concave portion 21. The electrode 18 is provided on the connected portion 27 of the external connecting member 15 so as to face the external contact portions 16a and 16b.

このように、枠13側に設けた外部接続部材15との接続を行う接続箇所である凹部20、21は対向する辺の各々に設け、各接続箇所には有機ELパネル10の陰極5、陽極1のいずれか1つと電気的接続された外部接触部16が配置されている。
これにより外部接続部材15の共通化が図れる。
As described above, the recesses 20 and 21 which are connection locations for connecting to the external connection member 15 provided on the frame 13 side are provided in each of the opposing sides, and the cathode 5 and anode of the organic EL panel 10 are provided in each connection location. An external contact portion 16 that is electrically connected to any one of them is disposed.
Thereby, the external connection member 15 can be shared.

なお、枠13は、有機ELパネル10の発光面に対応する部分へ開口部を設けることも可能である。また、枠13の発光部以外の部分を発光面からの光を導光する導光部材により作成し、発光部の光を導光すると、発光面側の枠全体を発光することが可能となる(図示せず)。そのため、照明装置を隣接して使用する場合には影の部分を作ることなく、発光面積を増大することが可能となる。この際、導光部材の一部は発光部の一部とオーバーラップしていると、発光面の影がなく発光面全体が発光するのでなお良い。   The frame 13 can be provided with an opening at a portion corresponding to the light emitting surface of the organic EL panel 10. Further, when the portion other than the light emitting portion of the frame 13 is created by a light guide member that guides light from the light emitting surface and the light from the light emitting portion is guided, the entire frame on the light emitting surface side can emit light. (Not shown). Therefore, when the lighting device is used adjacently, the light emitting area can be increased without creating a shadow portion. At this time, if a part of the light guide member overlaps a part of the light emitting portion, it is preferable that there is no shadow on the light emitting surface and the entire light emitting surface emits light.

有機ELパネル10の陰極5および陽極1との接触部14a、14bには、陰極5および陽極1との接触面積を増やすために、複数の突起部30を設けている(図4参照)。具体的には、接触部分にプレス等により半球状の凸部を複数形成している。また、突起部30は図5に示すように長丸の突起部31を設けることも可能である。   A plurality of protrusions 30 are provided on the contact portions 14a and 14b of the organic EL panel 10 with the cathode 5 and the anode 1 in order to increase the contact area between the cathode 5 and the anode 1 (see FIG. 4). Specifically, a plurality of hemispherical convex portions are formed on the contact portion by pressing or the like. Further, as shown in FIG. 5, the projecting portion 30 can be provided with an elongated projecting portion 31.

これにより、接触部14a、14bで従来の電極の一部にリード線で取り付けるものに比べて、有機ELパネルの電極への電流の集中が低減でき、一定電流が流れやすくなることから、発光面の発光むらの低減を行うことが可能となる。   As a result, the concentration of current on the electrodes of the organic EL panel can be reduced and a constant current can easily flow as compared with the contact portions 14a and 14b attached to some of the conventional electrodes with lead wires. It is possible to reduce the unevenness of light emission.

外部接触部16aはばね部として、図6のように湾曲した形状を設けて弾性を付与すると、外部接続部材15の被接続部17を挿入した際に、固定をより確実に行うことが可能となり、電極18との電気的接続もより確実となる。外部接触部16bも外部接触部16aと同様な構成とする。なお、図6および図7では外部接触部16a、16bを弾性形状としたが、外部接続部材15の電極18をわん曲等の弾性形状とし、外部接触部16a、16bを平面にした逆の場合でも同様の効果が得られる。   If the external contact portion 16a is provided with a curved shape as shown in FIG. 6 as a spring portion to provide elasticity, the external contact portion 16a can be more reliably fixed when the connected portion 17 of the external connection member 15 is inserted. Further, the electrical connection with the electrode 18 is further ensured. The external contact portion 16b has the same configuration as the external contact portion 16a. 6 and 7, the external contact portions 16 a and 16 b have an elastic shape. However, the electrode 18 of the external connection member 15 has an elastic shape such as a bend, and the external contact portions 16 a and 16 b are flat. But the same effect can be obtained.

また、外部接続部材15の電極18、外部接触部16a、16bのいずれか一方の電極ないし接触部分以外の部分に弾性体を設けることでも、機械的固定および電気的接続の少なくとも一方について確実に接続できる。   Further, it is possible to reliably connect at least one of mechanical fixing and electrical connection by providing an elastic body on any one of the electrodes 18 and the external contact portions 16a and 16b of the external connection member 15 or portions other than the contact portions. it can.

外部接続部材15、外部接触部16a、16bの両方に弾性体を設けることも可能である。   It is also possible to provide an elastic body in both the external connection member 15 and the external contact portions 16a and 16b.

この発明の第2の実施の形態を図8および図9に示す。第1の実施の形態において、陰極5の一対の接触部14aの両端をそれぞれ配線部17aでつないで枠状に形成し、各配線部17aの中央部に外部接触部16aを設けている。各外部接触部16aの形状は第1の実施の形態と同様であり、陽極1の接触部14bとの交差部には部材24がそれぞれ介在されて絶縁されている。また陽極1の一対の配線部17bにもそれぞれ外部接触部16bを設けている。   A second embodiment of the present invention is shown in FIGS. In the first embodiment, both ends of the pair of contact portions 14a of the cathode 5 are connected to each other by the wiring portions 17a to form a frame, and an external contact portion 16a is provided at the center of each wiring portion 17a. The shape of each external contact portion 16a is the same as that of the first embodiment, and a member 24 is interposed and insulated at the intersection of the anode 1 with the contact portion 14b. The pair of wiring portions 17b of the anode 1 are also provided with external contact portions 16b.

図9に示すように、陰極5と陽極1の外部接触部16a、16bは互いに接触しないように、部材24を介して接続個所である凹部20、21の上下に各々配置されている。なお、外部接触部16a、16bは、上記のように断面から見て上下に設けるだけでなく、側面側に設けることも可能である。   As shown in FIG. 9, the external contact portions 16 a and 16 b of the cathode 5 and the anode 1 are arranged above and below the recesses 20 and 21, which are connection portions, via members 24 so as not to contact each other. The external contact portions 16a and 16b can be provided not only on the top and bottom as viewed from the cross section as described above, but also on the side surface side.

以上のように、1つの接続箇所の凹部20、21の各々に陰極5、陽極1の外部接触部16a、16bがあるため、外部接続部材15の電極18を外部接触部16a、16bに対応して各々に個別に接触するように設けることで、1箇所の外部接触部16a、16bのみで装置本体11の固定と給電が可能となる。   As described above, since the external contact portions 16a and 16b of the cathode 5 and the anode 1 are provided in each of the recesses 20 and 21 at one connection location, the electrode 18 of the external connection member 15 corresponds to the external contact portions 16a and 16b. Thus, the apparatus main body 11 can be fixed and fed by only one external contact portion 16a, 16b.

また、外部接続部材15の電極18と配線を変更することで、装置本体11同士の電気的接続を直列接続か並列接続のいずれかに適宜選択が可能となる。   Further, by changing the electrode 18 and the wiring of the external connection member 15, it is possible to appropriately select the electrical connection between the apparatus main bodies 11 as either a serial connection or a parallel connection.

この発明の第3の実施の形態を図10および図11に示す。第1の実施の形態と異なる点はつぎのとおりである。各凹部20、21にそれぞれ外部接触部16a、16bを並列に配置する。各外部接触部16bはそれに近い陽極1に接触する接触部14bに配線部17bを介して接続されている。各外部接触部16aは陰極5に接触する接触部14aの一方に接触部14bと交差しないように配線部17aを介して接続している。外部接続部材15の被接続部27は、各凹部20、21の外部接触部16a、16bに対応して一対ずつ電極18を設けている。   A third embodiment of the present invention is shown in FIGS. The differences from the first embodiment are as follows. External contact portions 16a and 16b are arranged in parallel in the recesses 20 and 21, respectively. Each external contact part 16b is connected to the contact part 14b which contacts the anode 1 near it via the wiring part 17b. Each external contact portion 16a is connected to one of the contact portions 14a in contact with the cathode 5 via a wiring portion 17a so as not to intersect the contact portion 14b. The connected portion 27 of the external connection member 15 is provided with a pair of electrodes 18 corresponding to the external contact portions 16 a and 16 b of the recesses 20 and 21.

また平面部23の外径寸法を枠13の外径寸法と同一とし、側端部22を有機ELパネル10の厚みと略同一とし平面部23と枠12の端部間に介在している。   Further, the outer diameter of the flat portion 23 is the same as the outer diameter of the frame 13, and the side end portion 22 is substantially the same as the thickness of the organic EL panel 10, and is interposed between the flat portion 23 and the end of the frame 12.

この実施の形態によれば、外部接触部16a、16b、配線部17a、17bおよび接触部14a、14bを形成する電路板を平面で作成できるため、電路板を取付ける枠13の平面部は、段差などの加工が不要となり、作成が容易となる。 According to this embodiment, since the electric circuit board that forms the external contact parts 16a and 16b, the wiring parts 17a and 17b, and the contact parts 14a and 14b can be created with a flat surface, the flat part of the frame 13 for mounting the electric circuit board Such processing is not required, making creation easier.

また、配線部17a、17bは枠13の平面部23に膜として蒸着する方法や、液体状の導電部材を塗布して形成することも可能となり、接触部14a、14bには別途端子を設けることで電路板と同じ機能を形成することも可能である。   Further, the wiring portions 17a and 17b can be formed by vapor deposition as a film on the flat portion 23 of the frame 13, or by applying a liquid conductive member, and separate terminals are provided on the contact portions 14a and 14b. It is also possible to form the same function as the circuit board.

したがって、第2の実施の形態と同様に1つの接続箇所すなわち凹部20または凹部21にて固定と給電を行うことが可能であり、隣接する枠同士の電気的接続を直列、並列接続に適宜選択することも可能である。   Therefore, as in the second embodiment, it is possible to perform fixing and power feeding at one connection location, that is, the recess 20 or the recess 21, and appropriately select the electrical connection between adjacent frames as a series connection or a parallel connection. It is also possible to do.

また、図11(a)は凹部20、21にそれぞれ外部接続部材15を接続するものであり、発光面内の電流をさらに一定にすることも可能となる。   Further, FIG. 11A shows the connection of the external connection member 15 to the recesses 20 and 21, respectively, and the current in the light emitting surface can be made more constant.

図11(b)の外部接続部材15は、図11(a)の左右の外部接続部材15を一体につなぎかつ電極18も一体につないだものである。そして、左右いずれかの凹部20、21へ外部接続部材15の被接続部27がスライドして給電する構造としている。   The external connection member 15 in FIG. 11 (b) is obtained by integrally connecting the left and right external connection members 15 in FIG. 11 (a) and the electrode 18 together. The connected portion 27 of the external connection member 15 slides and supplies power to the left and right concave portions 20 and 21.

この発明の第4の実施の形態を図12から図14に示す。第1の実施の形態と異なる点はつぎのとおりである。枠13の角部に外部接触部16a、16bを配置し、このとき同極となるものが対角となるように配置する。各外部接触部16a、16bに隣接する接触部14a、14bを配線部17a、17bを介して接続している。 A fourth embodiment of the present invention is shown in FIGS . The differences from the first embodiment are as follows. The external contact portions 16a and 16b are arranged at the corners of the frame 13, and the components having the same polarity at this time are arranged diagonally. Contact portions 14a and 14b adjacent to the external contact portions 16a and 16b are connected via wiring portions 17a and 17b.

また枠13は平面部23の表面に部材23aを介して平面部23とほぼ同じ大きさの平面部23bを設け、図14に示すように平面部23、23bの間の部材23aの表面に凹部を形成している。平面部23に外部接触部16a、16bを通す孔33を形成し、外部接触部16a、16bを孔33に通して平面部23に取付けて、凹部に位置している。 Further, the frame 13 is provided with a planar portion 23b having substantially the same size as the planar portion 23 on the surface of the planar portion 23 via a member 23a, and a recess is formed on the surface of the member 23a between the planar portions 23 and 23b as shown in FIG. Is forming. A hole 33 through which the external contact portions 16a and 16b are passed is formed in the flat portion 23, and the external contact portions 16a and 16b are attached to the flat portion 23 through the hole 33 and are positioned in the recesses .

なお、外部接触部16a、16bと接触部14a、14b間の配線部17a、17bは、電気的接続していれば良いので、上記電路板による一体形成の他に、外部接触部16a、16bと接触部14a、14bを別に作成し、リード線により接続する方法や、平面部23に導電性のピンを打ち込み、ピンに外部接触部16a、16bおよび接触部14a、14bを各々接続する方法などで形成しても良い。   The external contact portions 16a and 16b and the wiring portions 17a and 17b between the contact portions 14a and 14b only need to be electrically connected. Therefore, in addition to the integral formation by the circuit board, the external contact portions 16a and 16b Contact portions 14a and 14b are separately created and connected by lead wires, or conductive pins are driven into the flat portion 23, and external contact portions 16a and 16b and contact portions 14a and 14b are connected to the pins, respectively. It may be formed.

装置本体10の組立手順としては、平面部23に部材23aを取付け、部材23aに平面部23bを取付けて、外部接続部材15の接続箇所となる外部接触部16a、16bを設ける。また平面部23の接触部取付面に接触部14a、14bを取付けるとともに側端部22を設け、有機ELパネル10を収納する。有機ELパネル10の収納後、枠12を側端部により固定し、装置本体11を完成する。枠12の側端部22への取付は、ねじ等を用いる。なお、この取付け固定は上記以外に接着材による接着や、枠12と側端部22に凹凸を設けて嵌合する等固定が可能であれば良い。   As a procedure for assembling the apparatus main body 10, the member 23 a is attached to the flat portion 23, the flat portion 23 b is attached to the member 23 a, and external contact portions 16 a and 16 b that are connection locations of the external connection member 15 are provided. Further, the contact portions 14a and 14b are attached to the contact portion mounting surface of the flat portion 23, and the side end portion 22 is provided to house the organic EL panel 10. After the organic EL panel 10 is stored, the frame 12 is fixed by the side end portion, and the apparatus main body 11 is completed. A screw or the like is used for attachment to the side end portion 22 of the frame 12. In addition to the above, this mounting and fixing is not limited as long as it can be fixed by bonding with an adhesive or by fitting the frame 12 and the side end portion 22 with unevenness.

外部接続部材15は、図13に示す通り、被接続部27の中央部に平面部23の辺部を差し込み狭持可能な凹部27aを設けて差し込みにより接続固定する。また被接続部27に外部接触部16a、16bに対応して電極18を設け給電を行う。   As shown in FIG. 13, the external connection member 15 is provided with a concave portion 27 a in which the side portion of the flat portion 23 can be inserted and held at the center of the connected portion 27, and is connected and fixed by insertion. In addition, an electrode 18 is provided on the connected portion 27 corresponding to the external contact portions 16a and 16b to supply power.

第4の実施の形態によれば、外部接触部16a、16bを装置本体11の四隅に配置することで装置本体11の全体の小型化が可能となる。   According to the fourth embodiment, the overall size of the apparatus main body 11 can be reduced by disposing the external contact portions 16 a and 16 b at the four corners of the apparatus main body 11.

この発明の第5の実施の形態を図15に示す。第5の実施の形態は、第4の実施の形態の外部接触部16a、16bの形状を三角形としたものである。外部接触部16a、16bを三角形にし、その斜辺部分を有機ELパネル10の陽極1および陰極5側に配置するようにしたことで、第4の実施の形態に比べて外部接触部16a、16bと有機ELパネル10の陽極1および陰極5との距離を短くすることができ、さらなる装置本体11の小型化が可能となる。   A fifth embodiment of the present invention is shown in FIG. In the fifth embodiment, the shapes of the external contact portions 16a and 16b of the fourth embodiment are triangular. The external contact portions 16a and 16b are triangular, and the hypotenuses are arranged on the anode 1 and cathode 5 sides of the organic EL panel 10, so that the external contact portions 16a and 16b are compared with the fourth embodiment. The distance between the anode 1 and the cathode 5 of the organic EL panel 10 can be shortened, and the apparatus main body 11 can be further downsized.

この発明の第6の実施の形態を図16から図18に示す。第1の実施の形態と異なる点は、枠13の周辺部に沿って接触部14a、14bを兼ねた外部接触部16a、16bを設けたものである。外部接触部16a、16bは、有機ELパネル10の陽極1および陰極5との接触部14a、14bを略平面となるように銅による電路板にて形成している。この場合、枠13と枠12をつなぐ側端部22の外面に凹部20、21を形成するとともに外部接触部16a、16bを貫通する貫通部を形成している。   A sixth embodiment of the present invention is shown in FIGS. The difference from the first embodiment is that external contact portions 16 a and 16 b that also serve as contact portions 14 a and 14 b are provided along the periphery of the frame 13. The external contact portions 16a and 16b are formed by copper circuit boards so that the contact portions 14a and 14b with the anode 1 and the cathode 5 of the organic EL panel 10 are substantially flat. In this case, the recesses 20 and 21 are formed on the outer surface of the side end portion 22 connecting the frame 13 and the frame 12, and a through portion that penetrates the external contact portions 16a and 16b is formed.

枠12は、有機ELパネル10の発光面に対応して開口12aを形成している。一方、枠13は対角線上の分割部35から分離可能となっており、分割部35は一方が突条を形成し、他方が凹条を形成して凹凸嵌合することにより、枠13の結合が可能となっている。ここで、有機ELパネル10の発光面に対応して枠12に開口12aを形成しているため、枠13の分割部35を結合した際に生じる線が発光面にはないので、発光に影響を与えることがない。また、外部接触部16a、16bが対角部でそれぞれ分離されているため、枠13の分離時に外部接触部16a、16bを電気的に接続するための構造が不要であり、枠13の構造を簡素化でき、製造コストの低減が可能となる。   The frame 12 has an opening 12 a corresponding to the light emitting surface of the organic EL panel 10. On the other hand, the frame 13 can be separated from the diagonally divided portion 35, and one of the divided portions 35 forms a protrusion, and the other forms a recess, and the concave and convex fitting is performed. Is possible. Here, since the opening 12a is formed in the frame 12 corresponding to the light emitting surface of the organic EL panel 10, there is no line generated on the light emitting surface when the divided portions 35 of the frame 13 are joined. Never give. In addition, since the external contact portions 16a and 16b are separated from each other at the diagonal portions, a structure for electrically connecting the external contact portions 16a and 16b when the frame 13 is separated is not necessary. This simplifies the manufacturing cost.

以上のような構成の装置本体11としているため、外部接続部材15との電気的接続は、枠周縁部の任意の部分で接続が可能となる。   Since the apparatus main body 11 is configured as described above, the electrical connection with the external connection member 15 can be made at any part of the peripheral edge of the frame.

第6の実施の形態では、外部接続部材15は枠13の対角部を利用して接続した例を示している。外部接続部材15は枠13への係止を可能とするL字状の係止部36を両端に設け、その先端に被接続部27と電極18を形成している。係止部36の一方を開閉可能とし、枠13に形成した凹部20、21に両端の係止部36を嵌合し接続する。   In the sixth embodiment, an example in which the external connection member 15 is connected using the diagonal portion of the frame 13 is shown. The external connection member 15 is provided with L-shaped locking portions 36 that can be locked to the frame 13 at both ends, and the connected portion 27 and the electrode 18 are formed at the tips thereof. One of the locking portions 36 can be opened and closed, and the locking portions 36 at both ends are fitted and connected to the recesses 20 and 21 formed in the frame 13.

また、装置本体11のそれぞれの角部には陽極と陰極の外部接触部16a、16bがあるため、外部接続部材15の形状を変えることで、1箇所の角部の外部接触部16a、16bでの固定と給電が可能である(図示せず)。   In addition, since there are anode and cathode external contact portions 16a and 16b at each corner of the apparatus main body 11, by changing the shape of the external connection member 15, the external contact portions 16a and 16b at one corner can be changed. Can be fixed and fed (not shown).

なお、図16では、接触部14a、14bを兼ねた外部接触部16a、16bを平面上に延長して設けているので陽極または陰極が対向する辺に存在することになるが、枠13内で外部接触部16a、16bの位置を変えることで対向する辺に異なる電位の電極を接続可能となる。   In FIG. 16, the external contact portions 16a and 16b that also serve as the contact portions 14a and 14b are provided on a plane so that the anode or the cathode exists on the opposite side. By changing the positions of the external contact portions 16a and 16b, electrodes having different potentials can be connected to opposite sides.

この発明の第7の実施の形態を図19および図20に示す。すなわち、第5の実施の形態の複数の装置本体11を隣接させて配置した照明器具である。部材23aの凹部に外部接続部材15を用いて隣接する装置本体11を固定するとともに電極18と外部接触部16a、16bを接触する。なお枠12は発光部に開口12aを設け、発光部以外の周縁に導光部材を兼用して発光光を導光させ、枠12の全面を発光可能としている。なお電源は第5の実施の形態と同様に装置本体11の両端または外側の接続箇所の凹部から給電する(図示せず)。 A seventh embodiment of the present invention is shown in FIGS. That is, it is the lighting fixture which has arrange | positioned the several apparatus main body 11 of 5th Embodiment adjacent. The adjacent device body 11 is fixed to the concave portion of the member 23a using the external connection member 15, and the electrode 18 and the external contact portions 16a and 16b are brought into contact with each other. The frame 12 is provided with an opening 12a in the light emitting part, and the emitted light is guided along the periphery other than the light emitting part by using a light guide member so that the entire surface of the frame 12 can emit light. As in the fifth embodiment, the power is supplied from both ends of the apparatus main body 11 or from the recessed portions at the outside connection locations (not shown).

したがって、装置本体11を隣接して配置することで、照明器具としての発光面積の拡大が容易となる。このように、全面発光可能な装置本体11を隣接して配置しているので、大きな有機ELパネル10も用いることなく発光面積を増大させることが可能となる。また、配置場所の空間や必要な明るさなどの状況により、隣接させる組み合わせ方によって、長方形やライン状などの形状を自在に形成することができる。また、第6の実施の形態に示す装置本体11を使用すると、隣接する装置本体11の電極の配置により1つの外部接続部材15で直列、並列接続の選択が可能である。反対に外部接続部材15の電極18の配置や構造を変更することで、直列、並列接続を選択することも可能である。   Therefore, by arranging the apparatus main body 11 adjacent to each other, it becomes easy to expand the light emitting area as a lighting fixture. As described above, since the device main body 11 capable of emitting light on the entire surface is disposed adjacently, the light emitting area can be increased without using the large organic EL panel 10. In addition, a rectangular shape, a line shape, or the like can be freely formed depending on a combination method adjacent to each other in accordance with a situation such as a space of an arrangement place and necessary brightness. Further, when the apparatus main body 11 shown in the sixth embodiment is used, it is possible to select series connection or parallel connection with one external connection member 15 depending on the arrangement of the electrodes of the adjacent apparatus main bodies 11. Conversely, by changing the arrangement and structure of the electrodes 18 of the external connection member 15, it is possible to select series connection or parallel connection.

上記のように、上記実施の形態によれば、有機ELパネル10を収納する装置本体11において、枠12、13の外側表面より内側に、固定と電気的接続を同時に行える凹部20、21の接続箇所を設けることによって、配線処理が簡易で、隣接させる際に隙間が生じにくい手段を提供する。また、有機ELパネル10の陽極1および陰極5への電気的接続方法において、発光面が大型化しても発光むらの生じにくい手段も併せて提供する。   As described above, according to the above-described embodiment, in the apparatus main body 11 that houses the organic EL panel 10, the connection of the recesses 20 and 21 that can be fixed and electrically connected simultaneously inside the outer surfaces of the frames 12 and 13. Providing the location provides a means for simplifying the wiring process and hardly generating a gap when adjacent to each other. In addition, in the method of electrically connecting the organic EL panel 10 to the anode 1 and the cathode 5, there are also provided means for preventing uneven light emission even when the light emitting surface is enlarged.

この発明の第1の実施の形態の平面的にみた説明図である。It is explanatory drawing seen from the plane of 1st Embodiment of this invention. そのA−A′線断面図である。It is the AA 'sectional view taken on the line. その分解断面図である。FIG. (a)は接触部の側面図、(b)は底面図、(c)は電極への接触状態の側面図である。(A) is a side view of a contact part, (b) is a bottom view, (c) is a side view of the contact state to an electrode. (a)は別の実施の形態の接触部の側面図、(b)はその底面図、(c)は電極への接触状態の側面図である。(A) is a side view of the contact part of another embodiment, (b) is the bottom view, (c) is a side view of the contact state to an electrode. 外部接続部材と接続する接続前の接続部の断面図である。It is sectional drawing of the connection part before the connection connected with an external connection member. その接続状態の接続部の断面図である。It is sectional drawing of the connection part of the connection state. 第2の実施の形態の平面的にみた説明図である。It is explanatory drawing seen planarly of 2nd Embodiment. そのB−B′線断面図である。It is the BB 'sectional view taken on the line. 第3の実施の形態の平面的にみた説明図である。It is explanatory drawing seen planarly of 3rd Embodiment. (a)はその断面図、(b)は別の外部接続部材に接続する場合の断面図である。(A) is the sectional drawing, (b) is a sectional view in the case of connecting to another external connection member. 第4の実施の形態の平面的にみた説明図である。It is explanatory drawing seen planarly of 4th Embodiment. そのC−C′線断面図である。It is the CC 'sectional view taken on the line. その分解図である。It is the exploded view. 第5の実施の形態の平面的にみた説明図である。It is explanatory drawing seen planarly of 5th Embodiment. 第6の実施の形態の平面的にみた説明図である。It is explanatory drawing seen planarly of 6th Embodiment. そのE−E′線断面図である。It is the EE 'sectional view taken on the line. 図16のD−D′線断面図である。FIG. 17 is a cross-sectional view taken along the line DD ′ of FIG. 第7の実施の形態の断面図である。It is sectional drawing of 7th Embodiment. その発光面からみた平面図である。It is the top view seen from the light emission surface. 有機ELパネルの断面図である。It is sectional drawing of an organic electroluminescent panel. その平面図である。FIG. 斜視図である。It is a perspective view.

符号の説明Explanation of symbols

1 陽極
5 陰極
7 ガラス基板
10 有機ELパネル
11 装置本体
12 枠
13 枠
14a、14b 接触部
15 外部接続部材
16a、16b 外部接触部
17a、17b 配線部
18 電極
20、21 凹部
DESCRIPTION OF SYMBOLS 1 Anode 5 Cathode 7 Glass substrate 10 Organic EL panel 11 Apparatus main body 12 Frame 13 Frame 14a, 14b Contact part 15 External connection member 16a, 16b External contact part 17a, 17b Wiring part 18 Electrode 20, 21 Recessed part

Claims (6)

片面の周辺に沿って複数の電極を有する面発光パネルと、前記面発光パネルの前記片面に位置する第1の枠と他の片面に位置する第2の枠とを有し前記第1の枠と前記第2の枠の間に前記面発光パネルを収納するスペースを形成しかつ前記第1の枠および前記第2の枠の少なくとも一方が前記面発光パネルの発光を通すようにした装置本体とを備え、
前記第1の枠は、前記面発光パネルの前記片面が向く平面部を有し、前記平面部の側端に前記面発光パネルの前記スペースを形成する側端部を有し、前記第2の枠は前記側端部に取付けられており、
前記平面部は前記面発光パネルが収納された状態で前記複数の電極にそれぞれ接触する接触部を有し、前記側端部は外側面に接続部となる凹部を有し、前記側端部を貫通して前記凹部内に配置されるとともに配線部を介して前記接触部と接続された外部接触部を有し、前記凹部に外部接続部材の電極の付いた被接続部を挿入することにより、前記被接続部の電極が前記外部接触部に接触するとともに、前記装置本体が前記被接続部に固定される照明装置。
The first frame having a surface light-emitting panel having a plurality of electrodes along the periphery of one surface, a first frame located on the one surface of the surface light-emitting panel, and a second frame located on the other surface. An apparatus main body in which a space for housing the surface light emitting panel is formed between the second frame and at least one of the first frame and the second frame transmits light from the surface light emitting panel. With
The first frame has a flat surface portion on which the one surface of the surface light emitting panel faces, a side end portion that forms the space of the surface light emitting panel at a side end of the flat surface portion, and the second frame. The frame is attached to the side end,
The planar portion has contact portions that respectively contact the plurality of electrodes in a state in which the surface light emitting panel is accommodated, the side end portion has a concave portion serving as a connection portion on an outer surface, and the side end portion is By having an external contact portion that penetrates and is disposed in the concave portion and connected to the contact portion via a wiring portion, and inserting a connected portion with an electrode of an external connection member into the concave portion, An illuminating device in which an electrode of the connected portion is in contact with the external contact portion, and the apparatus main body is fixed to the connected portion .
前記複数の電極は一対の電極であり、前記外部接触部は前記一対の電極に対応して前記凹部に一対有し、前記被接続部の前記電極は前記一対の外部接触部に対応して一対有する請求項1記載の照明装置。 The plurality of electrodes are a pair of electrodes, the external contact portion has a pair in the recess corresponding to the pair of electrodes, and the electrode of the connected portion corresponds to the pair of external contact portions. The lighting device according to claim 1 . 前記接続部および前記被接続部の少なくとも一方は、他方を弾性的に保持するばね部を有する請求項1または請求項2記載の照明装置。   The lighting device according to claim 1, wherein at least one of the connection portion and the connected portion includes a spring portion that elastically holds the other. 片面の周辺に沿って複数の電極を有する面発光パネルと、前記面発光パネルの前記片面に位置する第1の枠と他の片面に位置する第2の枠とを有し前記第1の枠と前記第2の枠の間に前記面発光パネルを収納するスペースを形成しかつ前記第1の枠および前記第2の枠の少なくとも一方が前記面発光パネルの発光を通すようにした装置本体とを備え、
前記第1の枠は、前記面発光パネルの前記片面が向く平面部を有し、前記平面部の側端に前記面発光パネルの前記スペースを形成する側端部を有し、前記第2の枠は前記側端部に取付けられており、
前記平面部は前記面発光パネルが収納された状態で前記複数の電極にそれぞれ接触する接触部を有し、前記平面部の前記面発光パネルと反対側に固定用の部材を有し、前記部材の側面に凹部を有し、前記平面部を貫通して前記凹部に設けられるとともに同極同士が対角となるように前記平面部の角部に位置した外部接触部を有し、前記接触部と前記外部接触部を接続する配線部を有し、前記凹部に前記外部接続部材の一対の電極の付いた被接続部を挿入することにより、前記一対の電極が前記外部接触部に接触するとともに、前記装置本体が前記被接続部に固定される照明装置。
The first frame having a surface light-emitting panel having a plurality of electrodes along the periphery of one surface, a first frame located on the one surface of the surface light-emitting panel, and a second frame located on the other surface. An apparatus main body in which a space for housing the surface light emitting panel is formed between the second frame and at least one of the first frame and the second frame transmits light from the surface light emitting panel. With
The first frame has a flat surface portion on which the one surface of the surface light emitting panel faces, a side end portion that forms the space of the surface light emitting panel at a side end of the flat surface portion, and the second frame. The frame is attached to the side end,
The planar portion has contact portions that respectively contact the plurality of electrodes in a state in which the surface emitting panel is accommodated, and has a fixing member on the opposite side of the planar portion to the surface emitting panel. A concave portion on a side surface of the flat surface portion, and an external contact portion that is provided in the concave portion through the flat surface portion and located at a corner portion of the flat surface portion so that the same poles are diagonal to each other. And connecting the external contact portion to the external contact portion, and inserting the connected portion with the pair of electrodes of the external connection member into the recess, so that the pair of electrodes are in contact with the external contact portion. A lighting device in which the device main body is fixed to the connected portion .
前記第1の枠または前記第2の枠の発光面側を導光部材により形成した請求項1、請求項2、請求項3または請求項4記載の照明装置。 The lighting device according to claim 1, 2, 3, or 4, wherein a light-emitting surface side of the first frame or the second frame is formed by a light guide member . 請求項4の照明装置を複数用いた照明器具であって、複数の装置本体を相隣接したとき前記凹部同士が対向するように、前記凹部が前記枠の側面に溝状に形成され、前記外部接続部材が前記溝状の凹部の端部から挿入されることにより前記装置本体が前記外部接続部材に固定される照明器具。 5. A lighting fixture using a plurality of lighting devices according to claim 4, wherein the recesses are formed in a groove shape on a side surface of the frame so that the recesses face each other when a plurality of device main bodies are adjacent to each other. A lighting fixture in which the apparatus main body is fixed to the external connection member by inserting a connection member from an end of the groove-shaped recess .
JP2005186996A 2005-06-27 2005-06-27 Lighting device and lighting fixture Expired - Fee Related JP4432846B2 (en)

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JP2009158103A (en) * 2007-12-25 2009-07-16 Panasonic Electric Works Co Ltd El illumination device
US8450926B2 (en) * 2009-05-21 2013-05-28 General Electric Company OLED lighting devices including electrodes with magnetic material
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US20150034931A1 (en) * 2012-07-06 2015-02-05 Kaneka Corporation Organic el module and power supply structure made up of organic el modules
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