JP4569463B2 - Mounting device for organic EL lighting panel - Google Patents

Description

  The present invention relates to an organic EL lighting panel mounting apparatus for mounting an organic EL lighting panel using organic EL (electroluminescence) on a mounting surface such as a wall or a ceiling.

  Organic EL elements have been researched and developed for a relatively long time because they are brighter and clearer than liquid crystal elements because of self-luminescence. In particular, in 1987, Kodak's C.I. W. Since Tang et al. Proposed an organic EL device with a laminated structure, this device has been attracting attention because of its excellent power consumption, brightness, responsiveness, and viewing angle, and research and development on organic EL displays has been activated. Furthermore, in recent years, research and development for lighting applications has also become active.

  FIG. 7 is a cross-sectional view showing the configuration of the display device described in Patent Document 1. FIG. 8 is a diagram for explaining an assembly process of the display device.

  7, a display device 500 described in Patent Document 1 is connected to the display panel 512 by a rectangular flat panel display panel 512 such as a liquid crystal panel or an EL panel, and a flexible wiring substrate 516, and drives the display panel 512. The driving circuit board 517 and the frame 521 for holding the display panel 512 and the driving circuit board 517 are configured.

  The frame 521 includes a substrate portion 522 formed in a rectangular flat plate shape that is substantially the same shape as the display panel 512, and each peripheral edge of the substrate portion 522 extends along the circumferential direction of the peripheral edge of the substrate portion 522. Retaining ribs 523 and 524 that protrude toward the one main surface side and the other main surface side of the substrate portion 522 are formed. The holding rib 523 forms a fitting recess 525 into which the display panel 512 is fitted, and the holding rib 524 forms an arrangement recess 526 in which the drive circuit board 517 is provided.

  The inner peripheral surfaces of the holding ribs 523 and 524 of the frame 521 are each formed in a planar shape that stands vertically with respect to the surface direction of the substrate portion 522. An inclined surface portion 527 whose inner edge surface is inclined at a certain angle with respect to the normal direction to the surface direction of the display surface of the display panel 512 is formed at the upper end portion of the holding rib 523 on one side of the fitting recess 525. The positioning rib 528 is integrally formed.

  When assembling the display device 500 having such a configuration, first, a double-sided tape is attached to a predetermined position of the surface portion of the substrate portion 522 in the fitting recess 525 of the frame 521. Next, as shown in FIG. 8A, one side surface of the display panel 512 is applied to the slope portion 527 of the positioning rib 528 in the frame 521, and one side surface of the display panel 512 is placed on the positioning rib 528 of the frame 521. Are brought into surface contact with the inclined surface portion 527. And while ensuring the surface contact to the slope part 527 of the positioning rib 528 in the frame 521 by the one side surface of the display panel 512, the display panel 512 is placed along the slope part 527 of the positioning rib 528, 512, the other side surface of the display panel 512 is fitted into the fitting recess 525 of the frame 521, and the display panel 512 is inserted into the fitting recess 525 of the frame 521 as shown in FIG. Fix with double-sided tape. Through such a process, the display panel 512 is assembled to the frame 521.

  In the display device 500 having such a configuration, when the display device 500 is used so that gravity acts in the direction normal to the surface direction of the display surface of the display panel 512 and in the direction from the display panel 512 to the frame 521. In this case, the adhesive strength of the double-sided tape is not a problem, but when the display device 500 is used so that gravity acts in a direction substantially parallel to the surface direction of the display surface in the display panel 512, or in the display panel 512 When the display device 500 is used so that gravity acts in the direction normal to the surface direction of the display surface and in the direction from the frame 521 to the display panel 512, the adhesive strength of the double-sided tape becomes a problem.

  Therefore, the organic EL lighting panel is held by the organic EL lighting panel mounting apparatus having the structure shown in FIG. FIG. 9 is a perspective view showing the structure of an organic EL lighting panel mounting apparatus according to the background art.

  In FIG. 9, the organic EL lighting panel mounting device 600 includes a long plate-like back wall portion 601 and perpendicular to the back wall portion 601 in the same direction from both end edges of the back wall portion 601. The pair of side wall portions 602-1 and 602-2 that are extended and the side wall portions 602-1 and 602-1 toward the inside from the respective end edges of the pair of side wall portions 602-1 and 602-2. A pair of front wall portions 603-1 and 603-2 extending vertically are provided. A power feeding unit 604 for supplying power to the organic EL lighting panel 700 is formed on the inner surface of the back wall 601 at a predetermined position.

When attaching the organic EL lighting panel 700 to such an organic EL lighting panel mounting device 600, the back wall portion 601, the side wall portions 602-1 and 602-2, and the front wall portion from the opening 611 at one end in the longitudinal direction. A pair of spaces 621-1 and 621-2 having a substantially U-shaped cross-section formed by 603-1 and 603-2 are arranged on both side ends 701-1 and 701-2 in the organic EL lighting panel 700 having a rectangular flat plate shape. The organic EL lighting panel 700 is attached to the organic EL lighting panel mounting device 600 by being fitted and sliding the organic EL lighting panel 700 to the position where the pair of spaces 621-1 and 621-2 are disposed in the longitudinal direction. It is done. In the case where the plurality of organic EL lighting panels 700 are attached to the organic EL lighting panel mounting apparatus 600, the plurality of organic EL lighting panels 700 are organically fed by sequentially sending the plurality of organic EL lighting panels 700 in the same procedure. It is attached to the EL lighting panel mounting device 600.
Japanese Patent Laid-Open No. 2003-157023

  By the way, in the organic EL lighting panel mounting device 600 having a duct structure shown in FIG. 9, the organic EL lighting panel 700 is slid to the position where the pair of spaces 621-1 and 621-2 are arranged in the longitudinal direction. Since the lighting panel 700 is mounted on the organic EL lighting panel mounting device 600, if the organic EL lighting panel 700 fails after the organic EL lighting panel 700 is mounted on the organic EL lighting panel mounting device 600, the failed organic EL In order to replace the lighting panel 700, it is necessary to remove the organic EL lighting panel 700 existing between the failed organic EL lighting panel 700 and the opening 611. For this reason, there is an inconvenience that it is complicated and time-consuming. Then, after the construction in which the organic EL lighting panel mounting device 600 is disposed on a mounting surface such as a wall or a ceiling, when an attempt is made to further increase the organic EL lighting panel 700, a pair of spaces from one open port 611 in the longitudinal direction. Since the organic EL lighting panel 700 is fitted and slid on 621-1 and 621-2, a space having an area corresponding to the organic EL lighting panel 700 is required outside the opening 611.

  Further, since the organic EL lighting panel 700 is fitted and slid into the pair of spaces 621-1 and 621-2 from the one open port 611 in the longitudinal direction, the power feeding unit 604 formed on the inner surface of the back wall 601 and the like. However, since it rubs against the organic EL lighting panel 700, there is a disadvantage that it is damaged.

  This invention is made | formed in view of the said situation, and it aims at providing the attachment apparatus for organic EL lighting panels which can attach an organic EL lighting panel easily.

  As a result of various studies, the present inventor has found that the above object is achieved by the present invention described below. That is, in one aspect according to the present invention, a plate-like back wall portion and a pair of side walls extending perpendicularly to the back wall portion in the same direction from the edges on both sides of the back wall portion. In the mounting device for an organic EL lighting panel, comprising: a front portion and a pair of front wall portions extending perpendicularly to the side walls from the respective end edges of the pair of side walls. A concave portion is formed on the inner surface of the wall portion in the direction along the one side wall portion near the one side wall portion.

  And in the above-mentioned mounting apparatus for organic EL lighting panels, the power feeding part for supplying electric power to the organic EL lighting panel is formed near the other side wall part.

  Furthermore, in the above-described mounting device for an organic EL lighting panel, an elastic member that biases in the direction of the other side wall is provided on the inner surface of the one side wall.

  In the organic EL lighting panel mounting apparatus having such a configuration, the organic EL lighting panel can be easily mounted on the organic EL lighting panel mounting apparatus as compared with the background art.

Embodiments according to the present invention will be described below with reference to the drawings. In addition, the structure which attached | subjected the same code | symbol in each figure shows that it is the same structure, The description is abbreviate | omitted. Further, in this specification, when referring generically, it is indicated by a reference symbol without a suffix, and when referring to an individual configuration, it is indicated by a reference symbol with a suffix.
(First embodiment)
FIG. 1 is a diagram illustrating a configuration of an organic EL lighting panel mounting apparatus according to the first embodiment. FIG. 1A is a perspective view of an organic EL lighting panel mounting apparatus, and FIG. 1B is a cross-sectional view of the organic EL lighting panel mounting apparatus at a position including a feeding electrode. FIG. 2 is a cross-sectional view for explaining the dimensions of each part in the organic EL lighting panel mounting apparatus.

  In FIG. 1, the mounting device 1 for an organic EL lighting panel according to the first embodiment includes a plate-like back wall portion 11 and back wall portions 11 facing in the same direction from both end edges of the back wall portion 11. A pair of side wall portions 12 (12-1, 12-2) extending perpendicularly to each other, and extending vertically from the respective end edges of the pair of side wall portions 12 to the side wall portion 12 toward the inside. And a pair of front wall portions 13 (13-1, 13-2) provided. And the cross-sectional shape for hold | maintaining the organic electroluminescent illumination panel 100 by the back wall part 11, the side wall part 12 (12-1, 12-2), and the front wall part 13 (13-1, 13-2) is abbreviate | omitted. A pair of U-shaped holding spaces 15 (15-1, 15-2) is formed. The width of the back wall 11, that is, the width of the organic EL lighting panel mounting apparatus 1 is appropriately determined according to the width of the organic EL lighting panel 100 to be mounted, the number of the panel, and the like. In this embodiment, since the organic EL lighting panel mounting apparatus 1 is configured so that a plurality of organic EL lighting panels 100 can be mounted, the back wall portion 11 is long.

  Here, first, it should be noted that the inner wall of the inner wall 11 of the organic EL lighting panel mounting apparatus 1 is closer to one side wall 12 (in the example shown in FIG. 1, the upper side wall 12 in the figure). -1)), the recess 16 is formed in the direction along the one side wall 12-1. In the example shown in FIG. 1, the recess 16 has a substantially rectangular cross section and is formed in the longitudinal direction, and the side surface 16 a near the one side wall 12-1 (upper in the drawing in the example shown in FIG. 1) This is continuous with the inner surface 12a-1 of the side wall portion 12-1. Further, when the organic EL lighting panel mounting device 1 is viewed from the front indicated by the arrow X in FIG. 1, the concave portion 16 has one front wall portion 13 (see FIG. 1) extending to the one side wall portion 12-1. In the example shown, it is formed in such a size that a part of the concave portion 16 can be seen without being hidden (not shielded) by the upper front wall portion 13-1) in the drawing.

  More specifically, as shown in FIG. 2, the length of the back wall portion 11 is L1, the thickness of one side wall portion 12-1 is L3, the length of the one front wall portion 13-1 is L4, The length from one side of the organic EL lighting panel mounting device 1 to the end of the one front wall 13-1 is L2, and the other side wall 12 (in the example shown in FIGS. The thickness of the side wall portion 12-2) is L7, the length of the other front wall portion 13 (the lower front wall portion 13-2 in the example shown in FIGS. 1 and 2) is L6, and the mounting for the organic EL lighting panel The length from the other side of the apparatus 1 to the end of the other front wall 13-2 is L5, the length of the recess 16 is L8, and the side surface 16a of the recess 16 near the one side wall 12-1 is the above. When it is continuous with the inner surface 12a-1 of one of the side wall portions 12-1, the end portion of the one front wall portion 13-1 is connected to the concave portion 16. The distance to the extension line of the side surface 16b facing the side surface 16a is L9, the thickness of the organic EL lighting panel mounting device 1 (the thickness from the outer surface of the back wall portion 11 to the outer surface of the front wall portion 13) is W1, and the concave portion 16 The thickness of the back wall portion 11 of the portion where the surface is formed is W2, the depth of the recess portion 16 is W5, the height of the side wall portion 12 (thickness of the holding space 15) is W6, and the bottom surface 16c of the recess portion 16 is The distance to the inner surface of the wall 13-1 is W3, the thickness of the front wall 13 is W4, the length of the organic EL lighting panel 100 attached to the organic EL lighting panel mounting device 1 is PL, and the thickness is If it is PW, as will be described later, the organic EL lighting panel 100 is organically formed through an opening 19 formed by the end of the one front wall 13-1 and the end of the other front wall 13-2. EL lighting panel mounting device 1 In order to be able to be attached, the depth W5 of the recess 16 is 1.5 times or more (W5 ≧ 1.5 × PW) of the thickness PW of the organic EL lighting panel 100, and the one front wall portion is The distance L9 from the end of 13-1 to the extended line of the side surface 16b in the recess 16 is 1.5 times or more the thickness PW of the organic EL lighting panel 100 (L9 ≧ 1.5 × PW).

  Further, in order to be able to hold the organic EL lighting panel 100 inserted into the organic EL lighting panel mounting apparatus 1 through the opening 19 by the holding spaces 15-1 and 15-2, the other front wall is used. The length L6 of the portion 13-2 is 5% or more of the length PL of the organic EL lighting panel 100 (L6 ≧ PL × 0.05), and the length L4 of the one front wall portion 13-1 is It is a length (L4 ≧ PL × 0.05 + L6) obtained by adding 5% or more of the length PL of the organic EL lighting panel 100 to the length L6 of the other front wall portion 13-2.

  For this reason, the length L8 of the recess 16 is L4 + L9. In addition, there are relationships of L2 = L3 + L4, L5 = L6 + L7, W1 = W2 + W3 + W4, and W3 = W5 + W6.

  As a specific example, when the length, width and thickness of the organic EL lighting panel 100 are 300 mm, 300 mm and 3 mm, respectively, for example, L1 = 328 mm, L2 = 34 mm, L3 = L7 = 4 mm, L4 = 30 mm, L5 = 19 mm, L6 = 15 mm, L8 = 35 mm, L9 = 5 mm, W1 = 18 mm, W2 = W4 = 4 mm, W3 = 10 mm, W5 = 6 mm, W6 = 4 mm. The length and width of the organic LE lighting panel 100 vary depending on the specifications depending on the purpose of use and the like, but the thickness is generally 3 mm or less.

  Returning to FIG. 1, secondly, it should be noted that in the organic EL lighting panel mounting apparatus 1, a power supply electrode 14 for supplying power to the organic EL lighting panel is close to the other side wall portion 12-2. Is formed. In the example shown in FIG. 1, one power supply electrode 14-1 of the pair of power supply electrodes 14 is formed near the other side wall portion 12-2 on the inner surface 11 a of the back wall portion 11. The other feeding electrode 14-2 is formed on the inner surface 12a-2 of the other side wall.

  The organic EL lighting panel 100 attached to the organic EL lighting panel mounting device 1 having such a configuration sandwiches an organic light emitting layer including at least a light emitting layer between a pair of first and second electrode layers, at least one of which is translucent. An organic EL layer is provided on a light-transmitting substrate, and a sealing member that seals the organic EL layer in cooperation with the substrate is provided.

  One configuration example of such an organic EL lighting panel 100 will be described more specifically. FIG. 3 is a diagram showing a configuration of the organic EL lighting panel. 3A is a rear view of the organic EL lighting panel, and FIG. 3B is a cross-sectional view taken along the line AA shown in FIG.

  In FIG. 3, the organic EL lighting panel 100 includes a substrate 111, a first electrode layer 112 stacked on one surface of the substrate 111, an organic light emitting layer 113 stacked on the first electrode layer 112, and organic light emission. A second electrode layer 114 stacked on the layer 113, first and second sealing members 115 and 116, and a pair of power receiving electrodes 117 (117-1 and 117-2) are provided.

  The substrate 111 has a rectangular flat plate shape for supporting an organic EL layer formed by sandwiching an organic light emitting layer 113 including at least a light emitting layer by a pair of first and second electrode layers 112 and 114 each having at least one light transmitting property. The member is made of a material that is transparent to the wavelength of light emitted from the organic light emitting layer 113, such as glass.

  The first electrode layer 112 is a conductive thin film made of a material transparent to the wavelength of light emitted from the organic light emitting layer 113, and serves as an anode. Since the organic light emitting layer 113 emits visible light, the first electrode layer 112 is formed of, for example, ITO (Indium Tin Oxide) that transmits visible light.

The organic light emitting layer 113 includes at least a light emitting layer made of an organic material of a fluorescent material or an organic material containing a fluorescent material, and if necessary, a hole injection layer, a hole transport layer, an electron transport layer, and an electron injection. Provide layers. More specifically, when the first and second electrode layers 112 and 114 are also described, for example, the layer structure is as follows.
(1) (first electrode layer 112; anode) / light emitting layer / (second electrode layer 114; cathode)
(2) (first electrode layer 112; anode) / hole transport layer / light emitting layer / (second electrode layer 114; cathode)
(3) (first electrode layer 112; anode) / light emitting layer / electron transport layer / (second electrode layer 114; cathode)
(4) (first electrode layer 112; anode) / hole transport layer / light emitting layer / electron transport layer / (second electrode layer 114; cathode)
(5) (first electrode layer 112; anode) / hole injection layer / hole transport layer / light emitting layer / electron transport layer / electron injection layer / (second electrode layer 114; cathode)
The second electrode layer 114 is a conductive thin film and serves as a cathode. The second electrode layer 114 may be formed of a material that is transparent with respect to the wavelength of light emitted from the organic light emitting layer 113, similarly to the first electrode layer 112, but in this embodiment, the organic light emitting layer 113 emits light. In order to increase the light extraction efficiency, it is formed from a material that reflects light emitted from the organic light emitting layer 113. The second electrode layer 114 is formed of a metal, an alloy, or the like such as aluminum (Al), aluminum lithium (Al: Li), and magnesium silver (Mg: Ag). In the present embodiment, for example, the second electrode layer 114 is formed of, for example, aluminum from the viewpoint of conductivity, reflectance, cost, and the like.

  Here, the first electrode layer 112 is formed so that a part of the first electrode layer 112 is exposed from the first sealing member 115, and a part of the first electrode layer 112 is a bottom surface (in the example shown in FIG. 2, the bottom surface). ), One power receiving electrode 117-1 for receiving power supply is formed. The second electrode layer 114 is formed so that a part of the second electrode layer 114 is exposed from the first sealing member 115, and a part of the second electrode layer 114 is supplied with power so as to be exposed on the back surface of the organic EL lighting panel 100. The other power receiving electrode 117-2 for receiving is formed.

  The first and second sealing members 115 and 116 are insulating members for hermetically sealing the organic light emitting layer 113 in cooperation with the substrate 111. For example, a resin-made first sealing member 115 having an adhesive property is applied so as to cover the first electrode layer 112, the organic light emitting layer 113, and the second electrode layer 114 excluding the above-mentioned part. The second sealing member 116 made of a member is placed on the second electrode layer 114 via the first sealing member 115 and pressure is applied thereto, whereby the second sealing member 116 is moved to the first sealing member 115. Is bonded to the second electrode layer 114, and the peripheral edge of the second sealing member 116 is hermetically bonded and bonded to the substrate 111 by the first sealing member 115. Accordingly, the first and second sealing members 115 and 116 hermetically seal the organic light emitting layer 113 in cooperation with the substrate 111.

  In the organic EL lighting panel 100 having such a configuration, the organic light emitting layer 113 emits light by supplying direct current power between the first electrode layer 112 and the second electrode layer 114. The light emitted from the organic light emitting layer 113 is a surface on which the organic EL layer formed by sandwiching the organic light emitting layer 113 between the pair of first and second electrode layers 112 and 114, that is, the first electrode layer 112. Is emitted as output light of the organic EL lighting panel 100 from the other surface (light emitting surface) opposite to the one surface on which is formed.

  Such an organic EL lighting panel 100 is manufactured by, for example, the following steps. First, a rectangular ITO first electrode layer 112 is formed at a substantially central portion on a rectangular glass substrate 111. Next, the substrate 111 on which the ITO thin film of the first electrode layer 112 is formed is subjected to ultrasonic cleaning with acetone, isopropyl alcohol (both manufactured by Kanto Chemical Co., Ltd.), Semico Clean (manufactured by Furuuchi Kagaku), and ultrapure water, respectively. After washing, it is washed with isopropyl alcohol vapor and dried. Next, surface treatment of the substrate 111 on which the ITO thin film of the first electrode layer 112 is formed is performed by an atmospheric pressure plasma surface treatment apparatus (manufactured by Matsushita Electric Works Co., Ltd.).

  Next, using a mask for an organic light emitting layer having an opening, 4,4′-bis [N- (naphthyl) -N-phenyl-amino] biphenyl (α-NPD) was deposited, and Alq3 was doped with coumarin. Deposit a layer. Next, Alq3 is vapor-deposited and LiF is vapor-deposited. Thereby, the organic light emitting layer 113 is formed.

  Next, aluminum is vapor-deposited using the 2nd electrode mask which has an opening part, and the 2nd electrode layer 114 of aluminum is formed.

  Next, the power receiving electrode 117-1 is electrically connected to the first electrode layer 112, and the power receiving electrode 117-2 is electrically connected to the second electrode layer 114. As a second sealing member 116 having a notch, a glass plate is adhered to the substrate 111 with an epoxy adhesive as the first sealing member 115 so as to be hermetically sealed. Then, the power receiving electrode 117-2 is electrically connected to the second electrode layer 114. Thereby, the organic EL lighting panel 100 shown in FIG. 1 is manufactured.

  Next, an attachment method for attaching the organic EL lighting panel 100 to the organic EL lighting panel attachment device 1 will be described. FIG. 4 is a diagram for explaining a mounting method for mounting the organic EL lighting panel on the organic EL lighting panel mounting apparatus according to the first embodiment.

  First, as shown in FIG. 4A, one side surface (bottom surface in the example shown in FIG. 3) on which the power receiving electrode 117 of the organic EL lighting panel 100 is formed is the feeding electrode of the mounting device 1 for the organic EL lighting panel. 14 from the opposite side surface (upper surface in the example shown in FIG. 3) facing the one side surface (bottom surface) so as to face the other side wall portion 12-2 on which the 14 is formed. Is inserted into a space formed between the end portion of the front wall portion 13-1 and the upper end of the side surface 16 b of the concave portion 16, and one side edge on the opposite side surface (upper surface) of the organic EL lighting panel 100 is formed into the concave portion 16. It is applied to the bottom surface 16c or the side surface 16a of the recess 16 (ST1).

  Next, as shown in FIG. 4 (B), the organic EL lighting panel 100 is rotated so that the back surface of the organic EL lighting panel 100 hits the inner surface of the back wall portion 11 of the organic EL lighting panel mounting device 1. The organic EL lighting panel 100 is inserted into the organic EL lighting panel mounting device 1 through the opening 19 formed by the end of one front wall 13-1 and the end of the other front wall 13-2. (ST2).

  Thus, the organic EL lighting panel 100 is inserted into the organic EL lighting panel mounting device 1, and the end portion on the opposite side surface (upper surface) side of the organic EL lighting panel 100 is the back wall portion 11, and the one side wall portion. 12-1 and the one front wall portion 13-1 are disposed in a holding space 15-1. Here, if the concave portion 16 is not formed, the organic EL lighting panel 100 has an end portion on the opposite side surface (upper surface) side of the inner surface 11a of the back wall portion 11 and the one side wall portion 13-1. Although it is restricted by the inner surface 12a-1 and cannot be rotated, since the recess 16 is formed, the organic EL lighting panel 100 has an end on the opposite side surface (upper surface) side at the inner surface of the back wall portion 11. 11a and the inner wall 12a-1 of the one side wall 13-1 can be rotated without being restricted. In addition, since the power supply electrode 14 is formed near the other side wall 12-2, when the organic EL lighting panel 100 is rotated, the organic EL lighting panel 100 can be prevented from being damaged. it can.

  And as shown in FIG.4 (C), the edge part by the side of the said 1 side (bottom face) in which the receiving electrode 117 of the organic electroluminescent illumination panel 100 is formed is the back wall part 11, and the said other side wall part 12-. 2 and the organic EL lighting panel 100 is moved toward the other side wall portion 12-2 so as to fit into the holding space 15-2 formed by the other front wall portion 13-2 (ST3). Thereby, the end portion on the one side surface (bottom surface) side of the organic EL lighting panel 100 is fitted into the holding space 15-2 so that the back wall portion 11, the other side wall portion 12-2, and the other front wall portion. 13-2, and the end of the organic EL lighting panel 100 on the opposite side surface (upper surface) side is disposed in the holding space 15-1, and is held by the one front wall portion 13-1. Then, the pair of power receiving electrodes 117 in the organic EL lighting panel 100 is electrically connected to the pair of power feeding electrodes 14 in the organic EL lighting panel mounting apparatus 1. The power supply electrode 14-1 formed on the inner surface 11 a of the back wall portion 11 is connected to the power receiving electrode 117-2 in the organic EL lighting panel 100 more reliably. 11 may be configured to have elasticity so that a biasing force works in the direction from 11 to the front wall portion 13.

  In the organic EL lighting panel mounting apparatus 1 having the above configuration, as described above, the organic EL lighting panel 100 is mounted from the front opening 19 formed between the end portions of the front wall portions 13. Inserted into the device 1 and attached. Therefore, the organic EL lighting panel 100 can be easily attached to the organic EL lighting panel mounting device 1 as compared with the background art, and the workability is improved.

  Then, the organic EL lighting panel 100 is directly inserted into and attached to the mounting position 1 for the organic EL lighting panel at the arrangement position. For this reason, even if the organic EL lighting panel 100 breaks down after the organic EL lighting panel 100 is mounted on the organic EL lighting panel mounting device 1, the organic EL lighting panel mounting device 1 having the above-described configuration causes the organic EL lighting panel 100 to fail. Since only the lighting panel 100 can be removed, there is no need to remove the other organic EL lighting panel 100. For this reason, in the mounting apparatus 1 for organic EL lighting panels of the said structure, a effort is reduced compared with background art.

  Further, after the construction in which the organic EL lighting panel mounting device 1 is disposed on a mounting surface such as a wall or a ceiling, when the organic EL lighting panel 100 is to be additionally installed, the organic EL lighting panel mounting device 1 having the above configuration is used. Then, the additional organic EL lighting panel 100 can be directly inserted and attached to the organic EL lighting panel mounting apparatus 1 at the additional position. For this reason, in the organic EL lighting panel mounting apparatus 1 having the above-described configuration, a space having an area corresponding to the organic EL lighting panel 100 is not required on one outer side of the organic EL lighting panel mounting apparatus 1 as in the background art.

  Furthermore, the organic EL lighting panel 100 is inserted and attached directly to the mounting device 1 for the organic EL lighting panel at the position where the organic EL lighting panel 100 is disposed. For this reason, damage to the feeding electrode 14 is reduced as compared with the background art.

Next, another embodiment will be described.
(Second Embodiment)
FIG. 5 is a diagram illustrating a configuration of an organic EL lighting panel mounting apparatus according to the second embodiment. FIG. 5A is a perspective view of the organic EL lighting panel mounting apparatus, and FIG. 5B is a cross-sectional view of the organic EL lighting panel mounting apparatus at a position including the feeding electrode.

  In FIG. 5, the organic EL lighting panel mounting device 2 according to the second embodiment includes a long plate-like back wall portion 21 and edges on both sides of the back wall portion 21, as in the first embodiment. A pair of side wall portions 22 (22-1 and 22-2) extending perpendicularly to the back wall portion 21 in the same direction from each other and inward from the respective end edges of the pair of side wall portions 22 A pair of front wall portions 23 (23-1, 23-2) extending perpendicularly to the side wall portion 22 and the other side wall portion 22 (22-1 in the example shown in FIG. 5) are formed. And a pair of power feeding electrodes 24 (24-1, 24-2) for supplying power to the organic EL lighting panel 100, and the inner wall 21a of the back wall 21 has one side wall 22 (FIG. 5). In the example shown in FIG. 4, a concave portion having a substantially rectangular cross section in the longitudinal direction near the lower side wall portion 22-2) in the drawing. 6 is formed.

  That is, in the organic EL lighting panel mounting apparatus 1 according to the first embodiment, the recess 16 is formed in the upper part in FIG. 1 and the power supply electrode 14 is formed in the lower part in FIG. 1, but according to the second embodiment. In the organic EL lighting panel mounting apparatus 2, the recess 26 is formed in the lower part in FIG. 5, and the feeding electrode 24 is formed in the upper part in FIG. 5.

  It should be noted that in the organic EL lighting panel mounting device 2 according to the second embodiment, the organic EL lighting panel 100 is brought into contact with the power supply electrode 24 formed near the other side wall 22-1. Therefore, an urging mechanism 30 for urging in the direction of the other side wall portion 22-1 is provided on the inner surface of the one side wall portion 22-2.

  The urging mechanism 30 includes an elastic member 31, a support member 32, and a stopper member 33.

  The elastic member 31 is a member that biases in the direction of the other side wall portion 22-1 and is, for example, a spring such as a leaf spring or a helical spring. The elastic member 31 is disposed in a disposition recess 27 formed at a position corresponding to the mounting position of the organic EL lighting panel 100 on the inner surface of the one side wall portion 22-2.

  The support member 32 is a plate-like member that is fixed to the elastic member 31 and transmits the elastic force of the elastic member 31 to the organic EL lighting panel 100 and supports the attached organic EL lighting panel 100.

  The stopper member 33 is a member for switching between a compressed state of the elastic member 31 and a released state in which the compressed state is released. In the present embodiment, the stopper member 33 is a plate that can be inserted into and removed from a through hole 28 (see FIG. 6D) formed at a position corresponding to the disposition recess 27 in the one front wall portion 23-2. In the compressed state of the elastic member 31, the elastic member 31 and the support member 32 are accommodated in the arrangement recess 27. In the compressed state of the elastic member 31, the through hole 28 is formed at a height at which the outer surface of the stopper member 33 is substantially flush with the inner surface of the one side wall portion 22-2.

  Next, a mounting method for mounting the organic EL lighting panel 100 to the organic EL lighting panel mounting apparatus 2 will be described. FIG. 6 is a view for explaining a mounting method for mounting the organic EL lighting panel on the organic EL lighting panel mounting apparatus according to the second embodiment.

  First, as shown in FIG. 6A, one side surface (bottom surface in the example shown in FIG. 3) on which the power receiving electrode 117 of the organic EL lighting panel 100 is formed is the feeding electrode of the mounting device 2 for the organic EL lighting panel. 24, the organic EL lighting panel 100 is placed on one side from the opposite side surface (upper surface in the example shown in FIG. 3) facing the one side surface (bottom surface) so as to face the other side wall portion 22-1. It is inserted into a space formed between the end portion of the front wall portion 23 (the front wall portion 23-2 in the example shown in FIG. 5) and the upper end of the side surface 26b in the concave portion 26, and the above-described opposite side surface of the organic EL lighting panel 100 One side edge of (upper surface) is applied to the bottom surface 26c of the recess 26 or the side surface 26a of the recess 26 (ST11). The side surface 26a of the concave portion 26 is a side surface continuous with the inner surface of the one side wall portion 22-2, and the side surface 26b of the concave portion 26 is a side surface facing the side surface 26a.

  Next, as shown in FIG. 6 (B), the organic EL lighting panel 100 is rotated so that the back surface of the organic EL lighting panel 100 hits the inner surface of the back wall portion 21 of the organic EL lighting panel mounting device 2. The organic EL lighting panel 100 is opened from the opening 29 formed by the end of one front wall 23-2 and the end of the other front wall 23 (the front wall 23-1 in the example shown in FIG. 5). It is inserted into the organic EL lighting panel mounting apparatus 2 (ST12). Accordingly, the organic EL lighting panel 100 is inserted into the organic EL lighting panel mounting device 2, and the end portion on the opposite side surface (upper surface) side of the organic EL lighting panel 100 is the back wall portion 21, and the one side wall portion. 22-2 and the holding space 25-2 formed by the one front wall portion 23-2.

  Here, when the organic EL lighting panel 100 is rotated, the elastic member 31 and the support member 32 are accommodated in the arrangement recess 27 by the stopper member 33, so that there is no obstacle.

  Then, as shown in FIG. 6C, the stopper member 33 is removed from the through hole 28 (ST13). As a result, the compression of the elastic member 31 is released to shift from the compressed state to the released state, and as shown in FIG. 6 (D), the elastic member 31 is supported by the elastic force of the organic EL lighting panel 100 via the support member 32. Is moved toward the other side wall portion 22-1, and the end on the one side surface (bottom surface) side where the power receiving electrode 117 of the organic EL lighting panel 100 is formed is the back wall portion 11, the other side wall portion. It fits into the holding space 25-1 formed by the portion 22-1 and the other front wall portion 23-1 (ST14). Thereby, the end portion on the one side surface (bottom surface) side of the organic EL lighting panel 100 is fitted into the holding space 25-1, and the back wall portion 21, the other side wall portion 22-1, and the other front wall portion. 23-1 and the end portion on the opposite side surface (upper surface) side of the organic EL lighting panel 100 is disposed in the holding space 25-2 and held by the one front wall portion 23-2. Then, the pair of power receiving electrodes 117 in the organic EL lighting panel 100 is electrically connected to the pair of power feeding electrodes 24 in the organic EL lighting panel mounting device 2. The organic EL lighting panel 100 is supported by the elastic member 31 while being biased in the direction from the one side wall portion 22-2 to the other side wall portion 22-1 via the support member 32.

  The organic EL lighting panel mounting apparatus 2 having the above-described configuration has the same functions and effects as those of the organic EL lighting panel mounting apparatus 1 according to the first embodiment. Furthermore, since the organic EL lighting panel 100 attached to the organic EL lighting panel mounting device 2 is biased by the elastic member 31 via the support member 32, the pair of power receiving electrodes 117 in the organic EL lighting panel 100 is organic. It is more reliably electrically connected to the pair of power supply electrodes 24 in the EL lighting panel mounting apparatus 2.

  In the first and second embodiments described above, the recesses 16 and 26 have a substantially rectangular cross section, and the side surfaces 16a and 26a near the one side wall portion 12-1 and 22-2 correspond to the one side wall. The side surfaces 16a and 26a near the one side wall portions 12-1 and 22-2 and the inner surfaces of the one side wall portions 12-1 and 22-2 are continuous with the inner surfaces of the portions 12-1 and 22-2. The inner surfaces of the back wall portions 11 and 21 may be present between them and may be discontinuous.

  And in the above-mentioned 1st and 2nd embodiment, although the recessed parts 16 and 26 are cross-sectional substantially rectangular shapes, it is not limited to this. The recesses 16 and 26 are such that the opposite side (upper surface) end of the organic EL lighting panel 100 is formed by the inner surfaces 11a and 21a of the back wall portions 11 and 21 and the inner surfaces of the one side wall portions 13-1 and 23-2. The cross-sectional shape can be rotated without being restricted, and for example, an arc shape such as a substantially semicircular or semi-elliptical cross section may be used.

  Further, in the first and second embodiments described above, the pair of power supply electrodes 14 and 24 are arranged near the other side wall portions 13-2 and 23-1 on the inner surfaces 11a and 21a of the back wall portions 11 and 21 and the above. Although it formed in the inner surface of the other side wall part, it is not limited to this. The pair of power supply electrodes 14 may be formed near the other side wall portions 13-2 and 23-1 on the inner surfaces 11a and 21a of the back wall portions 11 and 21, and the pair of power supply electrodes 14 May be formed on the inner surfaces of the side wall portions 13-2 and 23-1.

It is a figure which shows the structure of the attachment apparatus for organic EL lighting panels which concerns on 1st Embodiment. It is sectional drawing for demonstrating the dimension of each part in the attachment apparatus for organic EL lighting panels. It is a figure which shows the structure of an organic electroluminescent illumination panel. It is a figure for demonstrating the attachment method which attaches an organic electroluminescent illumination panel to the attachment apparatus for organic electroluminescent illumination panels which concerns on 1st Embodiment. It is a figure which shows the structure of the attachment apparatus for organic EL lighting panels which concerns on 2nd Embodiment. It is a figure for demonstrating the attachment method which attaches an organic electroluminescent illumination panel to the attachment apparatus for organic electroluminescent illumination panels which concerns on 2nd Embodiment. 10 is a cross-sectional view illustrating a configuration of a display device described in Patent Document 1. FIG. It is a figure for demonstrating the assembly process of a display apparatus. It is a perspective view which shows the structure of the attachment apparatus for organic EL lighting panels which concerns on background art.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 2 Organic EL lighting panel attachment apparatus 11, 21 Back wall part 12, 22 Side wall part 13, 23 Front wall part 14, 24 Feed electrode 16, 26 Recess 30 Energizing mechanism 31 Elastic member

Claims (3)

A plate-like back wall, a pair of side walls extending perpendicularly to the back wall from the edges on both sides of the back wall in the same direction, and each of the pair of side walls A mounting device for an organic EL lighting panel comprising a pair of front wall portions each extending perpendicularly to the side wall portion from the edge of each inward toward each other,
An attachment device for an organic EL lighting panel, wherein a concave portion is formed in an inner surface of the back wall portion in a direction along the one side wall portion near one side wall portion. The organic EL lighting panel mounting device according to claim 1, wherein a power feeding unit for supplying power to the organic EL lighting panel is formed near the other side wall. The organic EL lighting panel mounting device according to claim 1, wherein an elastic member that biases the inner surface of the one side wall portion in the direction of the other side wall portion is provided.

Images