WO2016117439A1 - Surface light-emission module - Google Patents

Abstract

This surface light-emission module (100A) is provided with: a first sealing sheet (30); a second sealing sheet (40) which is disposed facing the first sealing sheet (30), and which is joined to the first sealing sheet (30); a surface light-emission element (10) provided with a light-emission surface; and a circuit board (20) which controls the lighting of the surface light-emission element (10), and which is disposed so as to not obstruct the light emitted from the light-emission surface. The first sealing sheet (30) and the second sealing sheet (40) are flexible. The surface light-emission element (10) and the circuit board (20) are sealed by the first sealing sheet (30) and the second sealing sheet (40).

Description

Surface emitting module

The present invention relates to a surface light emitting module provided with a surface light emitting element and a circuit board.

The surface light emitting element is composed of a planar light source such as an organic EL (Electro Luminescence) panel. An illuminating device on which a surface light emitting module including a surface light emitting element is mounted is used not only indoors but also outdoors. The lighting device is used outdoors for signboards, signs, illuminations, and the like, and has various uses.

A surface light emitting device is weak in resistance to oxygen, moisture, etc. in the atmosphere. Especially when used outdoors, a light emitting portion (light emitting layer) composed of an organic light emitting layer or a light emitting device is used from dust, ultraviolet rays, and wind and rain. It needs to be protected.

For example, Japanese Unexamined Patent Application Publication No. 2010-244698 (Patent Document 1) and Japanese Translation of PCT International Application No. 2013-53337 (Patent Document 2) are disclosed as a literature in which a surface emitting module in which a light emitting unit is protected in this way.

The surface emitting module disclosed in Patent Document 1 is a wiring in which an organic EL panel in which an organic EL element is formed and a wiring substrate connected to an end of the organic EL panel are positioned on the side opposite to the connected side. A pair of sealing sheets sandwiching the entire organic EL panel and the remaining part of the wiring board so that a part of the board is exposed, and a seal filled between the pair of sealing sheets near the end face of the wiring board A stop resin. The surface emitting module is driven via a circuit board that is electrically connected to a portion of the wiring board exposed from the pair of sealing sheets.

In the surface emitting module disclosed in Patent Document 2, the light emitting device is sealed by the backplane and the encapsulating material. An electrical path (conductive trace) for connecting the light emitting device and the driver circuit is formed on the surface of the backplane.

JP 2010-244698 A Special table 2013-53337 gazette

In the surface emitting module disclosed in Patent Document 1, the circuit board for driving the organic EL panel is provided outside the pair of sealing sheets. Therefore, when the surface emitting module is installed outdoors, the circuit board is used. A configuration for protecting from rain or the like is required separately. Similarly, when the surface emitting module disclosed in Patent Document 2 is installed outdoors, a separate configuration for protecting the driver circuit from rain or the like is required.

However, Patent Document 1 and Patent Document 2 do not sufficiently consider the configuration for protecting the circuit board and the driver circuit from rain or the like. For this reason, when the surface emitting module disclosed in Patent Document 1 and Patent Document 2 is installed outdoors, the circuit board and the driver circuit are short-circuited due to rain or the like, and the surface emitting module cannot be used stably. There is concern.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a surface light emitting module having a simple configuration and which can be used stably even outdoors.

The surface emitting module based on this invention is arrange | positioned facing the 1st sealing sheet and the said 1st sealing sheet, the 2nd sealing sheet joined to the said 1st sealing sheet, and the surface which has a light emission surface A light emitting element; and a circuit board that controls lighting of the surface light emitting element so as not to block light emitted from the light emitting surface, and includes at least the first sealing sheet and the second sealing. One of the sheets has flexibility, and the surface light emitting element and the circuit board are sealed by the first sealing sheet and the second sealing sheet.

According to the present invention, it is possible to provide a surface light emitting module that has a simple configuration and can be used stably outdoors.

1 is a top view of a surface emitting module according to Embodiment 1. FIG. FIG. 2 is a cross-sectional view taken along line II-II shown in FIG. FIG. 3 is a cross-sectional view taken along the line III-III shown in FIG. It is sectional drawing of the surface emitting module which concerns on Embodiment 2. FIG. It is sectional drawing of the surface emitting module which concerns on Embodiment 3. FIG. It is sectional drawing of the surface emitting module which concerns on Embodiment 4. FIG. It is sectional drawing of the surface emitting module which concerns on Embodiment 5. FIG. It is sectional drawing of the surface emitting module which concerns on Embodiment 6. FIG. It is sectional drawing of the surface emitting module in a modification.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following embodiments, the same or common parts are denoted by the same reference numerals in the drawings, and description thereof will not be repeated.

(Embodiment 1)
(Surface emitting module)
FIG. 1 is a top view of the surface emitting module according to the present embodiment. FIG. 2 is a cross-sectional view taken along the line II-II shown in FIG. With reference to FIG. 1 and FIG. 2, the surface emitting module 100 which concerns on this Embodiment is demonstrated.

As shown in FIGS. 1 and 2, the surface emitting module 100 according to the present embodiment includes four surface emitting elements 10A, 10B, 10C, and 10D, a circuit board 20, and a sealing sheet 30 as a first sealing sheet. And the sealing sheet 40 as a 2nd sealing sheet is provided.

The surface light emitting elements 10A, 10B, 10C, and 10D are arranged in a 2 × 2 matrix, for example, and are arranged in a planar shape. The surface light emitting elements 10A, 10B, 10C, and 10 have a substantially rectangular shape in plan view. The surface light emitting elements 10A, 10B, 10C, 10 are composed of an organic EL or the like.

The surface light emitting elements 10A, 10B, 10C, and 10D include a first main surface 10a on which a light emitting surface is formed and a second main surface 10b that faces the first main surface 10a. The surface light emitting elements 10A, 10B, 10C, and 10D emit light from the light emitting surface. The surface light emitting elements 10 </ b> A, 10 </ b> B, 10 </ b> C, and 10 </ b> D are electrically connected to each other by wiring or the like and are also electrically connected to the circuit board 20.

The circuit board 20 includes an electronic component 22 and a substrate 21 on which the electronic component 22 is mounted, and controls lighting of the surface light emitting elements 10A, 10B, 10C, and 10D. The circuit board 20 is disposed so as not to block outgoing light emitted from the light emitting surfaces (first main surface 10a) of the surface light emitting elements 10A, 10B, 10C, and 10D. Specifically, the circuit board 20 is disposed on the same plane as the surface light emitting elements 10A, 10B, 10C, and 10D.

The sealing sheet 30 is disposed on the first main surface 10a side of the surface light emitting elements 10A, 10B, 10C, and 10D and on the substrate 21 side of the circuit board 20. The sealing sheet 30 is provided so as to be in direct contact with the first main surface 10a of the surface light emitting elements 10A, 10B, 10C, and 10D and the substrate 21 of the circuit board 20.

The sealing sheet 40 is arrange | positioned at the 2nd main surface 10b side of the surface light emitting elements 10A, 10B, 10C, and 10D and the electronic component 22 side. The sealing sheet 40 is provided so as to be in direct contact with the second main surface 10b of the surface light emitting elements 10A, 10B, 10C, and 10D and the electronic component 22 of the circuit board 20. The sealing sheet 40 is disposed to face the sealing sheet 30 and is joined to the sealing sheet 30.

When the surface light emitting elements 10A, 10B, 10C, and 10D and the circuit board 20 are sandwiched between the sealing sheet 30 and the sealing sheet 40, the sealing sheet 30 and the sealing sheet 40 are bonded to each other, so that surface emission is performed. The elements 10 </ b> A, 10 </ b> B, 10 </ b> C, 10 </ b> D and the circuit board 20 are sealed with the sealing sheet 30 and the sealing sheet 40.

As the sealing sheets 30 and 40, for example, a resin member having a sheet shape or a film shape can be used. It is preferable that the sealing sheets 30 and 40 have flexibility.

Specific materials of the sealing sheets 30 and 40 are polyethylene terephthalate, polypropylene, acrylic, polyimide, polysulfone, and the like. As the sealing sheets 30 and 40, in addition to these materials, those on which various types of film formation have been performed in order to improve barrier properties may be used.

The color of the sealing sheets 30 and 40 is not particularly limited, but at least the sealing sheet 30 of the sealing sheets 30 and 40 is emitted from the first main surface 10a of the surface light emitting elements 10A, 10B, 10C, and 10D. Therefore, it has high transparency. The sealing sheet 40 may also have transparency. Considering the luminous efficiency and the like, the transmittance of the sealing sheets 30 and 40 is preferably 50% or more.

In order to join the sealing sheets 30 and 40, adhesive layers (not shown) are provided on the inner surfaces of the sealing sheets 30 and 40, respectively. As the adhesive layer, for example, various materials such as a thermoplastic resin, a thermosetting resin, and an ultraviolet curable resin are used. The sealing sheets 30 and 40 are bonded together by bonding the sealing sheets 30 and 40 together with the adhesive layer. In addition, the contact bonding layer is provided so that the peripheral part of the sealing sheets 30 and 40 can be sealed.

(Surface emitting device)
3 is a cross-sectional view taken along line III-III shown in FIG. With reference to FIG. 3, a surface light emitting device 10 </ b> A according to the present embodiment will be described. Note that the surface light emitting elements 10B, 10C, and 10D have substantially the same configuration as the surface light emitting element 10A, and thus the description of these configurations is omitted.

As shown in FIG. 3, the surface light emitting element 10 </ b> A according to the present embodiment is composed of an organic EL, and is disposed between the sealing sheet 30 and the sealing sheet 40. The thickness of the surface light emitting element 10A is, for example, 50 μm to 200 μm. The surface light emitting element 10A preferably has flexibility. The surface light emitting element 10A of the present embodiment has a rectangular shape in plan view (see FIG. 1).

The surface light emitting element 10 </ b> A includes a transparent substrate 11, a barrier layer 12, an anode 13, a light emitting layer 14, a cathode 15, a sealing layer 16, and an insulating layer 17. The transparent substrate 11, the barrier layer 12, the anode 13, the light emitting layer 14, the cathode 15, and the sealing layer 16 are arranged from the first main surface 10 a (light emitting surface) side of the surface light emitting element 10 </ b> A to the second main light emitting element 10. The layers are sequentially laminated toward the surface 10b.

The transparent substrate 11 is formed from glass, thin film glass, resin film, or the like. The transparent substrate 11 is a member that forms the first main surface 10a of the surface light emitting element 10, and has a rectangular shape in plan view. The barrier layer 12 has transparency and is formed so as to cover the entire surface of the transparent substrate 11. Barrier layer 12 is made of, for example, a silicon compound such as silicon oxide or silicon nitride, a metal compound such as metal oxide or metal nitride, or a mixture thereof.

The anode 13 is a conductive film having transparency, and is formed by depositing ITO or the like on the barrier layer 12. The ITO film for forming the anode 13 is divided into two regions by patterning in order to form a power feeding portion 18 (for anode) and a power feeding portion 19 (for cathode). The ITO film constituting the power feeding unit 19 is connected to the cathode 15.

When the light emitting layer 14 is supplied with electric power, it generates light by the action of the field effect. The light emitting layer 14 is composed of a single layer or a plurality of stacked layers. The cathode 15 is made of aluminum (AL), for example, and is formed so as to cover the light emitting layer 14. The insulating layer 17 is provided between the cathode 15 and the anode 13. A portion of the cathode 15 opposite to the side on which the insulating layer 17 (FIG. 3) is located is connected to the ITO film constituting the power feeding portion 19.

The sealing layer 16 is made of glass, thin film glass, resin film, or the like. The sealing layer 16 seals substantially the whole of the anode 13, the light emitting layer 14, and the cathode 15 on the transparent substrate 11 (barrier layer 12). A part of the ITO film formed on the barrier layer 12 is exposed from the sealing layer 16 in order to form the power feeding portions 18 and 19 (locations where electrical connection is performed). The power feeding units 18 and 19 are located outside the sealing layer 16 and are located on opposite sides of the light emitting layer 14.

In the surface emitting module 100A, the circuit board 20 is sealed with sealing sheets 30 and 40 so that a power source can be connected from the outside by a connection or the like. The circuit board 20, the above-described wiring, the power feeding unit 18, Power is supplied to the light emitting layer 14 through the anode 13 and the cathode 15. Thereby, light is generated in the light emitting layer 14 of the surface light emitting elements 10A, 10B, 10C, and 10D, and the light passes through the anode 13, the barrier layer 12, and the transparent substrate 11, and the surface light emitting elements 10A, 10B, and 10C. , 10D from the first main surface 10a.

As described above, the surface light emitting module 100 according to the present embodiment is configured by sealing the surface light emitting elements 10A, 10B, 10C, and 10D and the circuit board 20 together with the sealing sheets 30 and 40, Compared with the case where the surface light emitting elements 10A, 10B, 10C, and 10D and the circuit board 20 are separately sealed, they have a simple configuration.

Further, the surface light emitting elements 10A, 10B, 10C, and 10D and the circuit board 20 are integrally sealed with the sealing sheets 30 and 40, so that not only the surface light emitting elements 10A, 10B, 10C, and 10D but also the circuit board 20 is sealed. Can be protected from rain and the like, and a surface emitting module that can be used stably outdoors can be provided.

In the present embodiment, when the surface light emitting elements 10A, 10B, 10C, and 10D, the circuit board 20 and the sealing sheets 30 and 40 are all configured to be flexible, the surface light emitting module 100 is provided. Bending deformation is possible. For this reason, even if it is a case where it attaches to to-be-attached objects, such as a pillar which has a curved surface, it can attach easily in the state which bent the surface emitting module 100 along the installation surface. Since the surface emitting module 100 can be bent and deformed, a light source having a curved surface shape and a three-dimensional shape can be prepared in advance.

Further, in the present embodiment, the case where the surface light emitting module 100 includes four surface light emitting elements has been described as an example, but the number of surface light emitting elements is not limited to this and may be one. There may be two or more.

In the present embodiment, the case where the surface emitting module includes one circuit board 20 has been described as an example. However, the number of circuit boards 20 is not limited to this, and may be two or more.

(Embodiment 2)
FIG. 4 is a cross-sectional view of the surface emitting module according to the present embodiment. With reference to FIG. 4, the surface emitting module 100A according to the present embodiment will be described.

As shown in FIG. 4, the surface emitting module 100 </ b> A according to the present embodiment differs from the surface emitting module 100 according to the first embodiment in the number of surface emitting elements 10 and the position of the circuit board 20. . Other configurations are almost the same.

The surface emitting module 100A includes, for example, a single surface emitting element 10, a circuit board 20, and sealing sheets 30 and 40. The circuit board 20 is disposed on the side opposite to the light emitting surface side of the surface light emitting element 10 so as not to block the outgoing light emitted from the light emitting surface of the surface light emitting element 10. Specifically, the circuit board 20 is disposed on the second main surface 10b located on the opposite side to the first main surface 10a on which the light emitting surface is formed.

The sealing sheet 30 is provided so as to be in direct contact with the first main surface 10 a of the surface light emitting element 10. The sealing sheet 40 is provided so as to be in direct contact with the electronic components 22a and 22b mounted on the electronic component mounting surface 21a of the substrate 21 located on the side opposite to the surface light emitting element 10 side.

The surface light emitting element 10 and the circuit board 20 disposed on the second main surface 10 b of the surface light emitting element 10 are sealed with a sealing sheet 30 and a sealing sheet 40.

As described above, the surface emitting module 100A according to the present embodiment is also configured by sealing the surface light emitting element 10 and the circuit board 20 together with the sealing sheets 30 and 40. The substantially same effect as the surface emitting module 100 according to the above can be obtained.

In the surface light emitting module 100A according to the present embodiment, the surface light emitting element 10 and the circuit board 20 are arranged so as to overlap each other in the direction in which the sealing sheets 30 and 40 are arranged, thereby not emitting light. The area of the region can be reduced.

In this case, the size of the circuit board 20 is preferably smaller than the size of the surface light emitting element 10. Since the surface light emitting element 10 and the circuit board 20 do not overlap at the peripheral edge of the surface light emitting element 10, the thickness of the portion sandwiched between the sealing sheets 30 and 40 can be reduced. Thereby, in the sealing sheets 30 and 40, in order to join these peripheral parts, the area | region which protrudes outside from the peripheral part of the surface emitting element 10 can be made small. As a result, the area of the non-light emitting region can be further reduced.

(Embodiment 3)
FIG. 5 is a cross-sectional view of the surface emitting module according to the present embodiment. With reference to FIG. 5, the surface emitting module 100B according to the present embodiment will be described.

As shown in FIG. 5, the surface emitting module 100B according to the present embodiment is used as a sheet breakage preventing member for preventing the sealing sheet from being damaged when compared with the surface emitting module 100A according to the second embodiment. The difference is that a flexible sheet member 50 is provided. Other configurations are almost the same.

The sheet member 50 is provided between the sealing sheet 30 and the sealing sheet 40. Specifically, the sheet member 50 is interposed between the electronic components 22 a and 22 b mounted on the electronic component mounting surface 21 a of the substrate 21 located on the side opposite to the surface light emitting element 10 side and the sealing sheet 40. ing. The sheet member 50 is provided so as to cover the electronic components 22a and 22b. As the sheet member 50, a gel-like silicone resin sheet or the like can be used.

Here, when the sealing sheet 30 and the sealing sheet 40 are bonded and bonded together by pressure bonding or the like, the electronic components 22a and 22b are sandwiched between the sealing sheet 30 and the sealing sheet 40, thereby locally. A pressing force acts on the peripheral edge portion on the tip side of the electronic components 22a and 22b.

In the present embodiment, the local pressing force can be reduced by interposing a flexible sheet member 50 between the sealing sheet 40 and the electronic components 22a and 22b.

By making the sheet member 50 flexible, when the electronic components 22a and 22b are sandwiched between the sealing sheet 30 and the sealing sheet 40, the electronic components 22a and 22b are bitten into the sheet member 50 and sealed. The state where the sheet 40 and the sheet member 50 are brought into contact with each other over a relatively wide area is maintained.

Thereby, the pressing force applied to the electronic components 22a and 22b can be reduced by dispersing in the surface direction. As a result, it is possible to prevent one of the sealing sheets 30 and 40 located on the side close to the electronic components 22a and 22b from being damaged.

Further, by dispersing the pressing force applied to the electronic components 22a and 22b, the stress acting so that the circuit board 20 presses the surface light emitting element 10 can be reduced (relaxed). Thereby, the short circuit defect of the surface light emitting element 10 which generate | occur | produces when the cathode 15 and the anode 13 of the surface light emitting element 10 are short-circuited, or the electric power feeding parts 18 and 19 is damaged can be suppressed.

As described above, the surface light emitting module 100B according to the present embodiment has the surface light emitting element 10 and the circuit board 20 in a state where the surface light emitting element 10 and the circuit board 20 are overlapped in the direction in which the sealing sheets 30 and 40 are arranged. Are integrally sealed with the sealing sheets 30 and 40, and therefore, substantially the same effect as the surface emitting module 100A according to the second embodiment is obtained.

In addition, by providing the flexible sheet member 50 so as to cover the electronic components 22a and 22b, the sealing sheet 40 can be prevented from being damaged as described above, and the short circuit failure of the surface light emitting element 10 can be suppressed. be able to.

(Embodiment 4)
FIG. 6 is a cross-sectional view of the surface emitting module according to the present embodiment. With reference to FIG. 6, the surface emitting module 100C according to the present embodiment will be described.

As shown in FIG. 6, the surface emitting module 100 </ b> C according to the present embodiment is used as a sheet breakage preventing member for preventing the sealing sheet from being damaged when compared with the surface emitting module 100 </ b> A according to the second embodiment. The difference is that a resin member 60 is provided. Other configurations are almost the same.

The resin component 60 is placed between the sealing sheet 30 and the sealing sheet 40 so that the electronic component reaches the electronic component mounting surface 21a of the circuit board 20 from at least a part of the peripheral edge on the tip side of the electronic components 22a and 22b. It is provided adjacent to the peripheral surfaces of 22a and 22b.

Specifically, the resin member 60 is provided so as to fill a gap between the sealing sheet 40 and the electronic component mounting surface 21a of the circuit board 20. The resin member 60 is provided so as to surround the entire outer periphery of the electronic components 22a and 22b.

In the resin member 60, for example, when the sealing sheets 30 and 40 are pressure-bonded, an adhesive layer (not shown) provided on the inner surface of the sealing sheet 40 to soften the sealing sheets 30 and 40 is softened. Is provided. At this time, the adhesive layer in the part facing the electronic component mounting surface 21a is set to be thicker than the adhesive layer in the peripheral part.

Further, the resin member 60 may be provided by filling the gap between the sealing sheet 40 and the electronic component mounting surface 21a of the circuit board 20 with the sealing resin.

Here, when the sealing sheet 30 and the sealing sheet 40 are bonded and bonded together by pressure bonding or the like, the electronic components 22a and 22b are sandwiched between the sealing sheet 30 and the sealing sheet 40, thereby locally. A pressing force acts on the peripheral edge portion on the tip side of the electronic components 22a and 22b.

In the present embodiment, by providing the resin member 60 so as to surround the entire outer periphery of the electronic components 22a and 22b, the sealing sheet 40 is prevented from biting into the peripheral edge on the front end side of the electronic components 22a and 22b. The local pressing force can be reduced. As a result, it is possible to prevent one of the sealing sheets 30 and 40 located on the side close to the electronic components 22a and 22b from being damaged.

Since the resin member 60 is made of a flexible resin, the effect of reducing the local pressing force is not impaired even when the thickness of the resin member 60 varies due to assembly variations. Moreover, since the resin member 60 is comprised with a flexible resin, it can comprise the surface emitting module 100B which has flexibility and can be bent and deformed.

Further, by reducing the pressing force applied to the electronic components 22a and 22b, the stress acting so that the circuit board 20 presses the surface light emitting element 10 can also be reduced (relieved). Thereby, the short circuit defect of the surface light emitting element 10 which generate | occur | produces when the cathode 15 and the anode 13 of the surface light emitting element 10 are short-circuited, or the electric power feeding parts 18 and 19 is damaged can be suppressed.

As described above, the surface light emitting module 100B according to the present embodiment has the surface light emitting element 10 and the circuit board 20 in a state where the surface light emitting element 10 and the circuit board 20 are overlapped in the direction in which the sealing sheets 30 and 40 are arranged. Are integrally sealed with the sealing sheets 30 and 40, and therefore, substantially the same effect as the surface emitting module 100A according to the second embodiment is obtained.

In addition, by providing the resin member 60 so as to fill the gap between the sealing sheet 40 and the electronic component mounting surface 21a of the circuit board 20, it is possible to prevent the sealing sheet 40 from being damaged as described above. A short circuit failure of the light emitting element 10 can be suppressed.

(Embodiment 5)
FIG. 7 is a cross-sectional view of the surface emitting module according to the present embodiment. With reference to FIG. 7, surface emitting module 100D according to the present embodiment will be described.

As shown in FIG. 7, the surface emitting module 100 </ b> D according to the present embodiment is provided between the sealing sheet 30 and the sealing sheet 40 when compared with the surface emitting module 100 </ b> C according to the fourth embodiment. The position of the resin member 60 is different. Other configurations are almost the same.

The resin member 60 is located between the sealing sheet 30 and the sealing sheet 40 so that the electronic component 22a reaches the electronic component mounting surface 21a of the circuit board 20 from a part of the peripheral edge on the tip side of the electronic components 22a and 22b. , 22b adjacent to the peripheral surface.

The resin member 60 is provided so as to fill a part of the gap between the sealing sheet 40 and the electronic component mounting surface 21a of the circuit board 20. The resin member 60 is provided so as to surround a part of the outer periphery of the electronic components 22a and 22b.

Specifically, the resin member 60 is directed toward the outside in the direction in which the electronic components 22a and 22b are arranged from the peripheral portion of the electronic components 22a and 22b located on the side opposite to the side on which the electronic components 22a and 22b face each other. It is provided so as to reach the electronic component mounting surface 21a. The resin member 60 is provided along the peripheral surface of the electronic components 22a and 22b located on the side opposite to the side on which the electronic components 22a and 22b face each other.

Even in the case where the resin member 60 is provided in this manner, the sealing sheet 40 can be prevented from biting into the peripheral edge on the front end side of the electronic components 22a and 22b, and the local pressing force can be reduced. As a result, it is possible to prevent one of the sealing sheets 30 and 40 located on the side close to the electronic components 22a and 22b from being damaged.

Further, by reducing the pressing force applied to the electronic components 22a and 22b, the stress acting so that the circuit board 20 presses the surface light emitting element 10 can also be reduced (relieved). Thereby, the short circuit defect of the surface light emitting element 10 which generate | occur | produces when the cathode 15 and the anode 13 of the surface light emitting element 10 are short-circuited, or the electric power feeding parts 18 and 19 is damaged can be suppressed.

As described above, the surface light emitting module 100D according to the present embodiment has the surface light emitting element 10 and the circuit board 20 in a state where the surface light emitting element 10 and the circuit board 20 are overlapped in the direction in which the sealing sheets 30 and 40 are arranged. Are integrally sealed with the sealing sheets 30 and 40, and therefore, substantially the same effect as the surface emitting module 100A according to the second embodiment is obtained.

In addition, by providing the resin member 60 adjacent to the peripheral surfaces of the electronic components 22a and 22b so as to reach the electronic component mounting surface 21a of the circuit board 20 from a part of the peripheral edge on the front end side of the electronic components 22a and 22b. As described above, the sealing sheet 40 can be prevented from being damaged, and a short circuit failure of the surface light emitting element 10 can be suppressed.

(Embodiment 6)
FIG. 8 is a cross-sectional view of the surface emitting module according to the present embodiment. With reference to FIG. 8, the surface emitting module 100E according to the present embodiment will be described.

As shown in FIG. 8, the surface emitting module 100E according to the present embodiment acts so that the circuit board 20 presses the surface emitting element 10 when compared with the surface emitting module 100A according to the second embodiment. The difference is that a flexible sheet member 50E is provided as a stress relaxation member for relaxing the stress. Other configurations are almost the same.

The sheet member 50 </ b> E is provided between the circuit board 20 and the surface light emitting element 10. As the sheet member 50E, a gel-like silicone resin sheet or the like can be used.

When the sheet member 50 </ b> E is provided between the circuit board 20 and the surface light emitting element 10, the electronic components 22 a and 22 b are sandwiched between the sealing sheet 30 and the sealing sheet 40, so that the sealing sheet The stress acting so that the circuit board 20 presses the surface light emitting element 10 through the electronic components 22a and 22b pressed by the 40 can be dispersed and relaxed in the plane direction.

Thereby, the short circuit failure of the surface light emitting element 10 which occurs when the cathode 15 and the anode 13 of the surface light emitting element 10 are short-circuited or the power feeding portions 18 and 19 are damaged can be suppressed.

As described above, the surface light emitting module 100E according to the present embodiment has the surface light emitting element 10 and the circuit board 20 in a state where the surface light emitting element 10 and the circuit board 20 are overlapped in the direction in which the sealing sheets 30 and 40 are arranged. Are integrally sealed with the sealing sheets 30 and 40, and therefore, substantially the same effect as the surface emitting module 100A according to the second embodiment is obtained.

In addition, by providing the sheet member 50 </ b> E between the circuit board 20 and the surface light emitting element 10, the short circuit failure of the surface light emitting element 10 can be suppressed as described above.

[Other variations]
The characteristic configurations described in the first to sixth embodiments may be combined as appropriate without departing from the spirit of the present invention.

For example, as illustrated in FIG. 9, the surface emitting module 100F includes a characteristic configuration of the surface emitting module 100C according to the fourth embodiment and a characteristic configuration of the surface emitting module 100E according to the sixth embodiment. It may be. FIG. 9 shows a cross-sectional view of a surface emitting module in a modified example.

The surface emitting module 100F is further provided with a resin member 60 in the configuration of the surface emitting module 100E according to the sixth embodiment. The resin member 60 is provided so as to fill a gap between the sealing sheet 40 and the electronic component mounting surface 21a of the circuit board 20.

In the surface light emitting module 100F, in addition to substantially the same effect as that of the surface light emitting element 100E according to the sixth embodiment, substantially the same effect as that of the surface light emitting element 100C according to the fourth embodiment is obtained.

The idea of the present invention can be applied to the case where the surface light emitting element is composed of a top emission type organic EL, and can also be applied to the case where the surface light emitting element is composed of a bottom emission type organic EL. The above idea can also be applied to the case where the surface light emitting element 10 is composed of an inorganic EL element, and the surface light emitting element is arranged on a plurality of light emitting diodes (LEDs) and on the emission surface side of the plurality of light emitting diodes. The present invention can also be applied to a case where the surface light emitting element is configured using a cold cathode tube or the like.

The surface emitting module based on this invention demonstrated above is arrange | positioned facing the 1st sealing sheet and the said 1st sealing sheet, the 2nd sealing sheet joined to the said 1st sealing sheet, and a light emission surface A surface light emitting device having a light emitting diode, and a circuit board arranged to control the lighting of the surface light emitting device so as not to block the emitted light emitted from the light emitting surface, at least the first sealing sheet and the first One of the two sealing sheets has flexibility, and the surface light emitting element and the circuit board are sealed by the first sealing sheet and the second sealing sheet.

In the surface light emitting module according to the present invention, the circuit board is preferably disposed on the side opposite to the light emitting surface side of the surface light emitting element.

In the surface light emitting module according to the present invention, the circuit board includes an electronic component and a substrate for mounting the electronic component, and the surface light emitting module according to the present invention includes the circuit board and the surface light emitting. A stress that is provided between the circuit board and the electronic component is sandwiched between the first sealing sheet and the second sealing sheet so that the circuit board presses the surface light emitting element. You may further provide the stress relaxation member for relieving.

In the surface emitting module according to the present invention, the circuit board includes an electronic component and a substrate for mounting the electronic component, and the surface emitting module according to the present invention includes the first sealing sheet and the substrate. It arrange | positions between the said 2nd sealing sheets, and when the said electronic component is inserted | pinched between the said 1st sealing sheet and the said 2nd sealing sheet, the said 1st sealing sheet and the said 2nd sealing It is preferable that the sheet further includes a sheet breakage preventing member that prevents one of the sheets located on the side close to the electronic component from being broken.

In the surface emitting module according to the present invention, the sheet breakage prevention member is provided between the first sealing sheet and the second sealing sheet so as to cover the electronic component. It may be a sheet member having

In the surface light emitting module according to the present invention, the sheet breakage preventing member is at least part of the peripheral edge on the front end side of the electronic component between the first sealing sheet and the second sealing sheet. It may be a resin member provided adjacent to the peripheral surface of the electronic component so as to reach the electronic component mounting surface of the circuit board.

In the surface light emitting module according to the present invention, it is preferable that the surface light emitting element and the circuit board have flexibility.

In the surface light emitting module according to the present invention, a plurality of the surface light emitting elements may be arranged between the first sealing sheet and the second sealing sheet.

As mentioned above, although embodiment of this invention was described, embodiment disclosed this time is an illustration and restrictive at no points. The scope of the present invention is defined by the terms of the claims, and includes meanings equivalent to the terms of the claims and all changes within the scope.

10, 10A, 10B, 10C, 10D surface light emitting element, 10a first main surface, 10b second main surface, 11 transparent substrate, 12 barrier layer, 13 anode, 14 light emitting layer, 15 cathode, 16 sealing layer, 17 insulation Layer, 18, 19 power supply unit, 20 circuit board, 21 board, 21a electronic component mounting surface, 22, 22a, 22b electronic component, 30, 40 sealing sheet, 50, 50E sheet member, 60 resin member, 100, 100A, 100B, 100C, 100D, 100E surface emitting modules.

Claims (8)

1. A second sealing sheet disposed opposite to the first sealing sheet and the first sealing sheet and bonded to the first sealing sheet;
   A surface light emitting device having a light emitting surface;
   A lighting control of the surface light emitting element, and a circuit board arranged so as not to block the emitted light emitted from the light emitting surface,
   At least one of the first sealing sheet and the second sealing sheet has flexibility,
   The surface emitting module in which the said surface emitting element and the said circuit board are sealed with the said 1st sealing sheet and the said 2nd sealing sheet.
2. The surface emitting module according to claim 1, wherein the circuit board is disposed on a side opposite to the light emitting surface side of the surface light emitting element.
3. The circuit board includes an electronic component and a board for mounting the electronic component,
   The circuit board is provided between the circuit board and the surface light emitting element, and the circuit board presses the surface light emitting element when the electronic component is sandwiched between the first sealing sheet and the second sealing sheet. The surface emitting module according to claim 2, further comprising a stress relaxation member for relieving the stress acting so.
4. The circuit board includes an electronic component and a board for mounting the electronic component,
   The first sealing sheet is disposed between the first sealing sheet and the second sealing sheet, and the electronic component is sandwiched between the first sealing sheet and the second sealing sheet. 4. The sheet breakage preventing member according to claim 1, further comprising a sheet breakage preventing member that prevents one of the sheet and the second sealing sheet located on a side close to the electronic component from being damaged. 5. The surface emitting module according to 1.
5. The said sheet | seat breakage prevention member is a sheet | seat member which has the softness | flexibility provided so that the said electronic component might be covered between the said 1st sealing sheet and the said 2nd sealing sheet. Surface emitting module.
6. The sheet breakage preventing member reaches the electronic component mounting surface of the circuit board from at least a part of the peripheral edge on the front end side of the electronic component between the first sealing sheet and the second sealing sheet. The surface emitting module according to claim 4, which is a resin member provided adjacent to a peripheral surface of the electronic component.
7. The surface emitting module according to any one of claims 1 to 6, wherein the surface emitting element and the circuit board have flexibility.
8. The surface emitting module according to any one of claims 1 to 7, wherein a plurality of the surface emitting elements are disposed between the first sealing sheet and the second sealing sheet.

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