JP6089694B2 - Light emitting device - Google Patents

Description

The present invention relates to a light emitting equipment.

  A light emitting device in which a semiconductor light emitting element such as a light emitting diode (LED) or a laser diode (LD) is mounted as a light source is used in various lighting devices and display devices. Since these semiconductor light-emitting elements have low power consumption and long life, light-emitting devices equipped with these semiconductor light-emitting elements are attracting attention as light-emitting devices that can replace light bulbs and fluorescent lamps.

  For example, Patent Document 1 discloses a casing having a predetermined shape when viewed from the front and having a front portion opened for light emission, and a light emitter provided in the casing so as to follow the predetermined shape of the casing. A light emitting device comprising: And in this light-emitting device, the light emitter is composed of a strip-shaped flexible board arranged so that the mounting surface is substantially orthogonal to the front surface portion of the housing, and a light-emitting element attached to the mounting surface of the flexible board, The light emitting element is formed of a light emitting diode package or an EL lamp.

JP 2009-175640 A

  However, in the light emitting device disclosed in Patent Document 1, when the flexible substrate to which the light emitting element is attached is arranged in the housing, the flexible substrate is directly fixed to the back surface of the housing. Therefore, in such a light emitting device, it is not possible to provide a heat radiating part that dissipates heat generated from the light emitting element, and there is a problem in that the heat dissipation of the light emitting device is reduced. Further, when the flexible substrate is fixed to the housing, the fixing position is difficult to be determined due to the flexibility of the flexible substrate. As a result, there is a problem that the fixing work takes time and the light emitting device is not easily manufactured.

The present invention has been made in view of such problems, and an object thereof is excellent in heat dissipation of the heat generated from the light emitting element is that the manufacture provide easy emission equipment.

  In order to solve the above problems, a light-emitting device according to the present invention includes a casing formed with a space portion surrounded by a base portion and a cover portion covering the base portion, and the base portion in the space portion. A substrate support portion that is curved or bent in a plan view standing upright, a flexible wiring substrate supported by the substrate support portion, and a light emitting element provided on the surface of the flexible wiring substrate; The board support portion has a higher rigidity than the flexible wiring board.

  According to the above configuration, the light emitting device includes the substrate support portion having a curved or bent shape in a plan view, and the flexible wiring substrate is supported by the substrate by supporting the flexible wiring substrate on the substrate supporting portion. Can be tightly fixed to the part. In the light emitting device, the flexible wiring substrate and the substrate support portion are closely fixed, so that the substrate support portion draws heat generated from the light emitting element provided on the surface of the flexible wiring substrate. It functions as a heat dissipation part that dissipates heat. In addition, in the light emitting device, the flexible wiring substrate is supported by a substrate support portion having higher rigidity than the flexible wiring substrate, and the substrate support portion is erected on a base portion constituting a part of the housing. Thus, the flexible wiring board can be arranged in the housing. As a result, in the light emitting device, the flexible wiring board is arranged in the housing via the substrate support portion having higher rigidity than the flexible wiring substrate. The problem that the arrangement position (fixed position) is difficult to be determined due to the flexibility of the substrate can be alleviated or eliminated. As a result, the light emitting device can be easily arranged in the housing in a shape in which the flexible wiring board is curved or bent in a plan view, and manufacture is facilitated.

According to the present invention, excellent heat dissipation of the heat generated from the light emitting element can be provided manufactured easily emitting equipment is. Further, according to the present invention, a light emitting device excellent in economic efficiency and light extraction efficiency can be provided.

It is the perspective view which showed the structure of the light-emitting device which concerns on this invention, and was partly fractured | ruptured. It is the cross-sectional perspective view which expanded and showed the fracture | rupture cross section of FIG. (A) is a perspective view of the flexible wiring board of FIG. 2, (b) is a perspective view of the board support part of FIG. 2, (c) is a flexible wiring of (a) on the board support part of (b). It is a perspective view at the time of installing a board | substrate. In the exploded perspective view of the light emitting device according to the present invention, the base portion and the cover portion are partially broken. It is a process flowchart which shows the manufacture procedure of the light-emitting device which concerns on this invention.

Embodiments of a light emitting device according to the present invention will be described in detail with reference to the drawings.
As shown in FIGS. 1 and 2, the light emitting device 1 includes a housing 2, a substrate support 8, a flexible wiring substrate 9, and a light emitting element 10. Each configuration will be described below.

(Casing)
The housing 2 includes a base portion 3 and a cover portion 5, and a space portion 7 surrounded by the base portion 3 and the cover portion 5 is formed by joining the base portion 3 and the cover portion 5. It is a member. In the illustrated example, the housing 2 is a cylindrical member having an annular outer shape in a plan view, but is not limited thereto, for example, a cylindrical member having a U-shaped outer shape in a plan view, A box-shaped member may be used. In the space portion 7, a substrate support portion 8 on which a flexible wiring substrate 9 provided with a light emitting element 10 is supported is disposed.

  When the casing 2 is a cylindrical member having an annular or U-shaped outer shape in plan view, the ratio of the base portion 3 and the cover portion 5 is, for example, a ratio that occupies the inner circumference in the cross section of the space portion 7 Therefore, base portion: cover portion = 45: 55 to 55:45. However, since the cover portion 5 is a portion that emits light from the light emitting element 10 disposed in the housing to the outside of the light emitting device, the base portion: cover portion = 50: 50 is preferable in order to ensure the luminous flux of the emitted light. .

  The size of the housing 2 is set in accordance with a fluorescent tube used for a fluorescent lamp specified in JIS. For example, when the tubular member has an annular outer shape, the annular outer diameter DA is 205 to 375 mm. The cylindrical outer diameter DB is 28 to 32 mm. The cross-sectional shapes of the housing 2 and the space portion 7 are preferably circular, but may be rectangular.

(Base part)
The base portion 3 constitutes a part of the housing 2 and is a member that joins with the cover portion 5 to form the space portion 7. In the illustrated example, the base portion 3 is a semi-cylindrical member having an annular outer shape in plan view, but is not limited thereto. Moreover, it is preferable that the base 3 is formed with an annular recess 4 in plan view so as to form a space 7 by joining with the cover 5 (see FIG. 4). The cross-sectional shape of the recess 4 is preferably semicircular or arcuate. The base portion 3 may be a member in which the concave portion 4 is not formed, such as a plate shape. Further, the thickness of the base portion 3 is preferably 1 to 3 mm. And the base part 3 supports the board | substrate support part 8 in the bottom part of the recessed part 4, for example, in order to arrange | position the board | substrate support part 8 in a housing | casing. In order to diffuse light from the light emitting element 10 disposed in the housing, the inner surface of the base portion 3 (for example, the concave portion 4 of the base portion 3) is painted with white paint or the like, or the inner surface is sandblasted and polished. The surface may be roughened with a method such as

  The base part 3 should just be comprised with the material which has the intensity | strength which can support the board | substrate support part 8, and can be comprised with a well-known material in the said technical field. For example, it can be made of a light and strong resin material or metal material, and a metal material such as aluminum is preferable in consideration of workability and heat resistance. In the light emitting device 1, since the base portion 3 is made of a metal material, the thermal conductivity in the base portion 3 is improved and the heat from the substrate support portion 8 is easily conducted. As a result, the light emitting device 1 heats the heat generated from the light emitting element 10 provided on the flexible wiring substrate 9 supported by the substrate support portion 8 through the substrate support portion 8 and the base portion 3. It becomes easy to dissipate heat outside the light emitting device. Moreover, the base part 3 may be translucent. In that case, the base part 3 can be comprised similarly to the following cover part 5, for example.

(Cover part)
The cover part 5 constitutes a part of the housing 2 and is a member that joins with the base part 3 to form the space part 7 by covering the base part 3 (for example, the concave part 4 of the base part 3). . In the illustrated example, the cover 5 is a member having an annular outer shape in plan view, but is not limited thereto. Moreover, it is preferable that the cover part 5 is a semi-cylindrical member in which the annular recessed part 6 was formed by planar view similarly to the base part 3 (refer FIG. 4). The cross-sectional shape of the recess 6 is preferably semicircular or arcuate. Moreover, as for the thickness of the cover part 5, 1.5-2 mm is preferable. In addition, although not shown in figure, the cover part 5 may be a member in which the recessed part 6 is not formed, for example, plate shape. And the cover part 5 permeate | transmits the light from the light emitting element 10 arrange | positioned in a housing | casing, and radiate | emits it out of a light-emitting device.

  The cover part 5 should just be comprised with the material which has translucency, and can be comprised with a well-known material in the said technical field. For example, it can be made of a light and strong resin material or glass, and in view of workability and heat resistance, it is preferably made of a resin material such as polycarbonate or acrylic. Here, the light-transmitting material preferably transmits light from the light-emitting element 10 efficiently, but a filler having excellent thermal conductivity may be mixed therein. By doing so, the heat generated from the light emitting element 10 can be easily transmitted to the cover portion 5 via the substrate support portion 8 and the base portion 3, and the heat dissipation of the light emitting device 1 can be enhanced. As such a filler, alumina, silica, titanium oxide, or the like can be used, and these can also be mixed as a light diffusing member. As described above, by mixing the light diffusing member into the cover portion 5, luminance unevenness and color unevenness due to the light distribution of the light emitting element 10 can be reduced. In addition, the inner surface of the cover part 5 is subjected to a roughening process such as sand blasting or polishing, or a diffusion sheet is attached to the outer surface or inner surface of the cover part 5 to give the cover part 5 a light diffusion effect. May be.

(Substrate support part)
The board | substrate support part 8 is a plate-shaped member which has a rectangular shape long in one direction, for example. The substrate support 8 is curved or bent in a plan view inside the space 7 of the housing 2 (in the example shown, along the direction in which the space 7 is formed). The flexible wiring board 9 is supported on one side (one side), preferably on both sides (both sides). As a result, the substrate support unit 8 supports the flexible wiring substrate 9 and heats the heat generated from the light emitting elements 10 provided on the flexible wiring substrate 9 to dissipate it.

  As shown in FIGS. 3 (b) and 3 (c), a preferred embodiment of the substrate support 8 includes a plate-like main body 8a that forms both side surfaces of the substrate support 8, and both sides of the upper end of the main body 8a. And it is comprised by the collar part 8b extended in the both sides of the lower end part of the main-body part 8a, and bend | folded and formed in the collar shape, and the groove part 8c formed between the main-body part 8a and the collar part 8b. The substrate support portion 8 is curved or bent in plan view by joining the flange portion 8b formed at the lower end portion of the main body portion 8a and the upper surface of the base portion 3 (for example, the bottom portion of the recess portion 4) with a screw or the like. In the illustrated shape (in the example shown, along the direction in which the space 7 is formed), it is erected. Moreover, the flexible wiring board 9 is supported by the board | substrate support part 8 by inserting the flexible wiring board 9 in the groove part 8c, and its one side (one side), preferably both sides (both sides).

  The substrate support portion 8 may be constituted only by the main body portion 8a. In the substrate support portion 8 having such a configuration, the lower end portion of the main body portion 8a is joined to the upper surface of the base portion 3 (for example, the bottom portion of the concave portion 4 of the base portion), and one side (one side), preferably both sides (both sides) of the main body portion 8a. The flexible wiring board 9 is bonded with an adhesive or the like.

  The size of the substrate support portion 8 is the height h corresponding to the distance between the flange portion 8b formed at the upper end portion of the main body portion 8a and the flange portion 8b formed at the lower end portion, or the plate width of the main body portion 8a. The (plate height) is preferably 14 to 16 mm. Moreover, it is preferable that the width | variety t equivalent to the length between the collar parts 8b formed in the both sides of the lower end part of the main-body part 8a, or the plate | board thickness of the main-body part 8a is 1-1.5 mm. Further, the groove width of the groove portion 8 c is appropriately set to a width that allows the flexible wiring board 9 to be inserted and supported according to the thickness of the flexible wiring board 9.

  The substrate support portion 8 has higher rigidity than the flexible wiring substrate 9, has a strength capable of supporting the flexible wiring substrate 9, and generates heat from the light emitting element 10 provided on the flexible wiring substrate 9. In view of workability and heat resistance, for example, it is preferably made of a resin material such as polycarbonate. Here, it is preferable that the heat conductivity that can be heat-extracted is that the thermal conductivity defined by the ISO standard or the JIS standard is 1 W / m · K or more. Further, the substrate support portion 8 is produced by molding or the like, and is preferably an inexpensive extruded product. And since the board | substrate support part 8 is comprised with the cheap extrusion molding goods, the light-emitting device 1 can hold down manufacturing cost.

The substrate support portion 8 has higher rigidity than the flexible wiring substrate 9, but preferably has flexibility. Such a flexible substrate support 8 preferably has a flexural modulus of 2000 to 4000 MPa as defined by the ISO or JIS standard, and further has a Charpy impact strength (as defined by the ISO or JIS standard). It is preferable that the notch is 10 KJ / m ² or more. And since the board | substrate support part 8 can stand up easily in the base part 3 because the board | substrate support part 8 has flexibility, manufacture becomes further easier.

  As the substrate support portion 8, a substrate supporting portion 8 that has been previously processed into a curved or bent shape in a plan view, such as an annular shape in a plan view, is used before standing on the base portion 3 (for example, the bottom of the concave portion 4 of the base portion). May be. The substrate support portion 8 having such a shape has substantially no flexibility, and specifically has a flexural modulus and a Charpy impact strength that are less than the lower limit values. Further, the substrate support portion 8 having such a shape is manufactured integrally with the base portion 3 (for example, the bottom of the concave portion 4 of the base portion) as a part of the base portion 3 when the base portion 3 is manufactured. May be.

(Flexible wiring board)
As shown in FIG. 2 and FIG. 3A, the flexible wiring board 9 has a rectangular shape that is long in one direction, and electronic components such as the light emitting element 10 and the connector 11 are fixed on the upper surface thereof. This is a wiring board on which wiring (not shown) electrically connected to the electronic component is formed. The flexible wiring board 9 is a wiring board that can be deformed into a curved or bent shape in a plan view, such as a ring shape in a plan view, and is made of a flexible material, specifically, polyimide, A wiring board composed of polyethylene terephthalate, polyethylene naphthalate, or the like is preferable. Furthermore, the thickness of the flexible wiring board 9 is preferably 0.6 to 2.0 mm, for example.

  As shown in FIG. 4, the flexible wiring board 9 is provided with connecting portions 15 between both end portions in the length direction. The connection unit 15 is a member that supplies electricity to the light emitting element 10 from an external power source (not shown) via the connector 11 and wiring.

  The connector 11 provided on the flexible wiring board 9 is electrically connected to the connection portion 15. The connector 11 is provided at the end in the length direction of the flexible wiring board 9 so that it can be easily connected to the connection part 15 and the flexible wiring board 9 supported by the board support part 8. Since each light emitting element 10 is easy to connect in series, it is preferable.

(Light emitting element)
As shown in FIG. 2 and FIG. 3A, the light emitting element 10 is, for example, a semiconductor light emitting element such as an LED or LD, an organic EL element (Organic Electro-Luminescence), or the like used in a conventional light emitting device. Can be used. Further, the light emitting element 10 is a surface mount type (SMD) in which such a light emitting element is directly mounted on a flexible wiring board 9, and the light emitting element is disposed on a ceramic or resin package substrate. The light emitting element disposed on the lead frame may be of a shell type (lamp type) covered with a glass or resin coating member. In addition, the package base or covering member includes a wavelength conversion member (for example, an aluminum oxide phosphor, a nitride phosphor, a silicate phosphor) or a light diffusion member (for example, alumina, silica, titanium oxide, etc.) ) Can be contained. Further, a plurality of light emitting elements 10 having different emission wavelength ranges (for example, emitting light in each wavelength range of red, green, and blue (RGB)) may be combined.

  A plurality of light emitting elements 10 are fixed (arranged) on the upper surface of the flexible wiring substrate 9 at predetermined intervals in the length direction. 2 and 3A show an example in which one row of the plurality of light emitting elements 10 is provided in the length direction of the flexible wiring board 9, but in the width direction of the flexible wiring board 9, FIG. Two or more such columns may be provided. The light emitting element 10 is electrically connected to the wiring of the flexible wiring board 9 by a conductive bonding member such as Ag, Au, or Sn.

In the light emitting device 1 according to the present invention, the space 7 and the substrate support 8 are annular in plan view, and two flexible wiring substrates 9 are supported by the substrate support 8 in opposite directions. It is preferable.
The light emitting device 1 efficiently emits light to both sides of the substrate support portion 8 erected on the base portion 3 by arranging the flexible wiring substrate 9 provided with the light emitting elements 10 as described above. It is possible, and annular illumination can be easily realized.

  In the light emitting device 1 according to the present invention, it is preferable that the housing 2 further includes a reflecting portion 12 in addition to the base portion 3 and the cover portion 5.

(Reflection part)
The reflection part 12 is a sheet-like member made of, for example, a reflective material. In the illustrated example, the reflecting portion 12 has an annular outer shape in plan view. The reflecting portion 12 is provided on the surface of the base portion 3 (for example, the surface of the concave portion 4 of the base portion), and reflects light from the light emitting element 10 toward the cover portion 5. Although it does not specifically limit as a reflective material, Metal materials, such as Al and Ag which have the outstanding reflectance, are preferable. Moreover, the thickness of the reflection part 12 is preferably 0.1 to 0.5 mm.

  In the light emitting device 1, since the housing 2 further includes the reflecting portion 12, the light from the light emitting element 10 is reflected by the reflecting portion 12 in the direction of the cover portion 5. The emitted light flux increases, and the light extraction efficiency is improved. Here, the light extraction efficiency refers to a light beam emitted outside the light emitting device when the light emitting element 10 is attached to the light emitting device 1 and turned on, and a light emitting element when the light emitting element 10 is turned on without being attached to the light emitting device 1. 10 is a ratio with respect to the light beam emitted from 10.

  As shown in FIGS. 2 and 4, the reflecting portion 12 includes an outer peripheral reflecting portion 13 formed on the outer peripheral side of the concave portion 4 with respect to the substrate support portion 8, and an inner peripheral portion formed on the inner peripheral side of the concave portion 4. The side reflection part 14 is preferable. And the gap w between the outer periphery side reflection part 13 and the inner periphery side reflection part 14 is formed larger (w> t) than the width t (see FIG. 3B) of the substrate support part 8. However, it is preferable because the substrate support 8 is easily erected on the bottom of the recess 4.

  In the light emitting device 1 according to the present invention, when the housing 2 includes the reflecting portion 12, the height h of the substrate support portion 8 is the maximum from the base portion 3 (for example, the bottom of the concave portion 4) to the cover portion 5. The height H is preferably less than half of the maximum height of the space portion 7. In the light emitting device 1, the substrate support portion 8 has a height h that is less than half of the maximum height H from the base portion 3 to the cover portion 5, whereby the light from the light emitting element 10 is reflected by the reflection portion 12. In this case, the light reflected in the direction of the cover unit 5 is less likely to be blocked by the substrate support unit 8, so that the light beam emitted from the cover unit 5 to the outside of the light emitting device further increases and the light extraction efficiency is further improved. To do.

Next, a method for manufacturing a light emitting device according to the present invention will be described with reference to FIGS. Since the light-emitting device manufactured by the manufacturing method of the present invention is the above-described light-emitting device 1, refer to FIGS. 1 to 3 for each configuration of the light-emitting device 1.
As shown in FIG. 5, the manufacturing method of the present invention includes three steps of a first step S1, a second step S2, and a third step S3. Hereinafter, the procedure of each process will be described.

(First step)
The first step S <b> 1 is a step of supporting the flexible wiring board 9 provided with the light emitting element 10 on the surface thereof by the board support portion 8 having higher rigidity than the flexible wiring board 9.
The light emitting element 10 is installed on the flexible wiring board 9 by a conventionally known method. For example, the light emitting element 10 is connected to a wiring formed on the surface of the flexible wiring board 9 with a conductive material such as solder. Use to install.
The flexible wiring substrate 9 is supported on the substrate support portion 8 by a conventionally known method. For example, when the substrate support portion 8 having the flange portion 8b as shown in FIG. 3B is used. Is performed by inserting the flexible wiring board 9 into the groove 8c formed between the flange 8b and the main body 8a on both sides of the main body 8a. And the flexible wiring board 9 is latched by the collar part 8b formed in the both ends of the main-body part 8a.
Although not shown, in the case of using the substrate support portion 8 that has only the main body portion 8a and does not have the flange portion 8b, the flexible wiring board 9 is bonded to both side surfaces of the main body portion 8a with an adhesive or the like. Is done by.

(Second step)
The second step S2 is a step of standing on the base portion 3 (for example, the bottom portion of the concave portion 4 of the base portion) with the substrate support portion 8 on which the flexible wiring substrate 9 is supported being curved or bent in plan view. It is.
As a method of erecting the substrate support portion 8 on the base portion 3, it is preferable to join the substrate support portion 8 to the base portion 3 using screws or the like. However, if the substrate support portion 8 and the base portion 3 can be bonded with sufficient bonding strength, the standing method is not particularly limited. For example, the substrate support portion 8 is bonded to the base portion 3 using an adhesive or the like. You may do it.
In the case where the flexible substrate support portion 8 is used in the first step S1, the substrate support portion 8 on which the flexible wiring substrate 9 is supported is curved in plan view, such as annular in plan view. Alternatively, after deforming into a bent shape, the deformed substrate support portion 8 is erected on the base portion 3. In addition, when using the substrate support portion 8 that has been bent or bent in plan view and has substantially no flexibility, the substrate support portion is supported while the flexible wiring substrate 9 is supported. 8 is erected on the base portion 3.
In addition, when the board | substrate support part 8 is produced integrally with the base part 3, 2nd process S2 is not performed but 3rd process S3 which is the next process is performed after 1st process S1 completion | finish.

(Third step)
The third step S3 is a step of manufacturing the housing 2 by joining the cover portion 5 to the base portion 3 so as to cover the base portion 3 (for example, the concave portion 4 of the base portion). The joining method of the base part 3 and the cover part 5 is preferably joined by bonding with an adhesive or the like. However, as long as the base part 3 and the cover part 5 can be joined with sufficient joining strength, the base part 3 and the cover part 5 may be joined by a method other than adhesion.

  By performing the third step S3, the space portion 7 is formed inside the housing 2, and the space portion 7 is curved or bent in a plan view (in the illustrated example, the space portion 7 is formed). Along the direction, a substrate support 8 is erected. As a result, the flexible wiring board 9 supported by the board support portion 8 and the light emitting element 10 provided on the flexible wiring board 9 are arranged in a curved or bent shape in plan view. Become.

In the method for manufacturing a light emitting device according to the present invention, when the housing 2 includes the reflecting portion 12, the light is reflected on the surface of the base portion 3 (the surface of the concave portion 4 of the base portion 3) before performing the second step S2. The process of providing the part 12 is performed.
As a method of providing the reflecting portion 12, a metal sheet such as Al constituting the reflecting portion 12 is bonded to the surface of the recess 4 with an adhesive or the like. In addition, as a method of providing the reflection part 12, you may use metal vapor deposition and metal plating of metals, such as Al.

  By performing the process of providing the reflection part 12, the light emitting element 10 will be arrange | positioned in the position facing the reflection part 12. FIG. Thereby, the light from the light emitting element 10 is reflected in the direction of the cover part 5 by the reflecting part 12, and the light flux emitted from the cover part 5 to the outside of the light emitting device is increased, so that the light extraction efficiency is improved.

  The light emitting device manufactured by the above-described steps is a light emitting device that has excellent heat dissipation and is easy to manufacture. And when this light-emitting device is installed on a ceiling or a wall surface as a lighting device and is lit, it is possible to extend the life of the light-emitting element, and thus the light-emitting device itself, due to excellent heat dissipation. . In addition, since the light emitting device can secure sufficient illuminance due to excellent light extraction efficiency, the light emitting device has higher reliability.

  As described above, the light emitting device 1 in which the casing 2 (space portion 7), the substrate support portion 8, and the flexible wiring substrate 9 are annular in plan view has been described as an example. 1 can be variously changed and modified without departing from the gist of the present invention. For example, although not illustrated, the present invention can also be applied to a light emitting device in which a housing (space portion), a substrate support portion, and a flexible wiring substrate are U-shaped in plan view. In this case, the flexible wiring board may be supported only on one side (one side) of the substrate support part, or may be supported on both sides (both sides). Further, for example, although not shown, the present invention includes a light guide plate on a base portion of a box-shaped housing, and a substrate support portion and a flexible wiring board are provided around (side) the light guide plate. The present invention can also be applied to a light-emitting device provided in a shape that is curved or bent in a plan view, such as a ring shape in a plan view. In this case, it is preferable that the flexible wiring substrate is supported only on one side (one side) of the substrate support portion facing the light guide plate.

DESCRIPTION OF SYMBOLS 1 Light-emitting device 2 Case 3 Base part 4 Recessed part 5 Cover part 7 Space part 8 Board | substrate support part 9 Flexible wiring board 10 Light emitting element 12 Reflecting part S1 1st process S2 2nd process S3 3rd process

Claims (6)

A housing in which a space portion surrounded by a base portion and a cover portion covering the base portion is formed;
In the space portion, a substrate support portion having a curved or bent shape in a plan view standing on the base portion;
A flexible wiring board supported by the board support part;
A light emitting element provided on the surface of the flexible wiring board,
The substrate support is rather high rigidity than the flexible wiring board, and,
The substrate support part is formed between a plate-like main body part, a flange part formed on both sides of an upper end part and a lower end part of the main body part, and the flexible wiring formed between the main body part and the flange part. A light emitting device comprising: a groove portion into which a substrate is inserted .   The light emitting device according to claim 1, wherein the substrate support portion has flexibility.   The light emitting device according to claim 1, wherein the base portion is made of a metal material.   The said housing | casing is further provided in the said base part, and further contains the reflection part which reflects the light from the said light emitting element in the direction of the said cover part, The Claim 1 thru | or 3 characterized by the above-mentioned. The light-emitting device of description.   The light emitting device according to claim 4, wherein a height of the substrate support portion is less than half of a maximum height from the base portion to the cover portion. The space portion and the substrate support portion are annular in plan view,
6. The light emitting device according to claim 1, wherein two flexible wiring boards are supported on the board support portion in opposite directions.

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