JP2009289663A - Surface light source lighting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate positioning work of a plurality of point-like light sources 1, a wiring board 2 and a reflector 3 to a light guide plate 4. <P>SOLUTION: The surface light source lighting device 10 is formed by: fitting an upper side portion 3a of the reflector 3 of approximately U-shaped cross section to an emission face (an upper face) 4b of the light guide plate 4 so that the plurality of point-like light sources 1 mounted on the wiring board 2 face an incident face 4a of the light guide plate 4 and so that a clearance is formed between the light sources 1 and the incident face 4a; and fitting a lower side portion 3b of the reflector 3 to a lower face 4c of the light guide plate 4 so that light incident from the incident face 4a is guided by the light guide plate 4 and emitted from the emission face 4b to make the emission face 4b look shining in plane shape. A protrusion 3a1 is formed at the lower face of the upper side portion 3a; and a recess 4b1 engaged with the protrusion 3a1 is formed at the emission face 4b. A protrusion 3b1 is formed at the upper face of the lower side portion 3b; and a recess 4c1 engaged with the protrusion 3b1 is formed at the lower face 4c. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention includes a plurality of point light sources, a wiring board for mounting the plurality of point light sources, and a reflector for reflecting light from the plurality of point light sources. The present invention relates to a planar light source illuminating device including a light guide plate having an incident surface on which incident light and / or light from a reflector are incident, an emission surface substantially orthogonal to the incident surface, and a lower surface facing the emission surface.

  In particular, the present invention relates to a planar light source illumination device capable of facilitating positioning work of a plurality of point light sources, a wiring board, and a reflector with respect to a light guide plate.

  Specifically, the present invention relates to a planar light source illuminating device that can reduce variations in gaps between a plurality of point light sources of a mass-produced planar light source illuminating device and an incident surface of a light guide plate.

  Conventionally, a plurality of point light sources, a wiring board for mounting a plurality of point light sources, and a reflector for reflecting light from the plurality of point light sources, 2. Description of the Related Art A planar light source illumination device is known that includes a light guide plate having an incident surface on which light and / or light from a reflector is incident and an exit surface that is substantially orthogonal to the incident surface. As an example of this type of planar light source illumination device, there is one described in FIGS. 2 and 3 of JP-A-2005-174820, for example.

  In the planar light source illuminating device described in FIG. 2 and FIG. 3 of JP-A-2005-174820, the incident surface is formed on the side surface of the light guide plate, and the emission surface (light emitting surface) is formed on the upper surface of the light guide plate. Yes. A wiring board on which a plurality of point light sources are mounted is attached to the reflector.

  Specifically, in the planar light source lighting device described in FIGS. 2 and 3 of Japanese Patent Application Laid-Open No. 2005-174820, the upper portion of the reflector having a substantially U-shaped cross section and the emission surface (light emitting surface) of the light guide plate , The lower surface portion of the reflector and the lower surface of the light guide plate are fitted together. Thereby, in the planar light source illuminating device described in FIGS. 2 and 3 of JP-A-2005-174820, a plurality of point light sources are opposed to the incident surface of the light guide plate.

  As a result, in the planar light source lighting device described in FIGS. 2 and 3 of JP-A-2005-174820, light incident from the incident surface is guided by the light guide plate and is emitted from the emission surface (light emitting surface). The light is emitted and the emission surface (light emitting surface) is configured to shine in a planar shape.

  By the way, in the planar light source lighting device described in FIG. 2 and FIG. 3 of JP-A-2005-174820, the upper portion of the reflector and the exit surface (light emitting surface, upper surface) of the light guide plate are fitted and the reflector is used. A plurality of point light sources, a wiring board, and a reflector are attached to the light guide plate by fitting the lower portion of the light guide plate with the lower surface of the light guide plate, but FIGS. 2 and 3 of JP-A-2005-174820. In the planar light source illuminating device described in 1), means for positioning the plurality of point light sources, the wiring board and the reflector with respect to the light guide plate is not provided.

  Therefore, in the planar light source illuminating device described in FIG. 2 and FIG. 3 of Japanese Patent Application Laid-Open No. 2005-174820, when the plurality of point light sources, the wiring board, and the reflector are attached to the light guide plate, the upper portion of the reflector And the light exiting surface (light emitting surface, upper surface) of the light guide plate are fitted together, and the lower portion of the reflector and the lower surface of the light guide plate are fitted together. Fine adjustment of the gap between the surfaces is performed by an assembly operator.

  In other words, in the planar light source illumination device described in FIGS. 2 and 3 of Japanese Patent Application Laid-Open No. 2005-174820, an assembling worker can make a fine gap between the plurality of point light sources and the incident surface of the light guide plate. Without adjustment, the plurality of point light sources, the wiring board, and the reflector cannot be positioned with respect to the light guide plate.

  Therefore, in the planar light source illuminating device described in FIG. 2 and FIG. 3 of Japanese Patent Application Laid-Open No. 2005-174820, the positioning work of the plurality of point light sources, the wiring board, and the reflector with respect to the light guide plate becomes complicated, and the planar shape The cost of the entire light source lighting device increases.

  Further, in the planar light source lighting device described in FIGS. 2 and 3 of Japanese Patent Application Laid-Open No. 2005-174820, an assembly operator performs fine adjustment of the gaps between the plurality of point light sources and the incident surface of the light guide plate. Therefore, there is a risk that variations in gaps between the plurality of point light sources of the mass-produced planar light source lighting device and the incident surface of the light guide plate may occur.

2 and 3 of JP-A-2005-174820

  In view of the above problems, an object of the present invention is to provide a planar light source illuminating device capable of facilitating positioning work of a plurality of point light sources, a wiring board, and a reflector with respect to a light guide plate.

  It is another object of the present invention to provide a planar light source illuminating device that can reduce variations in gaps between a plurality of point light sources of mass-produced planar light source illuminating devices and an incident surface of a light guide plate. And

  According to the invention described in claim 1, the plurality of point light sources (1), the wiring board (2) for mounting the plurality of point light sources (1), and the plurality of point light sources (1). An incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an incident surface A light guide plate (4) having an emission surface (4b) substantially orthogonal to (4a) and a lower surface (4c) facing the emission surface (4b), and the incidence surface (4a) of the light guide plate (4). Formed on the side surface, the emission surface (4b) is formed on the upper surface of the light guide plate (4), the wiring board (2) on which the plurality of point light sources (1) are mounted is attached to the reflector (3), The light source (1) faces the incident surface (4a) of the light guide plate (4), and a plurality of point light sources (1) and the light guide plate (4) are inserted. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-section and the exit surface (4b) of the light guide plate (4) are fitted so that a gap is formed between the surface (4a) and the surface (4a). And the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted together, and the light incident from the incident surface (4a) is transmitted by the light guide plate (4). In the planar light source illuminating device (10) configured to be guided and emitted from the emission surface (4b) so that the emission surface (4b) shines in a planar shape, the upper portion (3a) of the reflector (3) A projection (3a1) is formed on the lower surface of the light guide plate, and a recess (4b1) for engaging with the projection (3a1) of the upper portion (3a) of the reflector (3) is formed on the exit surface (4b) of the light guide plate (4) A protrusion (3b1) is formed on the upper surface of the lower part (3b) of the reflector (3) A recess (4c1) is formed on the lower surface (4c) of the light guide plate (4) to engage with the protrusion (3b1) of the lower part (3b) of the kuta (3), and the upper part (3a of the reflector (3) ) And the projection (3b1) of the lower part (3b) of the reflector (3) and the light guide plate (3b1) are engaged with the recess (4b1) of the exit surface (4b) of the light guide plate (4). By engaging the recess (4c1) on the lower surface (4c) of 4), the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). A planar light source illumination device (10) is provided.

  According to the invention described in claim 2, the plurality of point light sources (1), the wiring board (2) for mounting the plurality of point light sources (1), and the plurality of point light sources (1). An incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an incident surface A light guide plate (4) having an emission surface (4b) substantially orthogonal to (4a), an incident surface (4a) formed on a side surface of the light guide plate (4), and an output surface (4b) as a light guide plate ( The wiring board (2) formed on the upper surface of 4) and mounted with the plurality of point light sources (1) is attached to the reflector (3), and the plurality of point light sources (1) are incident surfaces of the light guide plate (4). A gap is formed between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) so as to face (4a). The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the emission surface (4b) of the light guide plate (4) and the lower portion (3b) of the reflector (3). And the lower surface (4c) of the light guide plate (4) are fitted together, and light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the output surface (4b). In the planar light source illuminating device (10) configured such that (4b) appears to shine planarly, a protrusion (3a1) is formed on the lower surface of the upper portion (3a) of the reflector (3), and the reflector (3) A recess (4b1) for engaging with the projection (3a1) of the upper portion (3a) of the light guide plate (4) is formed on the exit surface (4b), and the projection of the upper portion (3a) of the reflector (3) ( 3a1) and the recess (4b1) of the exit surface (4b) of the light guide plate (4) are engaged. Thus, a planar light source illumination device (10) characterized in that a plurality of point light sources (1), a wiring board (2), and a reflector (3) are positioned with respect to the light guide plate (4) is provided. .

  According to the third aspect of the present invention, from the plurality of point light sources (1), the wiring board (2) for mounting the plurality of point light sources (1), and the plurality of point light sources (1). An incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an incident surface A light guide plate (4) having an emission surface (4b) substantially orthogonal to (4a) and a lower surface (4c) facing the emission surface (4b), and the incidence surface (4a) of the light guide plate (4). Formed on the side surface, the emission surface (4b) is formed on the upper surface of the light guide plate (4), the wiring board (2) on which the plurality of point light sources (1) are mounted is attached to the reflector (3), The light source (1) faces the incident surface (4a) of the light guide plate (4), and a plurality of point light sources (1) and the light guide plate (4) are inserted. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-section and the exit surface (4b) of the light guide plate (4) are fitted so that a gap is formed between the surface (4a) and the surface (4a). And the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted together, and the light incident from the incident surface (4a) is transmitted by the light guide plate (4). In the planar light source illumination device (10) configured to be guided and emitted from the exit surface (4b), and the exit surface (4b) appears to shine in a planar shape, the lower portion (3b) of the reflector (3) ) On the upper surface of the light guide plate (4) and a recess (4c1) for engaging with the protrusion (3b1) on the lower portion (3b) of the reflector (3) on the lower surface (4c) of the light guide plate (4). The projection (3b1) of the lower part (3b) of the reflector (3) and the lower surface of the light guide plate (4) ( A plurality of point light sources (1), a wiring board (2), and a reflector (3) are positioned with respect to the light guide plate (4) by engaging with the recess (4c1) of c). A planar light source illumination device (10) is provided.

  According to the invention described in claim 4, a plurality of point light sources (1), a wiring board (2) for mounting a plurality of point light sources (1), and a plurality of point light sources (1). An incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an incident surface A light guide plate (4) having an emission surface (4b) substantially orthogonal to (4a) and a lower surface (4c) facing the emission surface (4b), and the incidence surface (4a) of the light guide plate (4). Formed on the side surface, the emission surface (4b) is formed on the upper surface of the light guide plate (4), the wiring board (2) on which the plurality of point light sources (1) are mounted is attached to the reflector (3), The light source (1) faces the incident surface (4a) of the light guide plate (4), and a plurality of point light sources (1) and the light guide plate (4) are inserted. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-section and the exit surface (4b) of the light guide plate (4) are fitted so that a gap is formed between the surface (4a) and the surface (4a). And the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted together, and the light incident from the incident surface (4a) is transmitted by the light guide plate (4). In the planar light source illuminating device (10) configured to be guided and emitted from the exit surface (4b) so that the exit surface (4b) shines in a planar shape, the exit surface (4b) of the light guide plate (4). ) And a recess (3a2) for engaging with the protrusion (4b2) on the exit surface (4b) of the light guide plate (4) on the lower surface of the upper part (3a) of the reflector (3). Forming a protrusion (4c2) on the lower surface (4c) of the light guide plate (4), and forming a lower surface (4c) of the light guide plate (4). A recess (3b2) for engaging with the protrusion (4c2) of the light guide plate (4) is formed on the upper surface of the lower part (3b) of the reflector (3), and the protrusion (4b2) of the light exit surface (4b) of the light guide plate (4) The recess (3a2) of the upper part (3a) of the reflector (3) is engaged, and the protrusion (4c2) of the lower surface (4c) of the light guide plate (4) and the lower part (3b) of the reflector (3) A plurality of point light sources (1), a wiring board (2), and a reflector (3) are positioned with respect to the light guide plate (4) by engaging with the recess (3b2). A light source illumination device (10) is provided.

  According to the invention described in claim 5, a plurality of point light sources (1), a wiring board (2) for mounting a plurality of point light sources (1), and a plurality of point light sources (1). An incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an incident surface A light guide plate (4) having an emission surface (4b) substantially orthogonal to (4a), an incident surface (4a) formed on a side surface of the light guide plate (4), and an output surface (4b) as a light guide plate ( The wiring board (2) formed on the upper surface of 4) and mounted with the plurality of point light sources (1) is attached to the reflector (3), and the plurality of point light sources (1) are incident surfaces of the light guide plate (4). A gap is formed between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) so as to face (4a). The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the emission surface (4b) of the light guide plate (4) and the lower portion (3b) of the reflector (3). And the lower surface (4c) of the light guide plate (4) are fitted together, and light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the output surface (4b). In the planar light source illuminating device (10) configured such that (4b) appears to shine in a planar shape, protrusions (4b2) are formed on the exit surface (4b) of the light guide plate (4), and the light guide plate (4) A recess (3a2) for engaging with the projection (4b2) of the exit surface (4b) is formed on the lower surface of the upper portion (3a) of the reflector (3), and the exit surface (4b) of the light guide plate (4) is formed. By engaging the protrusion (4b2) with the recess (3a2) of the upper part (3a) of the reflector (3). A plurality of point light sources (1), the wiring board (2) and the reflector (3) planar light source illumination device, wherein a is positioned relative light guide plate (4) (10) is provided.

  According to the invention described in claim 6, a plurality of point light sources (1), a wiring board (2) for mounting a plurality of point light sources (1), and a plurality of point light sources (1). An incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an incident surface A light guide plate (4) having an emission surface (4b) substantially orthogonal to (4a) and a lower surface (4c) facing the emission surface (4b), and the incidence surface (4a) of the light guide plate (4). Formed on the side surface, the emission surface (4b) is formed on the upper surface of the light guide plate (4), the wiring board (2) on which the plurality of point light sources (1) are mounted is attached to the reflector (3), The light source (1) faces the incident surface (4a) of the light guide plate (4), and a plurality of point light sources (1) and the light guide plate (4) are inserted. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-section and the exit surface (4b) of the light guide plate (4) are fitted so that a gap is formed between the surface (4a) and the surface (4a). And the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted together, and the light incident from the incident surface (4a) is transmitted by the light guide plate (4). In the planar light source illuminating device (10) configured to be guided and emitted from the exit surface (4b) so that the exit surface (4b) shines planarly, the lower surface (4c) of the light guide plate (4) A protrusion (4c2) is formed on the upper surface of the lower portion (3b) of the reflector (3), and a recess (3b2) is formed to engage with the protrusion (4c2) on the lower surface (4c) of the light guide plate (4). The projection (4c2) on the lower surface (4c) of the light guide plate (4) and the lower part (3b) of the reflector (3) A plurality of point light sources (1), a wiring board (2), and a reflector (3) are positioned with respect to the light guide plate (4) by engaging with the portion (3b2). A light source illumination device (10) is provided.

  According to the invention described in claim 7, the wiring board (2) is disposed outside the reflector (3) having a substantially U-shaped cross section, and the through hole (3c) is formed in the reflector (3). The plurality of point light sources (1) mounted on the wiring board (2) are protruded to the inside of the reflector (3) through the through holes (3c). A planar light source illumination device (10) according to claim 1 is provided.

  According to the eighth aspect of the present invention, the cylindrical portions (3a3, 3a4) are formed at the tip of the upper portion (3a) of the reflector (3) having a substantially U-shaped cross section, and the reflector (3) A cylindrical portion (3b3) is formed at the tip of the lower portion (3b), and the cylindrical portions (3a3, 3a4) of the upper portion (3a) of the reflector (3) when the reflector (3) is attached to and detached from the light guide plate (4). ) And the lower handle attached to the cylindrical portion (3b3) of the lower portion (3b) of the reflector (3) when the reflector (3) is attached to and detached from the light guide plate (4). (11b) is provided, The planar light source illuminating device (10) according to any one of claims 1 to 7 is provided.

  According to the invention described in claim 9, the wiring board (2) is disposed outside the reflector (3) having a substantially U-shaped cross section, and the through hole (3c) is formed in the reflector (3). A plurality of point light sources (1) mounted on the wiring board (2) are projected to the inside of the reflector (3) through the through holes (3c) and have a substantially U-shaped cross section (3 ) Is formed at the tip of the upper part (3a) of the upper part (3a), and the cylindrical part (3b3) is formed at the tip of the lower part (3b) of the reflector (3). The upper handle (11a) attached to the cylindrical portions (3a3, 3a4) of the upper portion (3a) of the reflector (3) when the reflector (3) is attached to or detached from the reflector (3), and the reflector (3) to the light guide plate (4) The cylindrical part (3b) of the lower part (3b) of the reflector (3) during attachment / detachment And a lower handle (11b) to be mounted on the wiring board (2), and a notch (2a) for escaping the upper handle (11a) or the lower handle (11b) is formed in the wiring board (2). A planar light source illumination device (10) according to any one of claims 1 to 6 is provided.

  In the planar light source illumination device (10) according to claim 1, a plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a plurality of point points. A reflector (3) for reflecting light from the light source (1) is provided. Further, an incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an exit surface (4b) substantially orthogonal to the incident surface (4a), A light guide plate (4) having a lower surface (4c) facing the emission surface (4b) is provided.

  Furthermore, in the planar light source illumination device (10) according to claim 1, the incident surface (4a) is formed on the side surface of the light guide plate (4). Moreover, the output surface (4b) is formed on the upper surface of the light guide plate (4). Furthermore, a wiring board (2) on which a plurality of point light sources (1) are mounted is attached to the reflector (3).

  Moreover, in the planar light source illuminating device (10) according to claim 1, the plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources are provided. An upper portion (3a) of the reflector (3) having a substantially U-shaped cross section so that a desired gap is formed between the light source (1) and the incident surface (4a) of the light guide plate (4); The light exiting surface (4b) of the light guide plate (4) is fitted, and the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted.

  As a result, in the planar light source illuminating device (10) according to claim 1, light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the exit surface (4b), The exit surface (4b) is configured to look like a plane.

  Specifically, in the planar light source illuminating device (10) according to claim 1, the protrusion (3a1) is formed on the lower surface of the upper portion (3a) of the reflector (3). Furthermore, the recessed part (4b1) for engaging with protrusion (3a1) of the upper part (3a) of a reflector (3) is formed in the output surface (4b) of a light-guide plate (4).

  Moreover, in the planar light source illumination device (10) according to claim 1, the projection (3b1) is formed on the upper surface of the lower portion (3b) of the reflector (3). Further, a recess (4c1) for engaging with the protrusion (3b1) of the lower part (3b) of the reflector (3) is formed on the lower surface (4c) of the light guide plate (4).

  Therefore, in the planar light source illuminating device (10) according to claim 1, when the plurality of point light sources (1), the wiring board (2) and the reflector (3) are attached to the light guide plate (4), When the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4), the upper portion (3a) of the reflector (3) The protrusion (3a1) engages with the recess (4b1) of the emission surface (4b) of the light guide plate (4). Further, when the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted, the projection (3b1) of the lower portion (3b) of the reflector (3) is guided. The concave portion (4c1) of the lower surface (4c) of the optical plate (4) is engaged.

  As a result, in the planar light source illumination device (10) according to claim 1, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). .

  In other words, in the planar light source illumination device (10) according to claim 1, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are attached to the light guide plate (4). Sometimes, a plurality of point light sources (1) and wiring are not finely adjusted by an assembly operator without fine adjustment of the gaps between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4).

  Therefore, according to the planar light source illuminating device (10) according to claim 1, the assembling operator can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The positioning work of the plurality of point light sources (1), the wiring board (2), and the reflector (3) with respect to the light guide plate (4) can be facilitated as compared with the case where fine adjustment is required.

  That is, according to the planar light source illuminating device (10) according to claim 1, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). More variation in gaps between the plurality of point light sources (1) of the mass-produced planar light source illumination device (10) and the incident surface (4a) of the light guide plate (4) than when fine adjustment is required. Can be reduced.

  In the planar light source lighting device (10) according to claim 2, a plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a plurality of point points. A reflector (3) for reflecting light from the light source (1) is provided. Moreover, the incident surface (4a) into which the light from a some point light source (1) and / or the light from a reflector (3) inject, and the output surface (4b) substantially orthogonal to an incident surface (4a) are provided. A light guide plate (4) is provided.

  Furthermore, in the planar light source illumination device (10) according to claim 2, the incident surface (4a) is formed on the side surface of the light guide plate (4). Moreover, the output surface (4b) is formed on the upper surface of the light guide plate (4). Furthermore, a wiring board (2) on which a plurality of point light sources (1) are mounted is attached to the reflector (3).

  Moreover, in the planar light source illuminating device (10) according to claim 2, the plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources are provided. An upper portion (3a) of the reflector (3) having a substantially U-shaped cross section so that a desired gap is formed between the light source (1) and the incident surface (4a) of the light guide plate (4); The light exiting surface (4b) of the light guide plate (4) is fitted, and the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted.

  As a result, in the planar light source illuminating device (10) according to claim 2, the light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the exit surface (4b), The exit surface (4b) is configured to look like a plane.

  Specifically, in the planar light source illumination device (10) according to claim 2, the protrusion (3a1) is formed on the lower surface of the upper portion (3a) of the reflector (3). Furthermore, the recessed part (4b1) for engaging with protrusion (3a1) of the upper part (3a) of a reflector (3) is formed in the output surface (4b) of a light-guide plate (4).

  Therefore, in the planar light source illuminating device (10) according to claim 2, when the plurality of point light sources (1), the wiring board (2) and the reflector (3) are attached to the light guide plate (4), When the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4), the upper portion (3a) of the reflector (3) The protrusion (3a1) engages with the recess (4b1) of the emission surface (4b) of the light guide plate (4).

  As a result, in the planar light source illumination device (10) according to claim 2, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). .

  In other words, in the planar light source illumination device (10) according to claim 2, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are attached to the light guide plate (4). Sometimes, a plurality of point light sources (1) and wiring are not finely adjusted by an assembly operator without fine adjustment of the gaps between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4).

  Therefore, according to the planar light source illuminating device (10) according to claim 2, the assembling operator can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The positioning work of the plurality of point light sources (1), the wiring board (2), and the reflector (3) with respect to the light guide plate (4) can be facilitated as compared with the case where fine adjustment is required.

  That is, according to the planar light source illuminating device (10) according to claim 2, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). More variation in gaps between the plurality of point light sources (1) of the mass-produced planar light source illumination device (10) and the incident surface (4a) of the light guide plate (4) than when fine adjustment is required. Can be reduced.

  In the planar light source illumination device (10) according to claim 3, a plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a plurality of point points. A reflector (3) for reflecting light from the light source (1) is provided. Further, an incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an exit surface (4b) substantially orthogonal to the incident surface (4a), A light guide plate (4) having a lower surface (4c) facing the emission surface (4b) is provided.

  Furthermore, in the planar light source illumination device (10) according to claim 3, the incident surface (4a) is formed on the side surface of the light guide plate (4). Moreover, the output surface (4b) is formed on the upper surface of the light guide plate (4). Furthermore, a wiring board (2) on which a plurality of point light sources (1) are mounted is attached to the reflector (3).

  Moreover, in the planar light source illuminating device (10) according to claim 3, the plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources are provided. An upper portion (3a) of the reflector (3) having a substantially U-shaped cross section so that a desired gap is formed between the light source (1) and the incident surface (4a) of the light guide plate (4); The light exiting surface (4b) of the light guide plate (4) is fitted, and the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted.

  As a result, in the planar light source illuminating device (10) according to claim 3, light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the exit surface (4b). The exit surface (4b) is configured to look like a plane.

  Specifically, in the planar light source illumination device (10) according to claim 3, the protrusion (3b1) is formed on the upper surface of the lower portion (3b) of the reflector (3). Further, a recess (4c1) for engaging with the protrusion (3b1) of the lower part (3b) of the reflector (3) is formed on the lower surface (4c) of the light guide plate (4).

  Therefore, in the planar light source illuminating device (10) according to claim 3, when the plurality of point light sources (1), the wiring board (2) and the reflector (3) are attached to the light guide plate (4), When the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted, the protrusion (3b1) of the lower portion (3b) of the reflector (3) and the light guide plate ( The recess (4c1) on the lower surface (4c) of 4) is engaged.

  As a result, in the planar light source illuminating device (10) according to claim 3, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). .

  In other words, in the planar light source illumination device (10) according to claim 3, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are attached to the light guide plate (4). Sometimes, a plurality of point light sources (1) and wiring are not finely adjusted by an assembly operator without fine adjustment of the gaps between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4).

  Therefore, according to the planar light source illuminating device (10) according to claim 3, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The positioning work of the plurality of point light sources (1), the wiring board (2), and the reflector (3) with respect to the light guide plate (4) can be facilitated as compared with the case where fine adjustment is required.

  That is, according to the planar light source illuminating device (10) according to claim 3, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). More variation in gaps between the plurality of point light sources (1) of the mass-produced planar light source illumination device (10) and the incident surface (4a) of the light guide plate (4) than when fine adjustment is required. Can be reduced.

  In the planar light source illumination device (10) according to claim 4, a plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a plurality of point points. A reflector (3) for reflecting light from the light source (1) is provided. Further, an incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an exit surface (4b) substantially orthogonal to the incident surface (4a), A light guide plate (4) having a lower surface (4c) facing the emission surface (4b) is provided.

  Furthermore, in the planar light source illumination device (10) according to claim 4, the incident surface (4a) is formed on the side surface of the light guide plate (4). Moreover, the output surface (4b) is formed on the upper surface of the light guide plate (4). Furthermore, a wiring board (2) on which a plurality of point light sources (1) are mounted is attached to the reflector (3).

  Moreover, in the planar light source illuminating device (10) according to claim 4, the plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources are provided. An upper portion (3a) of the reflector (3) having a substantially U-shaped cross section so that a desired gap is formed between the light source (1) and the incident surface (4a) of the light guide plate (4); The light exiting surface (4b) of the light guide plate (4) is fitted, and the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted.

  As a result, in the planar light source illuminating device (10) according to claim 4, the light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the exit surface (4b), The exit surface (4b) is configured to look like a plane.

  Specifically, in the planar light source illumination device (10) according to the fourth aspect, the projection (4b2) is formed on the emission surface (4b) of the light guide plate (4). Furthermore, the recessed part (3a2) for engaging with protrusion (4b2) of the output surface (4b) of a light-guide plate (4) is formed in the lower surface of the upper part (3a) of a reflector (3).

  Moreover, in the planar light source illumination device (10) according to claim 4, the protrusion (4c2) is formed on the lower surface (4c) of the light guide plate (4). Further, a recess (3b2) for engaging with the protrusion (4c2) on the lower surface (4c) of the light guide plate (4) is formed on the upper surface of the lower portion (3b) of the reflector (3).

  Therefore, in the planar light source illuminating device (10) according to claim 4, when the plurality of point light sources (1), the wiring board (2) and the reflector (3) are attached to the light guide plate (4), When the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-section and the exit surface (4b) of the light guide plate (4) are fitted, the exit surface (4b) of the light guide plate (4). The protrusion (4b2) of the upper surface and the recess (3a2) of the upper part (3a) of the reflector (3) engage with each other. Furthermore, when the lower part (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted, the projection (4c2) of the lower surface (4c) of the light guide plate (4) and the reflector ( 3) The concave portion (3b2) of the lower portion (3b) engages.

  As a result, in the planar light source illumination device (10) according to claim 4, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). .

  In other words, in the planar light source illumination device (10) according to claim 4, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are attached to the light guide plate (4). Sometimes, a plurality of point light sources (1) and wiring are not finely adjusted by an assembly operator without fine adjustment of the gaps between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4).

  Therefore, according to the planar light source illuminating device (10) according to claim 4, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The positioning work of the plurality of point light sources (1), the wiring board (2), and the reflector (3) with respect to the light guide plate (4) can be facilitated as compared with the case where fine adjustment is required.

  That is, according to the planar light source illuminating device (10) according to the fourth aspect, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). More variation in gaps between the plurality of point light sources (1) of the mass-produced planar light source illumination device (10) and the incident surface (4a) of the light guide plate (4) than when fine adjustment is required. Can be reduced.

  In the planar light source illumination device (10) according to claim 5, a plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a plurality of point points. A reflector (3) for reflecting light from the light source (1) is provided. Moreover, the incident surface (4a) into which the light from a some point light source (1) and / or the light from a reflector (3) inject, and the output surface (4b) substantially orthogonal to an incident surface (4a) are provided. A light guide plate (4) is provided.

  Furthermore, in the planar light source illuminating device (10) according to claim 5, the incident surface (4a) is formed on the side surface of the light guide plate (4). Moreover, the output surface (4b) is formed on the upper surface of the light guide plate (4). Furthermore, a wiring board (2) on which a plurality of point light sources (1) are mounted is attached to the reflector (3).

  Moreover, in the planar light source illuminating device (10) according to claim 5, the plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources are provided. An upper portion (3a) of the reflector (3) having a substantially U-shaped cross section so that a desired gap is formed between the light source (1) and the incident surface (4a) of the light guide plate (4); The light exiting surface (4b) of the light guide plate (4) is fitted, and the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted.

  As a result, in the planar light source illuminating device (10) according to claim 5, the light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the exit surface (4b), The exit surface (4b) is configured to look like a plane.

  Specifically, in the planar light source illuminating device (10) according to claim 5, the projection (4b2) is formed on the emission surface (4b) of the light guide plate (4). Furthermore, the recessed part (3a2) for engaging with protrusion (4b2) of the output surface (4b) of a light-guide plate (4) is formed in the lower surface of the upper part (3a) of a reflector (3).

  Therefore, in the planar light source lighting device (10) according to claim 5, when the plurality of point light sources (1), the wiring board (2) and the reflector (3) are attached to the light guide plate (4), When the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-section and the exit surface (4b) of the light guide plate (4) are fitted, the exit surface (4b) of the light guide plate (4). The protrusion (4b2) of the upper surface and the recess (3a2) of the upper part (3a) of the reflector (3) engage with each other.

  As a result, in the planar light source illumination device (10) according to claim 5, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). .

  In other words, in the planar light source illumination device (10) according to claim 5, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are attached to the light guide plate (4). Sometimes, a plurality of point light sources (1) and wiring are not finely adjusted by an assembly operator without fine adjustment of the gaps between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4).

  Therefore, according to the planar light source illuminating device (10) according to claim 5, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The positioning work of the plurality of point light sources (1), the wiring board (2), and the reflector (3) with respect to the light guide plate (4) can be facilitated as compared with the case where fine adjustment is required.

  That is, according to the planar light source illuminating device (10) according to claim 5, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). More variation in gaps between the plurality of point light sources (1) of the mass-produced planar light source illumination device (10) and the incident surface (4a) of the light guide plate (4) than when fine adjustment is required. Can be reduced.

  In the planar light source illumination device (10) according to claim 6, a plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a plurality of point points. A reflector (3) for reflecting light from the light source (1) is provided. Further, an incident surface (4a) on which light from the plurality of point light sources (1) and / or light from the reflector (3) is incident, and an exit surface (4b) substantially orthogonal to the incident surface (4a), A light guide plate (4) having a lower surface (4c) facing the emission surface (4b) is provided.

  Furthermore, in the planar light source illumination device (10) according to claim 6, the incident surface (4a) is formed on the side surface of the light guide plate (4). Moreover, the output surface (4b) is formed on the upper surface of the light guide plate (4). Furthermore, a wiring board (2) on which a plurality of point light sources (1) are mounted is attached to the reflector (3).

  Moreover, in the planar light source illuminating device (10) according to claim 6, a plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and a plurality of point light sources are provided. An upper portion (3a) of the reflector (3) having a substantially U-shaped cross section so that a desired gap is formed between the light source (1) and the incident surface (4a) of the light guide plate (4); The light exiting surface (4b) of the light guide plate (4) is fitted, and the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted.

  As a result, in the planar light source illuminating device (10) according to claim 6, the light incident from the incident surface (4a) is guided by the light guide plate (4) and emitted from the exit surface (4b), The exit surface (4b) is configured to look like a plane.

  Specifically, in the planar light source illuminating device (10) according to claim 6, the protrusion (4c2) is formed on the lower surface (4c) of the light guide plate (4). Further, a recess (3b2) for engaging with the protrusion (4c2) on the lower surface (4c) of the light guide plate (4) is formed on the upper surface of the lower portion (3b) of the reflector (3).

  Therefore, in the planar light source illuminating device (10) according to claim 6, when the plurality of point light sources (1), the wiring board (2) and the reflector (3) are attached to the light guide plate (4), When the lower part (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) are fitted, the protrusion (4c2) on the lower surface (4c) of the light guide plate (4) and the reflector (3) The lower portion (3b) of the lower portion (3b2) engages with the recess (3b2).

  As a result, in the planar light source illuminating device (10) according to claim 6, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are positioned with respect to the light guide plate (4). .

  In other words, in the planar light source illumination device (10) according to claim 6, the plurality of point light sources (1), the wiring board (2), and the reflector (3) are attached to the light guide plate (4). Sometimes, a plurality of point light sources (1) and wiring are not finely adjusted by an assembly operator without fine adjustment of the gaps between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4).

  Therefore, according to the planar light source illuminating device (10) according to claim 6, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). The positioning work of the plurality of point light sources (1), the wiring board (2), and the reflector (3) with respect to the light guide plate (4) can be facilitated as compared with the case where fine adjustment is required.

  That is, according to the planar light source illuminating device (10) according to claim 6, the assembling worker can create a gap between the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4). More variation in gaps between the plurality of point light sources (1) of the mass-produced planar light source illumination device (10) and the incident surface (4a) of the light guide plate (4) than when fine adjustment is required. Can be reduced.

  In the planar light source illumination device (10) according to the seventh aspect, the wiring board (2) is disposed outside the reflector (3) having a substantially U-shaped cross section. A through hole (3c) is formed in the reflector (3). Furthermore, the several point light source (1) mounted in the wiring board (2) is made to protrude inside a reflector (3) through a through-hole (3c).

  In other words, in the planar light source illumination device (10) according to claim 7, the wiring board (2) is not disposed inside the reflector (3) having a substantially U-shaped cross-section, Arranged outside.

  Therefore, according to the planar light source illuminating device (10) described in claim 7, the vertical dimension of the light guide plate (4) fitted to the reflector (3) can be reduced.

  In the planar light source illumination device (10) according to claim 8, cylindrical portions (3a3, 3a4) are formed at the tip of the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape. Yes. Moreover, the cylindrical part (3b3) is formed in the front-end | tip of the lower part (3b) of a reflector (3). In addition, when the reflector (3) is attached to or detached from the light guide plate (4), the upper handle (11a) attached to the cylindrical portions (3a3, 3a4) of the upper portion (3a) of the reflector (3), and the light guide plate (4) There is provided a lower handle (11b) that is attached to the cylindrical portion (3b3) of the lower portion (3b) of the reflector (3) when the reflector (3) is attached to or detached from the reflector.

  Therefore, according to the planar light source illuminating device (10) of claim 8, when removing the reflector (3) from the light guide plate (4), the projection (3a1) of the upper portion (3a) of the reflector (3) Engagement of the exit surface (4b) of the light guide plate (4) with the recess (4b1) and / or the projection (3b1) of the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) The engagement with the recess (4c1) can be easily released.

  Or according to the planar light source illuminating device (10) of Claim 8, protrusion (4b2) of the output surface (4b) of a light-guide plate (4) and the recessed part (3a) of the upper part (3a) of a reflector (3) ( 3a2) and / or the projection (4c2) of the lower surface (4c) of the light guide plate (4) and the recess (3b2) of the lower part (3b) of the reflector (3) are easily released. be able to.

  In the planar light source illumination device (10) according to the ninth aspect, the wiring board (2) is disposed outside the reflector (3) having a substantially U-shaped cross-sectional shape. A through hole (3c) is formed in the reflector (3). Furthermore, the several point light source (1) mounted in the wiring board (2) is made to protrude inside a reflector (3) through a through-hole (3c).

  In other words, in the planar light source illumination device (10) according to claim 9, the wiring board (2) is not disposed inside the reflector (3) having a substantially U-shaped cross-section, Arranged outside.

  Therefore, according to the planar light source illumination device (10) of the ninth aspect, the vertical dimension of the light guide plate (4) fitted to the reflector (3) can be reduced.

  Furthermore, in the planar light source illumination device (10) according to claim 9, the cylindrical portions (3a3, 3a4) are formed at the tip of the upper portion (3a) of the reflector (3) having a substantially U-shaped cross section. Has been. Moreover, the cylindrical part (3b3) is formed in the front-end | tip of the lower part (3b) of a reflector (3). In addition, when the reflector (3) is attached to or detached from the light guide plate (4), the upper handle (11a) attached to the cylindrical portions (3a3, 3a4) of the upper portion (3a) of the reflector (3), and the light guide plate (4) There is provided a lower handle (11b) that is attached to the cylindrical portion (3b3) of the lower portion (3b) of the reflector (3) when the reflector (3) is attached to or detached from the reflector.

  Therefore, according to the planar light source illuminating device (10) according to claim 9, when removing the reflector (3) from the light guide plate (4), the protrusion (3a1) of the upper portion (3a) of the reflector (3) Engagement of the exit surface (4b) of the light guide plate (4) with the recess (4b1) and / or the projection (3b1) of the lower portion (3b) of the reflector (3) and the lower surface (4c) of the light guide plate (4) The engagement with the recess (4c1) can be easily released.

  Or according to the planar light source illuminating device (10) of Claim 9, the protrusion (4b2) of the output surface (4b) of the light guide plate (4) and the recess (3a) of the upper part (3a) of the reflector (3) ( 3a2) and / or the projection (4c2) of the lower surface (4c) of the light guide plate (4) and the recess (3b2) of the lower part (3b) of the reflector (3) are easily released. be able to.

  Furthermore, in the planar light source illumination device (10) according to claim 9, a notch (2a) for escaping the upper handle (11a) or the lower handle (11b) is formed in the wiring board (2). Yes. Therefore, according to the planar light source illumination device (10) of the ninth aspect, the upper handle (11a) or the lower handle (11b) and the wiring board (2) when the reflector (3) is attached to and detached from the light guide plate (4). ) Can interfere with the possibility of the wiring board (2) being damaged.

  Hereinafter, a first embodiment of the planar light source illumination device of the present invention will be described. FIG. 1 is a schematic perspective view of the planar light source illumination device 10 of the first embodiment viewed from the left front side and the upper side, and FIG. 2 is a schematic view of the planar light source illumination device 10 of the first embodiment viewed from the front side. FIG.

  In the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, for example, LEDs arranged in the front-rear direction of the planar light source illumination device 10 (lower right-upper left direction in FIG. 1). A plurality of such point light sources 1 are mounted on the wiring board 2. Specifically, a plurality of point light sources 1 are mounted on the wiring substrate 2 so that a surface (right surface in FIG. 2) orthogonal to the wiring substrate 2 of the point light sources 1 is a light emitting surface. Yes. In the planar light source lighting device 10 of the first embodiment, the wiring board 2 is a glass epoxy board or a metal board on which necessary electrical circuits and insulating layers are formed. In the planar light source illumination device 10 of the embodiment, a flexible substrate can be used as the wiring substrate 2 instead.

  Furthermore, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, in order to reflect the light from the plurality of point light sources 1, it has a substantially U-shaped cross-sectional shape. A reflector 3 is provided. In the planar light source illumination device 10 of the first embodiment, the reflector 3 is formed by, for example, injection molding or extrusion molding of a resin material, but in the planar light source illumination device 10 of the third embodiment, instead. It is also possible to form the reflector 3 by pressing a metal material or the like.

  Further, in the planar light source illumination device 10 of the first embodiment, the inner surface of the reflector 3 is mirror-finished so that the reflectance of the inner surface of the reflector 3 having a substantially U-shaped cross-sectional shape is 80% or more. And a specular reflection surface is formed on the inner surface of the reflector 3. Specifically, for example, a mirror reflection surface is formed on the inner surface of the reflector 3 by depositing or sputtering a metal thin film such as Al or Ag.

  In the planar light source illumination device 10 of the fourth embodiment, instead, a reflector 3 is formed of a highly reflective film formed by sputtering a metal thin film such as Al or Ag on a resin film such as PET or PMMA. It is also possible to form a specular reflection surface on the inner surface of the reflector 3 by adhering to the inner surface. Alternatively, in the planar light source illumination device 10 of the fifth embodiment, for example, the inner surface of the reflector 3 formed by molding a white resin material is used as a reflection surface as it is, or formed by pressing a glossy metal material, for example. It is also possible to use the inner surface of the reflector 3 as a reflection surface as it is.

  Furthermore, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, the wiring board 2 on which a plurality of point light sources 1 are mounted has a substantially U-shaped cross-sectional shape. It is fixed to the inner surface of the reflector 3 by, for example, screwing or bonding.

  Moreover, in the planar light source illuminating device 10 of the first embodiment, as shown in FIGS. 1 and 2, an incident surface on which light from a plurality of point light sources 1 and / or light from the reflector 3 is incident ( A light guide plate 4 having a left side surface 4a, an emission surface (upper surface) 4b substantially orthogonal to the incident surface (left side surface) 4a, and a lower surface 4c facing the emission surface (upper surface) 4b is provided. In the planar light source illumination device 10 of the first embodiment, the light guide plate 4 is formed of, for example, PMMA. However, in the planar light source illumination device 10 of the sixth embodiment, any transparent other than PMMA is used instead. The light guide plate 4 can be formed of a material.

  Specifically, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, the plurality of point light sources 1 are opposed to the incident surface (left side surface) 4 a of the light guide plate 4. In addition, the upper portion of the reflector 3 having a substantially U-shaped cross section so that a desired gap is formed between the plurality of point light sources 1 and the incident surface (left side surface) 4a of the light guide plate 4. 3a and the exit surface (upper surface) 4b of the light guide plate 4 are fitted together, and the lower portion 3b of the reflector 3 and the lower surface 4c of the light guide plate 4 are fitted together.

  Therefore, in the planar light source illumination device 10 of the first embodiment, light incident from the incident surface (left side surface) 4a of the light guide plate 4 is guided by the light guide plate 4 and emitted from the output surface (upper surface) 4b. Is done. As a result, when the planar light source illumination device 10 of the first embodiment is viewed from the upper side of FIG. 2, the exit surface (upper surface) 4 b of the light guide plate 4 appears to shine in a planar shape.

  More specifically, in the planar light source lighting device 10 of the first embodiment, as shown in FIGS. 1 and 2, a protrusion 3 a 1 is formed on the lower surface of the upper portion 3 a of the reflector 3. Further, a concave portion 4 b 1 for engaging with the protrusion 3 a 1 of the upper portion 3 a of the reflector 3 is formed on the emission surface (upper surface) 4 b of the light guide plate 4.

  Further, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, a protrusion 3 b 1 is formed on the upper surface of the lower portion 3 b of the reflector 3. Further, a recess 4 c 1 for engaging with the protrusion 3 b 1 of the lower portion 3 b of the reflector 3 is formed on the lower surface 4 c of the light guide plate 4.

  Therefore, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, when the plurality of point light sources 1, the wiring board 2, and the reflector 3 are attached to the light guide plate 4, When the upper portion 3a of the reflector 3 and the exit surface (upper surface) 4b of the light guide plate 4 are fitted, the protrusion 3a1 of the upper portion 3a of the reflector 3 and the recess 4b1 of the exit surface (upper surface) 4b of the light guide plate 4 are formed. Engage. Further, when the lower portion 3b of the reflector 3 and the lower surface 4c of the light guide plate 4 are fitted, the protrusion 3b1 of the lower portion 3b of the reflector 3 and the concave portion 4c1 of the lower surface 4c of the light guide plate 4 are engaged.

  As a result, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are positioned with respect to the light guide plate 4. .

  In the planar light source illumination device 10 of the first embodiment, as shown in FIG. 2, the cross-sectional shape of the protrusion 3a1 of the upper portion 3a of the reflector 3 and the cross-sectional shape of the protrusion 3b1 of the lower portion 3b of the reflector 3 are the same. Although it is triangular, in the planar light source lighting device 10 of the seventh embodiment, instead, the cross-sectional shape of the protrusion 3a1 of the upper portion 3a of the reflector 3 and the protrusion 3b1 of the lower portion 3b of the reflector 3 The cross-sectional shape can be rectangular.

  Furthermore, in the planar light source illumination device 10 of the first embodiment, as shown in FIG. 2, the protrusion 3a1 of the upper part 3a of the reflector 3 and the protrusion 3b1 of the lower part 3b of the reflector 3 are the same vertical surface. However, in the planar light source lighting device 10 of the eighth embodiment, instead, the protrusion 3a1 of the upper part 3a of the reflector 3 and the protrusion 3b1 of the lower part 3b of the reflector 3 are arranged in the left-right direction ( It is also possible to arrange them shifted in the left-right direction in FIG.

  Moreover, in the planar light source lighting device 10 of the first embodiment, as shown in FIGS. 1 and 2, the optical film is not laminated on the emission surface (upper surface) 4 b of the light guide plate 4. In the planar light source illumination device 10 of the embodiment, instead, an optical film can be laminated on the emission surface (upper surface) 4b of the light guide plate 4 in order to improve the luminance or make the luminance uniform. is there.

  Furthermore, in the planar light source lighting device 10 of the first embodiment, as shown in FIG. 2, no reflective film is disposed under the lower surface 4c of the light guide plate 4, but the planar light source of the tenth embodiment. In the illuminating device 10, it is also possible to dispose a reflective film under the lower surface 4 c of the light guide plate 4 instead.

  Moreover, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, the housing for housing the plurality of point light sources 1, the wiring board 2, the reflector 3 and the light guide plate 4 is provided. Although not provided, in the planar light source lighting device 10 of the eleventh embodiment, instead of resin or metal for housing the plurality of point light sources 1, the wiring board 2, the reflector 3, and the light guide plate 4. It is also possible to provide a housing.

  Furthermore, in the planar light source lighting device 10 of the first embodiment, the wiring (not shown) for supplying power and control signals to the wiring board 2 is on the front side of the reflector 3 (lower right side in FIG. 1) or Although extended from the back side (upper left side of FIG. 1) to the wiring board 2, in the planar light source lighting device 10 of the twelfth embodiment, instead of a notch or a through hole for passing the wiring, the reflector is used. 3 can also be formed.

  In other words, in the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are attached to the light guide plate 4. Sometimes, a plurality of point light sources 1, a wiring board 2, and a reflector are not finely adjusted by an assembling worker without fine adjustment of the gaps between the plurality of point light sources 1 and the incident surface (left side surface) 4a of the light guide plate 4. 3 is positioned with respect to the light guide plate 4.

  Therefore, according to the planar light source illumination device 10 of the first embodiment, the assembly operator performs fine adjustment of the gaps between the plurality of point light sources 1 and the incident surface (left side surface) 4 a of the light guide plate 4. The positioning operation of the plurality of point light sources 1, the wiring board 2, and the reflector 3 with respect to the light guide plate 4 can be facilitated as compared with the case where it is necessary.

  That is, according to the planar light source illumination device 10 of the first embodiment, the assembly operator performs fine adjustment of the gaps between the plurality of point light sources 1 and the incident surface (left side surface) 4 a of the light guide plate 4. As compared with the case where it is necessary, variation in gaps between the plurality of point light sources 1 of the planar light source lighting device 10 to be mass-produced and the incident surface (left side surface) 4a of the light guide plate 4 can be reduced.

  FIG. 3 is a diagram showing the relationship between the reflectance (%) of the inner surface of the reflector 3 and the relative coupling efficiency. Specifically, FIG. 3 changes the reflectance (%) of the inner surface of the reflector 3 of the planar light source lighting device 10 of the first embodiment shown in FIGS. 1 and 2 from 65% to 95%, respectively. It shows the relative coupling efficiency at the reflectance (%). More specifically, the relative coupling efficiency in FIG. 3 is the coupling efficiency in the case where the reflector 3 is not provided (incident from the incident surface (left side surface) 4a of the light guide plate 4 with respect to the total luminous flux emitted from the light source 1, The planar light source illumination device 10 of the first embodiment in which the reflector 3 is provided for the incident surface (left side surface) 4a of the light guide plate 4 with respect to the position 5 mm to the right side (right side in FIG. 2). The ratio of the coupling efficiency is shown. In FIG. 3, the fact that the relative coupling efficiency is large means that the effect associated with the provision of the reflector 3 is great.

  In order to obtain the relationship between the reflectance (%) of the inner surface of the reflector 3 shown in FIG. 3 and the relative coupling efficiency, the thickness of the light guide plate 4 (the vertical dimension in FIG. 2) was set to 1.5 mm. Moreover, the clearance gap between the some point light source 1 and the entrance plane (left side surface) 4a of the light-guide plate 4 was set to 0.5 mm. Further, an LED chip of 0.3 mm × 0.3 mm was used as the point light source 1. Further, the interval between two adjacent point light sources 1 is set to 3.55 mm, and the five point light sources 1 are arranged in the front-rear direction of the planar light source illumination device 10 (lower right-upper left direction in FIG. 1). did. Further, the distance between the lower surface of the upper portion 3a and the upper surface of the lower portion 3b of the reflector 3 was set to 1.502 mm. Moreover, the left-right direction (left-right direction of FIG. 2) dimension of the upper part 3a and the lower part 3b of the reflector 3 was set to 2.5 mm.

  As shown in FIG. 3, it can be seen that the provision of the reflector 3 provides an effect of improving the coupling efficiency. It can also be seen that the reflectance of the inner surface of the reflector 3 needs to be 80% or more in order to obtain a coupling efficiency improvement effect of about 10% or more.

  FIG. 4 is a schematic sectional view of the surface light source illumination device 10 of the thirteenth embodiment as viewed from the front side. In the planar light source illumination device 10 of the first embodiment, as shown in FIG. 2, the wiring board 2 is arranged inside the reflector 3 having a substantially U-shaped cross section, but the thirteenth embodiment. In the planar light source illumination device 10, as shown in FIG. 4, the wiring board 2 is disposed outside the reflector 3 having a substantially U-shaped cross-sectional shape. Further, a through hole 3 c is formed in the reflector 3. Further, a plurality of point light sources 1 mounted on the wiring board 2 are projected inside the reflector 3 through the through holes 3c. Therefore, according to the planar light source illumination device 10 of the thirteenth embodiment, the vertical dimension (vertical direction in FIG. 4) of the light guide plate 4 fitted to the reflector 3 can be reduced.

  FIG. 5 is a schematic sectional view of the surface light source illumination device 10 of the fourteenth embodiment as viewed from the front side. In the planar light source illumination device 10 of the first embodiment, as shown in FIG. 2, a surface (right surface in FIG. 2) orthogonal to the wiring board 2 of the point light source 1 is a light emitting surface. As described above, the plurality of point light sources 1 are mounted on the wiring board 2. However, in the planar light source lighting device 10 of the fourteenth embodiment, as shown in FIG. A plurality of point light sources 1 are mounted on the wiring board 2 so that a surface parallel to 2 (a surface on the right side in FIG. 5) becomes a light emitting surface.

  In other words, in the planar light source lighting device 10 of the first embodiment, the wiring board 2 is attached to the lower portion 3b of the reflector 3 as shown in FIG. 2, but the surface of the fourteenth embodiment. In the planar light source illumination device 10, as shown in FIG. 5, the wiring substrate 2 is attached to the side surface portion of the reflector 3. In addition, a plurality of point light sources 1 mounted on the wiring board 2 are protruded inside the reflector 3 through the through holes 3c.

  In the planar light source illumination device 10 of the fourteenth embodiment, as shown in FIG. 5, the wiring board 2 is disposed outside the reflector 3 having a substantially U-shaped cross section. In the planar light source illumination device 10, when the vertical dimension of the wiring board 2 is small, the wiring board 2 can be disposed inside the reflector 3 having a substantially U-shaped cross-sectional shape.

  FIG. 6 is a schematic cross-sectional view of the planar light source illumination device 10 according to the sixteenth embodiment as viewed from the front side. FIG. 7 is a schematic view of the planar light source illumination device 10 of the sixteenth embodiment viewed from the left front side and the upper side in a state where the upper handle 11a and the lower handle 11b used when the reflector 3 is attached to and detached from the light guide plate 4 are mounted. FIG.

  In the planar light source illumination device 10 of the sixteenth embodiment, as shown in FIGS. 6 and 7, cylindrical portions 3a3 and 3a4 are formed at the tip of the upper portion 3a of the reflector 3 having a substantially U-shaped cross-sectional shape. Has been. A cylindrical portion 3b3 is formed at the tip of the lower portion 3b of the reflector 3. Further, a cylindrical part (not shown) formed vertically symmetrical with the cylindrical part 3 a 4 of the upper part 3 a of the reflector 3 is provided in the lower part 3 b of the reflector 3.

  Furthermore, in the planar light source illumination device 10 of the sixteenth embodiment, as shown in FIG. 7, when the reflector 3 is attached to and detached from the light guide plate 4, the upper side is mounted on the cylindrical portions 3 a 3 and 3 a 4 of the upper portion 3 a of the reflector 3. A handle 11a and a lower handle 11b attached to the cylindrical portion 3b3 of the lower portion 3b of the reflector 3 when the reflector 3 is attached to and detached from the light guide plate 4 are provided.

  Therefore, according to the planar light source illumination device 10 of the sixteenth embodiment, when the light guide plate 4 is inserted inside the reflector 3 having a substantially U-shaped cross-sectional shape, the left end and the lower handle 11b of the upper handle 11a. , The opening of the reflector 3 can be sufficiently opened, and as a result, the projection 3a1 of the upper portion 3a of the reflector 3 and the exit surface (upper surface) 4b of the light guide plate 4 are separated, and The protrusion 3b1 of the lower portion 3b of the reflector 3 and the lower surface 4c of the light guide plate 4 can be separated from each other, and the reflector 3 can be easily attached to the light guide plate 4.

  Further, according to the planar light source illumination device 10 of the sixteenth embodiment, when the reflector 3 is detached from the light guide plate 4, the upper end of the reflector 3 is grasped by gripping the left end of the upper handle 11a and the left end of the lower handle 11b. Engagement between the projection 3a1 of the portion 3a and the recess 4b1 of the exit surface (upper surface) 4b of the light guide plate 4 and engagement between the projection 3b1 of the lower portion 3b of the reflector 3 and the recess 4c1 of the lower surface 4c of the light guide plate 4 Can be released.

  In the planar light source illumination device 10 of the sixteenth embodiment, when the attachment / detachment work of the reflector 3 to the light guide plate 4 is completed, the upper handle 11a and the lower handle 11b are moved to the front side of the planar light source illumination device 10 (in FIG. 7). 6 and is easily detached from the cylindrical portions 3a3 and 3a4 of the upper portion 3a of the reflector 3 and the cylindrical portion 3b3 of the lower portion 3b, as shown in FIG.

  In the planar light source illumination device 10 of the sixteenth embodiment, as shown in FIGS. 6 and 7, a protrusion 3 a 1 is formed on the lower surface of the upper part 3 a of the reflector 3, and the protrusion 3 a 1 of the upper part 3 a of the reflector 3 is engaged. The concavity 4b1 is formed on the light exit surface (upper surface) 4b of the light guide plate 4. However, in the planar light source illumination device 10 of the seventeenth embodiment, the lower surface of the upper portion 3a of the reflector 3 is used instead. It is also possible to form a recess on the light emitting plate 4 and to form a protrusion on the light exit surface (upper surface) 4 b of the light guide plate 4 for engaging with the recess of the upper portion 3 a of the reflector 3.

  Further, in the planar light source illumination device 10 of the sixteenth embodiment, as shown in FIGS. 6 and 7, a protrusion 3b1 is formed on the upper surface of the lower part 3b of the reflector 3, and the lower part 3b of the reflector 3 is formed. A recess 4c1 for engaging with the protrusion 3b1 is formed on the lower surface 4c of the light guide plate 4. However, in the planar light source lighting device 10 of the seventeenth embodiment, instead of the lower portion 3b of the reflector 3 It is also possible to form a recess on the upper surface and form a protrusion on the lower surface 4 c of the light guide plate 4 to engage with the recess of the lower portion 3 b of the reflector 3.

  Furthermore, in the planar light source lighting device 10 of the sixteenth embodiment, as shown in FIGS. 6 and 7, the wiring board 2 is disposed inside the reflector 3 having a substantially U-shaped cross-sectional shape. In the planar light source illumination device 10 of the eighteenth embodiment, the wiring board 2 can be disposed outside the reflector 3 having a substantially U-shaped cross-sectional shape. Specifically, in the planar light source lighting device 10 of the eighteenth embodiment, a through hole 3c (see FIG. 4) is formed in the reflector 3. Further, a plurality of point light sources 1 mounted on the wiring board 2 are projected into the reflector 3 through the through holes 3c. Therefore, according to the planar light source illumination device 10 of the eighteenth embodiment, the vertical dimension of the light guide plate 4 fitted to the reflector 3 can be reduced.

  FIG. 8 is a schematic sectional view of the surface light source illumination device 10 of the nineteenth embodiment as viewed from the front side. FIG. 9 is a schematic view of the planar light source illumination device 10 of the nineteenth embodiment viewed from the left front side and the upper side in a state in which the upper handle 11a and the lower handle 11b used when the reflector 3 is attached to and detached from the light guide plate 4 are mounted. FIG.

  In the planar light source illumination device 10 of the sixteenth embodiment, as shown in FIG. 6, the surface perpendicular to the wiring board 2 (the right-side surface in FIG. 6) of the point light source 1 is the light emitting surface. As described above, the plurality of point light sources 1 are mounted on the wiring board 2. However, in the planar light source illumination device 10 of the nineteenth embodiment, as shown in FIG. A plurality of point light sources 1 are mounted on the wiring board 2 so that a surface parallel to 2 (a surface on the right side in FIG. 8) becomes a light emitting surface.

  In other words, in the planar light source illumination device 10 of the sixteenth embodiment, the wiring board 2 is attached to the lower portion 3b of the reflector 3 as shown in FIGS. In the planar light source illumination device 10 of the form, the wiring board 2 is attached to the side surface portion of the reflector 3 as shown in FIGS. 8 and 9.

  Furthermore, in the planar light source illumination device 10 of the nineteenth embodiment, as shown in FIGS. 8 and 9, the wiring board 2 is disposed outside the reflector 3 having a substantially U-shaped cross-sectional shape. Further, a through hole 3 c is formed in the reflector 3. Further, a plurality of point light sources 1 mounted on the wiring board 2 are projected inside the reflector 3 through the through holes 3c.

  In other words, in the planar light source illumination device 10 of the nineteenth embodiment, as shown in FIGS. 8 and 9, the wiring board 2 is disposed inside the reflector 3 having a substantially U-shaped cross-sectional shape. Rather than being placed outside. Therefore, according to the planar light source illumination device 10 of the nineteenth embodiment, the vertical dimension of the light guide plate 4 fitted to the reflector 3 can be reduced.

  Further, in the planar light source illuminating device 10 of the nineteenth embodiment, as shown in FIGS. 8 and 9, as in the planar light source illuminating device 10 of the sixteenth embodiment, a substantially U-shaped cross-sectional shape is provided. Cylindrical portions 3a3 and 3a4 are formed at the tip of the upper portion 3a of the reflector 3 having the same. A cylindrical portion 3b3 is formed at the tip of the lower portion 3b of the reflector 3. Furthermore, the upper handle 11a attached to the cylindrical portions 3a3 and 3a4 of the upper portion 3a of the reflector 3 when the reflector 3 is attached to and detached from the light guide plate 4, and the lower portion 3b of the reflector 3 when the reflector 3 is attached to and detached from the light guide plate 4 A lower handle 11b attached to the cylindrical portion 3b3 is provided.

  Therefore, according to the planar light source illumination device 10 of the nineteenth embodiment, when the light guide plate 4 is inserted inside the reflector 3 having a substantially U-shaped cross-sectional shape, the left end and the lower handle 11b of the upper handle 11a. , The opening of the reflector 3 can be sufficiently opened, and as a result, the projection 3a1 of the upper portion 3a of the reflector 3 and the exit surface (upper surface) 4b of the light guide plate 4 are separated, and The protrusion 3b1 of the lower portion 3b of the reflector 3 and the lower surface 4c of the light guide plate 4 can be separated from each other, and the reflector 3 can be easily attached to the light guide plate 4. Further, when the reflector 3 is removed from the light guide plate 4, the engagement between the projection 3 a 1 of the upper portion 3 a of the reflector 3 and the recess 4 b 1 of the exit surface 4 b of the light guide plate 4 and the projection 3 b 1 of the lower portion 3 b of the reflector 3 and the light guide plate 4 can be easily disengaged from the recess 4c1 of the lower surface 4c.

  Further, in the planar light source lighting device 10 of the nineteenth embodiment, as shown in FIG. 9, a cutout 2 a for escaping the lower handle 11 b is formed in the wiring board 2. Therefore, according to the planar light source illumination device 10 of the nineteenth embodiment, the wiring board 2 is damaged as the lower handle 11b interferes with the wiring board 2 when the reflector 3 is attached to or detached from the light guide plate 4. It is possible to avoid the risk of being lost.

  In the planar light source illumination device 10 of the nineteenth embodiment, as shown in FIGS. 8 and 9, a protrusion 3a1 is formed on the lower surface of the upper part 3a of the reflector 3, and the protrusion 3a1 of the upper part 3a of the reflector 3 is associated with the protrusion 3a1. A concave portion 4b1 is formed on the light exit surface (upper surface) 4b of the light guide plate 4. However, in the planar light source illumination device 10 of the twentieth embodiment, the lower surface of the upper portion 3a of the reflector 3 is used instead. It is also possible to form a recess on the light emitting plate 4 and to form a protrusion on the light exit surface (upper surface) 4 b of the light guide plate 4 for engaging with the recess of the upper portion 3 a of the reflector 3.

  Further, in the planar light source illumination device 10 of the nineteenth embodiment, as shown in FIGS. 8 and 9, a protrusion 3b1 is formed on the upper surface of the lower portion 3b of the reflector 3, and the lower portion 3b of the reflector 3 is formed. A recess 4c1 for engaging with the protrusion 3b1 is formed on the lower surface 4c of the light guide plate 4. However, in the planar light source illumination device 10 of the twentieth embodiment, instead of the lower portion 3b of the reflector 3 It is also possible to form a recess on the upper surface and form a protrusion on the lower surface 4 c of the light guide plate 4 to engage with the recess of the lower portion 3 b of the reflector 3.

  In the planar light source illumination device 10 of the nineteenth embodiment, as shown in FIGS. 8 and 9, the wiring board 2 is disposed outside the reflector 3 having a substantially U-shaped cross section. In the planar light source lighting device 10 of the twenty-first embodiment, when the vertical dimension of the wiring board 2 is small, the wiring board 2 can be arranged inside the reflector 3 having a substantially U-shaped cross-sectional shape. .

  FIG. 10 is a schematic sectional view of the surface light source illumination device 10 according to the twenty-second embodiment as viewed from the front side. In the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, a protrusion 3 b 1 is formed on the upper surface of the lower part 3 b of the reflector 3, and the protrusion 3 b 1 of the lower part 3 b of the reflector 3. Is formed on the lower surface 4c of the light guide plate 4. In the planar light source lighting device 10 of the twenty-second embodiment, as shown in FIG. No protrusions are formed on the upper surface of 3 b, and no recess is formed on the lower surface 4 c of the light guide plate 4.

  Specifically, in the planar light source illumination device 10 of the twenty-second embodiment, when the plurality of point light sources 1, the wiring board 2, and the reflector 3 are attached to the light guide plate 4, as shown in FIG. When the upper surface portion 3a of the light guide plate 4 and the light exit surface (upper surface) 4b of the light guide plate 4 are fitted, the protrusion 3a1 of the upper portion 3a of the reflector 3 and the recess 4b1 of the light output surface (upper surface) 4b of the light guide plate 4 are engaged. Match.

  As a result, in the planar light source illumination device 10 of the twenty-second embodiment, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are positioned with respect to the light guide plate 4 as shown in FIG. That is, according to the planar light source illumination device 10 of the twenty-second embodiment, substantially the same effect as the planar light source illumination device 10 of the first embodiment shown in FIG. 2 can be obtained.

  FIG. 11 is a schematic sectional view of the surface light source illumination device 10 according to the twenty-third embodiment as viewed from the front side. In the planar light source illumination device 10 of the first embodiment, as shown in FIGS. 1 and 2, a protrusion 3a1 is formed on the lower surface of the upper part 3a of the reflector 3, and the protrusion 3a1 of the upper part 3a of the reflector 3 is associated with the protrusion 3a1. A concave portion 4b1 is formed on the light exit surface (upper surface) 4b of the light guide plate 4. In the planar light source illumination device 10 of the twenty-third embodiment, as shown in FIG. No protrusions are formed on the lower surface of the portion 3 a, and no recess is formed on the exit surface (upper surface) 4 b of the light guide plate 4.

  Specifically, in the planar light source illuminating device 10 of the twenty-third embodiment, when the plurality of point light sources 1, the wiring board 2, and the reflector 3 are attached to the light guide plate 4, as shown in FIG. 3 is engaged with the lower surface 4c of the light guide plate 4, the protrusion 3b1 of the lower portion 3b of the reflector 3 and the recess 4c1 of the lower surface 4c of the light guide plate 4 are engaged.

  As a result, in the planar light source illuminating device 10 of the twenty-third embodiment, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are positioned with respect to the light guide plate 4 as shown in FIG. That is, according to the planar light source illumination device 10 of the twenty-third embodiment, substantially the same effect as the planar light source illumination device 10 of the first embodiment shown in FIG. 2 can be obtained.

  FIG. 12 is a schematic cross-sectional view of a surface light source illumination device 10 according to a twenty-fourth embodiment as viewed from the front side. In the planar light source illumination device 10 according to the twenty-fourth embodiment, as shown in FIG. 12, the planar light source illumination device 10 is arranged in the front-rear direction of the planar light source illumination device 10 as in the planar light source illumination device 10 according to the first embodiment. For example, a plurality of point light sources 1 such as LEDs are mounted on the wiring board 2. Specifically, a plurality of point light sources 1 are mounted on the wiring board 2 so that a surface (right side surface in FIG. 12) orthogonal to the wiring board 2 of the point light sources 1 is a light emitting surface. Yes.

  Furthermore, in the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, a reflector 3 having a substantially U-shaped cross-sectional shape is provided to reflect light from a plurality of point light sources 1. Is provided.

  Further, in the planar light source illumination device 10 of the twenty-fourth embodiment, the inner surface of the reflector 3 is mirror-finished so that the reflectance of the inner surface of the reflector 3 having a substantially U-shaped cross section is 80% or more. And a specular reflection surface is formed on the inner surface of the reflector 3. Specifically, for example, a mirror reflection surface is formed on the inner surface of the reflector 3 by depositing or sputtering a metal thin film such as Al or Ag.

  Furthermore, in the planar light source illuminating device 10 of the twenty-fourth embodiment, as shown in FIG. 12, the wiring board 2 on which a plurality of point light sources 1 are mounted has a substantially U-shaped cross section. It is fixed to the inner surface by, for example, screwing or bonding.

  Further, in the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, the incident surface (left side surface) on which the light from the plurality of point light sources 1 and / or the light from the reflector 3 is incident. A light guide plate 4 having 4a, an exit surface (upper surface) 4b substantially orthogonal to the incident surface (left side surface) 4a, and a lower surface 4c is provided.

  Specifically, in the planar light source illuminating device 10 of the twenty-fourth embodiment, as shown in FIG. 12, the plurality of point light sources 1 are opposed to the incident surface (left side surface) 4a of the light guide plate 4, and The upper portion 3a of the reflector 3 having a substantially U-shaped cross section is guided so that a desired gap is formed between the plurality of point light sources 1 and the incident surface (left side surface) 4a of the light guide plate 4. The output surface (upper surface) 4b of the optical plate 4 is fitted, and the lower portion 3b of the reflector 3 and the lower surface 4c of the light guide plate 4 are fitted.

  Therefore, in the planar light source lighting device 10 of the twenty-fourth embodiment, light incident from the incident surface (left side surface) 4a of the light guide plate 4 is guided by the light guide plate 4 and emitted from the output surface (upper surface) 4b. Is done. As a result, when the planar light source illumination device 10 of the twenty-fourth embodiment is viewed from the upper side of FIG. 12, the emission surface (upper surface) 4b of the light guide plate 4 appears to shine in a planar shape.

  More specifically, in the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, the projection 4b2 is formed on the emission surface (upper surface) 4b of the light guide plate 4. Further, a recess 3 a 2 for engaging with the protrusion 4 b 2 on the light exit surface (upper surface) 4 b of the light guide plate 4 is formed on the lower surface of the upper portion 3 a of the reflector 3.

  Further, in the planar light source lighting device 10 of the twenty-fourth embodiment, as shown in FIG. 12, a protrusion 4 c 2 is formed on the lower surface 4 c of the light guide plate 4. Further, a recess 3 b 2 for engaging with the protrusion 4 c 2 on the lower surface 4 c of the light guide plate 4 is formed on the upper surface of the lower portion 3 b of the reflector 3.

  Therefore, in the planar light source illuminating device 10 of the twenty-fourth embodiment, when the plurality of point light sources 1, the wiring board 2 and the reflector 3 are attached to the light guide plate 4, as shown in FIG. When the upper portion 3a and the exit surface (upper surface) 4b of the light guide plate 4 are fitted, the projection 4b2 of the exit surface (upper surface) 4b of the light guide plate 4 and the recess 3a2 of the upper portion 3a of the reflector 3 are engaged. . Further, when the lower portion 3b of the reflector 3 and the lower surface 4c of the light guide plate 4 are fitted, the protrusion 4c2 of the lower surface 4c of the light guide plate 4 and the concave portion 3b2 of the lower portion 3b of the reflector 3 are engaged.

  As a result, in the planar light source illumination device 10 of the twenty-fourth embodiment, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are positioned with respect to the light guide plate 4 as shown in FIG.

  In other words, in the planar light source illumination device 10 of the twenty-fourth embodiment, when the plurality of point light sources 1, the wiring board 2, and the reflector 3 are attached to the light guide plate 4, as shown in FIG. The plurality of point light sources 1, the wiring board 2, and the reflector 3 are guided without fine adjustment of the gap between the point light source 1 and the incident surface (left side surface) 4 a of the light guide plate 4. Positioned with respect to the optical plate 4.

  Therefore, according to the planar light source illumination device 10 of the twenty-fourth embodiment, the assembly operator performs fine adjustment of the gaps between the plurality of point light sources 1 and the incident surface (left side surface) 4 a of the light guide plate 4. The positioning operation of the plurality of point light sources 1, the wiring board 2, and the reflector 3 with respect to the light guide plate 4 can be facilitated as compared with the case where it is necessary.

  That is, according to the planar light source illumination device 10 of the twenty-fourth embodiment, the assembly operator performs fine adjustment of the gaps between the plurality of point light sources 1 and the incident surface (left side surface) 4 a of the light guide plate 4. As compared with the case where it is necessary, variation in gaps between the plurality of point light sources 1 of the planar light source lighting device 10 to be mass-produced and the incident surface (left side surface) 4a of the light guide plate 4 can be reduced.

  FIG. 13: is schematic sectional drawing which looked at the planar light source illuminating device 10 of the 25th embodiment from the front side. In the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, a recess 3a2 is formed at the right end of the lower surface of the upper portion 3a of the reflector 3, and the light guide plate 4 is positioned at a position corresponding to the recess 3a2. Although the projection 4b2 of the emission surface (upper surface) 4b is formed, in the planar light source illumination device 10 of the twenty-fifth embodiment, as shown in FIG. 13, the incident surface of the emission surface (upper surface) 4b of the light guide plate 4 A protrusion 4b2 is formed at the side end (left end), and a recess 3a2 on the lower surface of the upper portion 3a of the reflector 3 is formed at a position corresponding to the protrusion 4b2.

  Further, in the planar light source lighting device 10 of the twenty-fourth embodiment, as shown in FIG. 12, a concave portion 3b2 is formed at the right end of the upper surface of the lower portion 3b of the reflector 3, and is guided to a position corresponding to the concave portion 3b2. The protrusion 4c2 on the lower surface 4c of the optical plate 4 is formed. However, in the planar light source illumination device 10 of the twenty-fifth embodiment, as shown in FIG. 13, the incident surface side end (left end) of the lower surface 4c of the light guide plate 4 is used. A protrusion 4c2 is formed on the upper surface of the upper surface of the lower portion 3b of the reflector 3 at a position corresponding to the protrusion 4c2.

  Furthermore, in the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, the wiring board 2 is arranged inside the reflector 3 having a substantially U-shaped cross section. In the planar light source illumination device 10 of the embodiment, as shown in FIG. 13, the wiring board 2 is arranged outside the reflector 3 having a substantially U-shaped cross-sectional shape. Further, a through hole 3 c is formed in the reflector 3. Further, a plurality of point light sources 1 mounted on the wiring board 2 are projected inside the reflector 3 through the through holes 3c. Therefore, according to the planar light source illumination device 10 of the twenty-fifth embodiment, the vertical dimension (vertical direction in FIG. 13) of the light guide plate 4 fitted with the reflector 3 can be reduced.

  FIG. 14 is a schematic cross-sectional view of a surface light source illumination device 10 according to a twenty-sixth embodiment as viewed from the front side. In the planar light source illumination device 10 of the twenty-fifth embodiment, as shown in FIG. 13, the surface orthogonal to the wiring board 2 (the surface on the right side in FIG. 13) of the point light source 1 is the light emitting surface. As described above, a plurality of point light sources 1 are mounted on the wiring board 2. However, in the planar light source illumination device 10 of the twenty-sixth embodiment, as shown in FIG. A plurality of point light sources 1 are mounted on the wiring board 2 such that a plane parallel to 2 (a right side surface in FIG. 14) is a light emitting surface.

  In other words, in the planar light source illumination device 10 of the twenty-fifth embodiment, as shown in FIG. 13, the wiring board 2 is attached to the lower portion 3b of the reflector 3, but the surface of the twenty-sixth embodiment. In the planar light source illumination device 10, the wiring board 2 is attached to the side surface portion of the reflector 3 as shown in FIG. 14.

  FIG. 15 is a schematic cross-sectional view of a surface light source illumination device 10 according to a twenty-seventh embodiment as viewed from the front side. In the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, a protrusion 4 c 2 is formed on the lower surface 4 c of the light guide plate 4, and a recess 3 b 2 for engaging with the protrusion 4 c 2 is formed on the reflector 3. Although formed on the upper surface of the lower portion 3b, in the planar light source lighting device 10 of the twenty-seventh embodiment, no protrusion is formed on the lower surface 4c of the light guide plate 4 as shown in FIG. No concave portion is formed on the upper surface of the lower portion 3b of FIG.

  Specifically, in the planar light source illumination device 10 of the twenty-seventh embodiment, as shown in FIG. 15, when the plurality of point light sources 1, the wiring board 2 and the reflector 3 are attached to the light guide plate 4, the reflector is used. When the upper portion 3a of the light guide plate 4 and the light exit surface (upper surface) 4b of the light guide plate 4 are fitted, the projection 4b2 of the light exit surface (upper surface) 4b of the light guide plate 4 and the recess 3a2 on the lower surface of the upper portion 3a of the reflector 3 Engage.

  As a result, in the planar light source illuminating device 10 of the twenty-seventh embodiment, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are positioned with respect to the light guide plate 4 as shown in FIG. That is, according to the planar light source illumination device 10 of the twenty-seventh embodiment, substantially the same effect as the planar light source illumination device 10 of the twenty-fourth embodiment shown in FIG. 12 can be achieved.

  FIG. 16 is a schematic cross-sectional view of a surface light source illumination device 10 according to a twenty-eighth embodiment as viewed from the front side. In the planar light source illumination device 10 of the twenty-seventh embodiment, as shown in FIG. 15, a recess 3a2 is formed at the right end of the lower surface of the upper portion 3a of the reflector 3, and the light guide plate 4 is positioned at a position corresponding to the recess 3a2. Although the projection 4b2 of the emission surface (upper surface) 4b is formed, in the planar light source illumination device 10 of the twenty-eighth embodiment, as shown in FIG. 16, the incident surface of the emission surface (upper surface) 4b of the light guide plate 4 A protrusion 4b2 is formed at the side end (left end), and a recess 3a2 on the lower surface of the upper portion 3a of the reflector 3 is formed at a position corresponding to the protrusion 4b2.

  FIG. 17 is a schematic cross-sectional view of the planar light source illumination device 10 of the 29th embodiment as viewed from the front side. In the planar light source illumination device 10 of the twenty-fourth embodiment, as shown in FIG. 12, a projection 4b2 is formed on the exit surface (upper surface) 4b of the light guide plate 4, and a recess 3a2 for engaging with the projection 4b2 is formed. In the planar light source illumination device 10 of the twenty-ninth embodiment, a projection is formed on the light exit surface (upper surface) 4b of the light guide plate 4 as shown in FIG. No recess is formed on the lower surface of the upper portion 3 a of the reflector 3.

  Specifically, in the planar light source illumination device 10 of the twenty-ninth embodiment, as shown in FIG. 17, when the plurality of point light sources 1, the wiring board 2 and the reflector 3 are attached to the light guide plate 4, the reflector is used. 3 is engaged with the lower surface 4c of the light guide plate 4, the protrusion 4c2 of the lower surface 4c of the light guide plate 4 and the recess 3b2 of the upper surface of the lower portion 3b of the reflector 3 are engaged.

  As a result, in the planar light source illumination device 10 of the twenty-ninth embodiment, the plurality of point light sources 1, the wiring board 2, and the reflector 3 are positioned with respect to the light guide plate 4 as shown in FIG. That is, according to the planar light source illumination device 10 of the twenty-ninth embodiment, substantially the same effect as the planar light source illumination device 10 of the twenty-fourth embodiment shown in FIG. 12 can be achieved.

  In the thirtieth embodiment, the first to twenty-ninth embodiments can be appropriately combined.

  The planar light source illumination device of the present invention can be applied to, for example, a liquid crystal display backlight, a transmissive signboard illumination, a trace table illumination device, a Schaukasten (X-ray light box) illumination device, and a planar illumination device such as a ceiling lamp.

It is the schematic perspective view which looked at the planar light source lighting device 10 of the first embodiment from the left front side and the upper side. It is the rough sectional view which looked at planar light source lighting device 10 of a 1st embodiment from the front side. It is the figure which showed the relationship between the reflectance (%) of the inner surface of the reflector 3, and relative coupling efficiency. It is the schematic sectional drawing which looked at the planar light source lighting device 10 of the thirteenth embodiment from the front side. It is the schematic sectional view which looked at the planar light source illumination device 10 of the fourteenth embodiment from the front side. It is the schematic sectional view which looked at the planar light source illumination device 10 of the sixteenth embodiment from the front side. The schematic perspective view which looked at the planar light source illuminating device 10 of 16th Embodiment from the front left side and the upper side in the state with which the upper handle 11a and the lower handle 11b used at the time of attachment / detachment of the reflector 3 with respect to the light-guide plate 4 were mounted | worn. It is. It is the rough sectional view which looked at the planar light source lighting device 10 of the 19th embodiment from the front side. Schematic perspective view of the planar light source illumination device 10 of the nineteenth embodiment as viewed from the left front side and the upper side in a state where the upper handle 11a and the lower handle 11b used when the reflector 3 is attached to and detached from the light guide plate 4 are mounted. It is. It is the rough sectional view which looked at planar light source lighting device 10 of a 22nd embodiment from the front side. It is the rough sectional view which looked at the planar light source lighting device 10 of the 23rd embodiment from the front side. It is the rough sectional view which looked at the planar light source lighting device 10 of the 24th embodiment from the front side. It is schematic sectional drawing which looked at the planar light source illuminating device 10 of 25th Embodiment from the front side. It is the schematic sectional view which looked at the planar light source illumination device 10 of the 26th embodiment from the front side. It is the rough sectional view which looked at the planar light source lighting device 10 of the 27th embodiment from the front side. It is the rough sectional view which looked at the planar light source lighting device 10 of the 28th embodiment from the front side. It is the rough sectional view which looked at the planar light source lighting device 10 of the 29th embodiment from the front side.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Light source 2 Wiring board 2a Notch 3 Reflector 3a Upper part 3a1 Protrusion 3a2 Recessed part 3a3, 3a4 Cylindrical part 3b Lower part 3b1 Protrusion 3b2 Recessed part 3b3 Cylindrical part 3c Through-hole 4 Light guide plate 4a Incident surface 4b Outgoing surface 4b1 Recessed part 4b2 Projection 4c Lower surface 4c1 Recess 4c2 Projection 10 Planar light source illumination device 11a Upper handle 11b Lower handle

Claims (9)

A plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a reflector (3) for reflecting light from the plurality of point light sources (1) And
An incident surface (4a) on which light from a plurality of point light sources (1) and / or light from a reflector (3) is incident, an exit surface (4b) substantially orthogonal to the incident surface (4a), and an exit surface A light guide plate (4) having a lower surface (4c) facing (4b),
The incident surface (4a) is formed on the side surface of the light guide plate (4),
An emission surface (4b) is formed on the upper surface of the light guide plate (4);
A wiring board (2) mounted with a plurality of point light sources (1) is attached to a reflector (3),
The plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) are arranged. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4) so that a gap is formed therebetween, and the reflector ( 3) The lower part (3b) and the lower surface (4c) of the light guide plate (4) are fitted,
The light incident from the light incident surface (4a) is guided by the light guide plate (4) and emitted from the light emission surface (4b), and the light emission surface (4b) appears to shine in a planar shape. In the light source illumination device (10),
A protrusion (3a1) is formed on the lower surface of the upper part (3a) of the reflector (3),
A recess (4b1) for engaging with the protrusion (3a1) of the upper part (3a) of the reflector (3) is formed on the exit surface (4b) of the light guide plate (4),
Forming a protrusion (3b1) on the upper surface of the lower part (3b) of the reflector (3);
Forming a recess (4c1) on the lower surface (4c) of the light guide plate (4) for engaging with the protrusion (3b1) of the lower part (3b) of the reflector (3);
The protrusion (3a1) of the upper part (3a) of the reflector (3) engages with the recess (4b1) of the exit surface (4b) of the light guide plate (4), and the lower part (3b) of the reflector (3). The protrusions (3b1) of the light guide and the recesses (4c1) of the lower surface (4c) of the light guide plate (4) are engaged, so that the plurality of point light sources (1), the wiring board (2), and the reflector (3) are guided. A planar light source illumination device (10) characterized by being positioned with respect to the light plate (4). A plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a reflector (3) for reflecting light from the plurality of point light sources (1) And
A light guide having an incident surface (4a) on which light from a plurality of point light sources (1) and / or light from a reflector (3) is incident, and an output surface (4b) substantially orthogonal to the incident surface (4a). Comprising a light plate (4),
The incident surface (4a) is formed on the side surface of the light guide plate (4),
An emission surface (4b) is formed on the upper surface of the light guide plate (4);
A wiring board (2) mounted with a plurality of point light sources (1) is attached to a reflector (3),
The plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) are arranged. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4) so that a gap is formed therebetween, and the reflector ( 3) The lower part (3b) and the lower surface (4c) of the light guide plate (4) are fitted,
The light incident from the light incident surface (4a) is guided by the light guide plate (4) and emitted from the light emission surface (4b), and the light emission surface (4b) appears to shine in a planar shape. In the light source illumination device (10),
A protrusion (3a1) is formed on the lower surface of the upper part (3a) of the reflector (3),
A recess (4b1) for engaging with the protrusion (3a1) of the upper part (3a) of the reflector (3) is formed on the exit surface (4b) of the light guide plate (4),
By engaging the protrusion (3a1) of the upper portion (3a) of the reflector (3) with the recess (4b1) of the exit surface (4b) of the light guide plate (4), a plurality of point light sources (1) and wiring A planar light source illumination device (10), wherein the substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4). A plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a reflector (3) for reflecting light from the plurality of point light sources (1) And
An incident surface (4a) on which light from a plurality of point light sources (1) and / or light from a reflector (3) is incident, an exit surface (4b) substantially orthogonal to the incident surface (4a), and an exit surface A light guide plate (4) having a lower surface (4c) facing (4b),
The incident surface (4a) is formed on the side surface of the light guide plate (4),
An emission surface (4b) is formed on the upper surface of the light guide plate (4);
A wiring board (2) mounted with a plurality of point light sources (1) is attached to a reflector (3),
The plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) are arranged. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4) so that a gap is formed therebetween, and the reflector ( 3) The lower part (3b) and the lower surface (4c) of the light guide plate (4) are fitted,
The light incident from the light incident surface (4a) is guided by the light guide plate (4) and emitted from the light emission surface (4b), and the light emission surface (4b) appears to shine in a planar shape. In the light source illumination device (10),
Forming a protrusion (3b1) on the upper surface of the lower part (3b) of the reflector (3);
Forming a recess (4c1) on the lower surface (4c) of the light guide plate (4) for engaging with the protrusion (3b1) of the lower part (3b) of the reflector (3);
The projection (3b1) of the lower part (3b) of the reflector (3) and the recess (4c1) of the lower surface (4c) of the light guide plate (4) engage with each other, so that a plurality of point light sources (1) and wiring A planar light source illumination device (10), wherein the substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4). A plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a reflector (3) for reflecting light from the plurality of point light sources (1) And
An incident surface (4a) on which light from a plurality of point light sources (1) and / or light from a reflector (3) is incident, an exit surface (4b) substantially orthogonal to the incident surface (4a), and an exit surface A light guide plate (4) having a lower surface (4c) facing (4b),
The incident surface (4a) is formed on the side surface of the light guide plate (4),
An emission surface (4b) is formed on the upper surface of the light guide plate (4);
A wiring board (2) mounted with a plurality of point light sources (1) is attached to a reflector (3),
The plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) are arranged. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4) so that a gap is formed therebetween, and the reflector ( 3) The lower part (3b) and the lower surface (4c) of the light guide plate (4) are fitted,
The light incident from the light incident surface (4a) is guided by the light guide plate (4) and emitted from the light emission surface (4b), and the light emission surface (4b) appears to shine in a planar shape. In the light source illumination device (10),
Protrusions (4b2) are formed on the exit surface (4b) of the light guide plate (4),
Forming a recess (3a2) on the lower surface of the upper part (3a) of the reflector (3) for engaging with the projection (4b2) of the light exit surface (4b) of the light guide plate (4);
A protrusion (4c2) is formed on the lower surface (4c) of the light guide plate (4),
Forming a recess (3b2) on the upper surface of the lower part (3b) of the reflector (3) to engage with the protrusion (4c2) on the lower surface (4c) of the light guide plate (4);
The protrusion (4b2) of the light exit surface (4b) of the light guide plate (4) engages with the recess (3a2) of the upper portion (3a) of the reflector (3), and the lower surface (4c) of the light guide plate (4). By engaging the protrusion (4c2) with the recess (3b2) of the lower part (3b) of the reflector (3), the plurality of point light sources (1), the wiring board (2), and the reflector (3) are guided. A planar light source illumination device (10) characterized by being positioned with respect to the light plate (4). A plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a reflector (3) for reflecting light from the plurality of point light sources (1) And
A light guide having an incident surface (4a) on which light from a plurality of point light sources (1) and / or light from a reflector (3) is incident, and an output surface (4b) substantially orthogonal to the incident surface (4a). Comprising a light plate (4),
The incident surface (4a) is formed on the side surface of the light guide plate (4),
An emission surface (4b) is formed on the upper surface of the light guide plate (4);
A wiring board (2) mounted with a plurality of point light sources (1) is attached to a reflector (3),
The plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) are arranged. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4) so that a gap is formed therebetween, and the reflector ( 3) The lower part (3b) and the lower surface (4c) of the light guide plate (4) are fitted,
The light incident from the light incident surface (4a) is guided by the light guide plate (4) and emitted from the light emission surface (4b), and the light emission surface (4b) appears to shine in a planar shape. In the light source illumination device (10),
Protrusions (4b2) are formed on the exit surface (4b) of the light guide plate (4),
Forming a recess (3a2) on the lower surface of the upper part (3a) of the reflector (3) for engaging with the projection (4b2) of the light exit surface (4b) of the light guide plate (4);
By engaging the projection (4b2) of the light exit surface (4b) of the light guide plate (4) with the recess (3a2) of the upper part (3a) of the reflector (3), a plurality of point light sources (1) and wiring A planar light source illumination device (10), wherein the substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4). A plurality of point light sources (1), a wiring board (2) for mounting the plurality of point light sources (1), and a reflector (3) for reflecting light from the plurality of point light sources (1) And
An incident surface (4a) on which light from a plurality of point light sources (1) and / or light from a reflector (3) is incident, an exit surface (4b) substantially orthogonal to the incident surface (4a), and an exit surface A light guide plate (4) having a lower surface (4c) facing (4b),
The incident surface (4a) is formed on the side surface of the light guide plate (4),
An emission surface (4b) is formed on the upper surface of the light guide plate (4);
A wiring board (2) mounted with a plurality of point light sources (1) is attached to a reflector (3),
The plurality of point light sources (1) are opposed to the incident surface (4a) of the light guide plate (4), and the plurality of point light sources (1) and the incident surface (4a) of the light guide plate (4) are arranged. The upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape is fitted to the exit surface (4b) of the light guide plate (4) so that a gap is formed therebetween, and the reflector ( 3) The lower part (3b) and the lower surface (4c) of the light guide plate (4) are fitted,
The light incident from the light incident surface (4a) is guided by the light guide plate (4) and emitted from the light emission surface (4b), and the light emission surface (4b) appears to shine in a planar shape. In the light source illumination device (10),
A protrusion (4c2) is formed on the lower surface (4c) of the light guide plate (4),
Forming a recess (3b2) on the upper surface of the lower part (3b) of the reflector (3) to engage with the protrusion (4c2) on the lower surface (4c) of the light guide plate (4);
The protrusion (4c2) on the lower surface (4c) of the light guide plate (4) and the recess (3b2) in the lower part (3b) of the reflector (3) are engaged with each other, so that a plurality of point light sources (1) and wiring A planar light source illumination device (10), wherein the substrate (2) and the reflector (3) are positioned with respect to the light guide plate (4). The wiring board (2) is disposed outside the reflector (3) having a substantially U-shaped cross-sectional shape,
A through hole (3c) is formed in the reflector (3);
The plurality of point light sources (1) mounted on the wiring board (2) are protruded to the inside of the reflector (3) through the through holes (3c). A planar light source illumination device (10) according to claim 1. Form cylindrical portions (3a3, 3a4) at the tip of the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape,
A cylindrical part (3b3) is formed at the tip of the lower part (3b) of the reflector (3),
An upper handle (11a) attached to the cylindrical portions (3a3, 3a4) of the upper portion (3a) of the reflector (3) when the reflector (3) is attached to and detached from the light guide plate (4);
A lower handle (11b) that is attached to the cylindrical portion (3b3) of the lower portion (3b) of the reflector (3) when the reflector (3) is attached to or detached from the light guide plate (4) is provided. The planar light source illumination device (10) according to any one of claims 1 to 7. The wiring board (2) is disposed outside the reflector (3) having a substantially U-shaped cross-sectional shape,
A through hole (3c) is formed in the reflector (3);
A plurality of point light sources (1) mounted on the wiring board (2) are projected inside the reflector (3) through the through holes (3c),
Form cylindrical portions (3a3, 3a4) at the tip of the upper portion (3a) of the reflector (3) having a substantially U-shaped cross-sectional shape,
A cylindrical part (3b3) is formed at the tip of the lower part (3b) of the reflector (3),
An upper handle (11a) attached to the cylindrical portions (3a3, 3a4) of the upper portion (3a) of the reflector (3) when the reflector (3) is attached to and detached from the light guide plate (4);
A lower handle (11b) to be attached to the cylindrical part (3b3) of the lower part (3b) of the reflector (3) when the reflector (3) is attached to and detached from the light guide plate (4);
The planar shape according to any one of claims 1 to 6, wherein a notch (2a) for escaping the upper handle (11a) or the lower handle (11b) is formed in the wiring board (2). Light source illumination device (10).

Images