JP5901407B2 - Surface light emitting device, display device, and guide light device - Google Patents

Description

  The present invention relates to a surface light-emitting device that emits light in a planar shape, a display device using the same, and a guide lamp device.

  There is a planar light source unit in which light sources such as LEDs are arranged at the corners of a light guide plate.

Japanese Patent Laid-Open No. 11-306831

When the light source is arranged at the corner of the light guide plate, if the accuracy of the position and orientation of the light source is low, the entire surface may not be able to emit light with a desired luminance.
In particular, when the light source is configured to be replaceable, it is difficult to increase the positioning accuracy of the light source.
An object of the present invention is, for example, to increase the positioning accuracy of a light source while configuring the light source to be replaceable.

The surface light emitting device according to the present invention includes a light source unit having a light source, and an emission unit.
The light emitting unit includes a flat light guide having a light incident part for incident light emitted from the light source of the light source unit and a light output part for emitting light diffused from the light incident from the light incident part. And having an engaging portion that detachably fixes the light source unit by engaging with the light source unit, and the light incident portion is provided at a side surface angle of the light guide. .

  According to the surface light-emitting device concerning this invention, the precision of positioning of a light source can be improved, comprising a light source replaceable.

FIG. 2 is a perspective view and a front view showing an external appearance of a display device 10 according to Embodiment 1. FIG. 3 is a perspective view illustrating a structure of a display unit 13 in the first embodiment. FIG. 3 is a perspective view showing a structure of a main body 12 in the first embodiment. FIG. 3 is a perspective view showing a structure of an emission unit 34 in the first embodiment. FIG. 3 is an exploded perspective view showing the structure of the emission unit 34 in the first embodiment. FIG. 4 is an exploded enlarged perspective view showing the structure of the emission unit 34 in the first embodiment. FIG. 2 is an enlarged front view and an enlarged perspective view showing a structure of a light source unit 35 in the first embodiment. FIGS. 3A and 3B are a front view and a perspective view showing a structure of a light source circuit unit 53 in the first embodiment. FIGS. FIG. 2 is a front view and a perspective view showing a structure of a cover 52 in the first embodiment. FIGS. 3A and 3B are a front view and a perspective view illustrating a structure of a holding unit 51 according to the first embodiment. FIGS. FIG. 6 shows measurement results of light distribution characteristics of light emitted from the display device 10 according to the first embodiment. FIG. 6 shows measurement results of light distribution characteristics of light emitted from the display device 10 according to the first embodiment. FIG. 5 is a front view showing the structure of a light guide 44 in the second embodiment. FIG. 6 is a partially enlarged perspective view showing a structure of a light guide 44 in the second embodiment.

Embodiment 1 FIG.
The first embodiment will be described with reference to FIGS.

  FIG. 1 is a perspective view and a front view showing an external appearance of a display device 10 according to this embodiment.

The display device 10 is a device that displays information such as graphics and characters by light emitted inside. For example, the display device 10 is a guide lamp device that displays an evacuation guidance graphic. The display device 10 includes, for example, a main body 12 and a display unit 13.
The main body 12 has, for example, a rectangular parallelepiped box shape and incorporates a lighting device and the like.
The display unit 13 (surface light-emitting device) has, for example, a rectangular plate shape and incorporates a light source and the like. The light source is, for example, an LED or an organic EL. The light source emits light by power supplied from the lighting device, and illuminates figures, characters, and the like from the inside.
The display unit 13 is detachably fixed to the main body 12. As a method of fixing the display unit 13 to the main body 12, there are, for example, a front-rear direction fitting, a vertical direction slide, and a rotation operation by a hinge structure.
A plurality of display units 13 may be provided, for example, on the back side of the main body 12.

  FIG. 2 is a perspective view showing the structure of the display unit 13 in this embodiment.

The display unit 13 includes, for example, an emission unit 34 and two light source units 35.
The emission unit 34 has, for example, a rectangular plate shape. The emission unit 34 has a figure, characters, and the like displayed by the display device 10 drawn on a front side surface (light emitting surface) by printing or the like.
Each light source unit 35 (light source unit) has a light source. One light source unit 35 is disposed at the upper left corner of the back surface of the emission unit 34. Another light source unit 35 is disposed in the upper right corner of the back surface of the emission unit 34.

  FIG. 3 is a perspective view showing the structure of the main body 12 in this embodiment.

  The main body 12 includes, for example, a main body frame 26, a power terminal block 21, an inspection switch unit 22, and a lighting device 23, and incorporates a storage battery 14.

The main body frame 26 is made of, for example, a metal such as a sheet metal or a resin. The main body frame 26 has, for example, a rectangular parallelepiped box shape, and substantially the entire surface on the side where the display unit 13 is attached is opened.
The power terminal block 21 is fixed inside the main body frame 26. The power terminal block 21 is connected with wiring (power line) from an external power source such as a commercial power source. The power terminal block 21 inputs power supplied from the power line.
The storage battery 14 is detachably fixed inside the main body frame 26.
The lighting device 23 charges the storage battery 14 with the power input via the power terminal block 21. Further, the lighting device 23 converts the power input via the power terminal block 21 into power for lighting the light source of the light source unit 35. Further, the lighting device 23 converts the power charged in the storage battery 14 into power for lighting the light source of the light source unit 35 at the time of a power failure of the external power source.
The inspection switch unit 22 is fixed inside the main body frame 26. The inspection switch unit 22 includes an inspection switch, a monitor LED, and the like. The lower surface of the main body frame 26 is provided with an opening for operating an inspection switch, an opening for viewing a monitor LED, and the like.

The main body frame 26 has two power supply holes 61 and 62 and six attachment holes 63 to 68.
The power supply hole 61 is an opening provided substantially at the center of the upper surface of the main body frame 26. The power supply hole 62 is an opening provided substantially at the center of the back side surface of the main body frame 26. The power supply holes 61 and 62 are provided for drawing a power supply line connected to the power supply terminal block 21.
The attachment holes 63 to 68 are opening holes for passing a fixing tool such as a bolt.
The mounting hole 63 is provided on the upper surface of the main body frame 26.
The attachment holes 65 and 66 are openings provided on the upper surface of the main body frame 26. The attachment hole 66 is provided on the opposite side of the attachment hole 63 with the power supply hole 61 interposed therebetween. The attachment hole 65 is provided between the attachment hole 66 and the power supply hole 61.
The display device 10 is fixed to the ceiling surface or the like by fixing the mounting holes 63 and 65 or the mounting holes 63 and 66 through a fixing tool such as a wood screw.
The attachment hole 64 is provided on the back surface of the main body frame 26.
The attachment holes 67 and 68 are openings provided on the back surface of the main body frame 26. The attachment hole 68 is provided on the opposite side of the attachment hole 64 with the power supply hole 62 interposed therebetween. The attachment hole 67 is provided between the attachment hole 68 and the power supply hole 62.
The display device 10 is fixed to a wall surface or the like by fixing the mounting hole 64 and the mounting hole 67 or the mounting hole 64 and the mounting hole 68 with a fixing tool such as a wood screw.
Note that the power supply holes 61 and 62 and the attachment holes 63 to 68 may be knockout holes so that only necessary portions are opened when the display device 10 is fixed to a ceiling surface or a wall surface.

  FIG. 4 is a perspective view showing the structure of the emission unit 34 in this embodiment.

The emission unit 34 has two engaging portions 41 on the back surface.
Each engaging part 41 engages with the light source unit 35 to fix the light source unit 35 in a detachable manner. One engaging portion 41 is provided, for example, at the upper left corner of the back side surface of the emission unit 34. The other engaging portion 41 is provided, for example, in the upper right corner of the back surface of the emission unit 34.
The emission unit 34 includes a frame 42 and a case 43.
The frame 42 is, for example, a rectangular frame shape.
The case 43 has a rectangular dish shape, for example, and has a size that fits inside the frame 42. The case 43 has a chamfered upper left corner and upper right corner, and a gap is created between the case 43 and the frame 42. This gap forms the engaging portion 41.

  FIG. 5 is an exploded perspective view showing the structure of the emission unit 34 in this embodiment.

The emission unit 34 includes a light guide 44 and a display body 45 between the frame 42 described in FIG. 4 and the case 43.
The light guide 44 is, for example, a rectangular plate and has a size that fits inside the case 43. The light guide 44 includes, for example, two light incident portions 441 and a light exit portion 442. Each light incident portion 441 receives light emitted from the light source of the light source unit 35. One of the light incident portions 441 is formed by chamfering the upper left corner of the light guide 44. Another light incident portion 441 is formed by chamfering the upper right corner of the light guide 44. The light exit portion 442 is substantially the entire front surface of the light guide 44. The light exit portion 442 has a light exit pattern. The light emission pattern is, for example, a texture, a prism, a pattern with a dot shape, a pattern with printing, or the like. The light exit unit 442 emits the light that has entered the light guide 44 from the light entrance unit 441 using a light exit pattern.
The display body 45 has, for example, a rectangular plate shape and is approximately the same size as the light guide body 44. The display body 45 is translucent, for example. The display body 45 has a display surface 451. A graphic is drawn on the display surface 451. The display surface 451 is illuminated from the back side by the light emitted from the light guide 44.

The case 43 includes, for example, a bottom surface portion 431, a lower edge portion 432, a right edge portion 433, a left edge portion 434, an upper edge portion 435, and two chamfered portions 436.
The bottom surface portion 431 has, for example, a rectangular plate shape, and the upper left corner and the upper right corner are chamfered. The inner surface of the bottom surface portion 431 is painted white, for example, or is finished white by using a white resin or the like. The inner surface of the bottom surface portion 431 reflects light leaking from the surface on the back side of the light guide 44 (opposite to the light output portion 442) and returns it to the light guide 44.
The lower edge portion 432 has, for example, a rectangular plate shape, and is formed perpendicular to the bottom surface portion 431 along the lower side of the bottom surface portion 431. The inner surface of the lower edge portion 432 is, for example, white finished like the bottom surface portion 431, and reflects light leaking from the lower surface of the light guide 44 and returns it to the light guide 44.
The right edge portion 433 is, for example, a rectangular plate shape, and is formed perpendicular to the bottom surface portion 431 along the right side of the bottom surface portion 431. The lower end of the right edge portion 433 is connected to the right end of the lower edge portion 432. The inner surface of the right edge portion 433 is finished, for example, white like the bottom surface portion 431, and reflects light leaking from the right surface of the light guide 44 and returns it to the light guide 44.
The left edge portion 434 has, for example, a rectangular plate shape, and is formed perpendicular to the bottom surface portion 431 along the left side of the bottom surface portion 431. The lower end of the left edge portion 434 is connected to the left end of the lower edge portion 432. The inner surface of the left edge portion 434 is finished, for example, white like the bottom surface portion 431, and reflects light leaking from the left surface of the light guide 44 and returns it to the light guide 44.
The upper edge portion 435 has, for example, a rectangular plate shape, and is formed perpendicular to the bottom surface portion 431 along the upper side of the bottom surface portion 431. The inner surface of the upper edge portion 435 is finished, for example, white like the bottom surface portion 431, and reflects light leaking from the upper surface of the light guide 44 and returns it to the light guide 44.
Each chamfered part 436 has, for example, a rectangular plate shape and includes an incident part 437. One chamfered portion 436 is formed perpendicular to the bottom surface portion 431 along the chamfered portion at the upper right corner of the bottom surface portion 431. Another chamfered portion 436 is formed perpendicular to the bottom surface portion 431 along the chamfered portion at the upper left corner of the bottom surface portion 431. The upper end of the chamfered part 436 is connected to the upper edge part 435. The lower end of the chamfered part 436 is connected to the right edge part 433 or the left edge part 434.
The incident portion 437 is provided to allow the light emitted from the light source unit 35 to enter. The incident portion 437 is a window made of, for example, an opening, a notch, or a transparent material such as resin.

  The frame 42 has an emission part 421. The emission part 421 is provided so that the display surface 451 of the display body 45 can be visually recognized from the outside. The emission part 421 is, for example, a window made of an opening, a notch, or a transparent material such as resin. The frame 42 is formed by integral molding, for example. Thereby, since there is no gap generated when a plurality of components are connected, light is prevented from leaking from the gap, and the design of the display device 10 is improved.

FIG. 6 is an exploded enlarged perspective view showing the structure of the emission unit 34 in this embodiment.
This figure is an enlarged view of the vicinity of the chamfered portion 436 in the emission unit 34. This figure shows the case 43, the light guide body 44, and the display body 45 combined, and the frame 42 is not drawn.

  In this example, the incident portion 437 of the chamfered portion 436 is a notch. The light incident portion 441 of the light guide 44 has a shape that engages with the incident portion 437. The display body 45 has a similar shape. The chamfered portion 436, the light incident portion 441, and the side surface of the display body 45 form one plane.

  FIG. 7 is an enlarged front view and an enlarged perspective view showing the structure of the light source unit 35 in this embodiment.

The light source unit 35 includes, for example, a holding unit 51, a cover 52, and a light source circuit unit 53.
The light source circuit unit 53 includes a light source, a substrate on which the light source is mounted, and the like.
The cover 52 covers the front side of the light source circuit unit 53. This protects the wiring pattern and the solder surface on the substrate.
The holding unit 51 covers the back side of the light source circuit unit 53 and detachably engages with the engaging unit 41 of the emission unit 34 to fix the light source unit 35 to the emission unit 34.

  FIG. 8 is a front view and a perspective view showing the structure of the light source circuit section 53 in this embodiment.

The light source circuit unit 53 (LED substrate) includes, for example, a substrate 531, a connector 532, and two LEDs 533.
The substrate 531 is, for example, a printed wiring board. The substrate 531 has, for example, a rectangular plate shape. A wiring pattern is provided on the substrate 531 by printing or etching, for example.
The LED 533 (light source) is, for example, a surface mount type white LED. The LED 533 is mounted on the front surface of the substrate 531 by, for example, soldering. For example, the LED 533 is mounted at a position close to one of the short sides of the substrate 531. For example, the two LEDs 533 are arranged side by side in a direction parallel to the short side of the substrate 531. The LED 533 is electrically connected to wiring provided on the substrate 531. The two LEDs 533 are electrically connected in series, for example, via wiring provided on the substrate 531. The number of LEDs 533 is not limited to two, but may be one or three or more. The LED 533 has, for example, a rotationally symmetric light distribution whose optical axis is a direction perpendicular to the substrate 531. The light distribution characteristics of the LED 533 have the highest luminous intensity in the optical axis direction and a half-value angle of, for example, 60 degrees.
The connector 532 is mounted on the front surface of the substrate 531 by, for example, soldering. For example, the connector 532 is mounted at a position near the short side of the substrate 531 opposite to the LED 533. The connector 532 is electrically connected to wiring provided on the substrate 531. The connector 532 is electrically connected to the LED 533 through wiring provided on the substrate 531. The connector 532 has, for example, a shape that can be engaged with and fixed to a connector provided at the tip of a harness for supplying power from the lighting device 23 to the light source. The connector of the harness is inserted into the connector 532 sideways from the outside in a direction parallel to the long side of the substrate 531, for example. The connector 532 is electrically connected to the lighting device 23 via a fixed harness, and inputs power supplied from the lighting device 23. The LED 533 receives power from the lighting device 23 via the connector 532 and emits light.

  FIG. 9 is a front view and a perspective view showing the structure of the cover 52 in this embodiment.

  The cover 52 includes, for example, a substrate surface cover 521, a substrate upper cover 523, a substrate left cover 524, a substrate right cover 525, a connector top cover 527, a connector left cover 528, a connector A right cover 529 and a connector back cover 530 are provided.

The substrate surface covering portion 521 covers a portion of the front side surface of the substrate 531 where the connector 532 is not mounted. The substrate surface covering portion 521 has a rectangular plate shape, for example. The substrate surface covering part 521 has a light source corresponding part 522. The light source corresponding part 522 is provided in a part corresponding to the LED 533 mounted on the substrate 531. The light source corresponding part 522 is, for example, an opening, a notch, or a window made of a transparent material such as resin. The light source corresponding unit 522 emits the light emitted from the LED 533 to the outside of the cover 52.
When the light source unit 35 is attached to the emission unit 34, the outer surface of the substrate surface covering portion 521 contacts the chamfered portion 436. The size of the light source corresponding part 522 is substantially the same as or slightly smaller than the light incident part 441. The light emitted from the light source corresponding part 522 enters the light guide 44 from the light incident part 441.

The board upper cover 523 covers the upper side surface, which is the short side of the board 531 on which the LED 533 is mounted. The substrate upper cover 523 has, for example, a rectangular plate shape, and is formed perpendicular to the substrate surface cover 521 along one side of the substrate surface cover 521.
The substrate left side cover 524 covers the left side surface which is one of the long sides of the substrate 531. The substrate left side cover 524 has, for example, a rectangular plate shape, and is formed perpendicular to the substrate surface cover 521 along one side of the substrate surface cover 521. One end of the substrate left side covering portion 524 is connected to the substrate upper side covering portion 523. The other end of the substrate left side covering portion 524 is formed longer than the substrate surface covering portion 521 and covers the entire left side surface of the substrate 531.
The substrate right side cover 525 covers the right side surface which is another long side of the substrate 531. The substrate right side cover 525 has, for example, a rectangular plate shape, and is formed perpendicular to the substrate surface cover 521 along one side of the substrate surface cover 521. One end of the substrate right cover 525 is connected to the substrate upper cover 523. The other end of the substrate right side covering portion 525 is formed longer than the substrate surface covering portion 521 and covers all the right side surfaces of the substrate 531.
A substrate engaging portion 526 is formed on the back side of the U-shaped side surface covering portion constituted by the substrate upper side covering portion 523, the substrate left side covering portion 524 and the substrate right side covering portion 525.
The substrate engaging portion 526 is, for example, a U-shaped recess, and is engaged with the edge of the substrate 531 to determine the positional relationship between the cover 52 and the light source circuit portion 53.

Connector top surface cover 527 covers the top surface of connector 532 mounted on substrate 531. The connector top surface covering portion 527 has a rectangular plate shape, for example.
The connector left side cover 528 covers the left side surface of the connector 532. The connector left cover 528 has, for example, a rectangular plate shape, and connects the board left cover 524 and the connector top cover 527. The connector left cover 528 is parallel to the substrate left cover 524 and is connected to a portion of the substrate left cover 524 that is not connected to the substrate surface cover 521. The connector left cover 528 is perpendicular to the connector top cover 527 and is connected to one side of the connector top cover 527.
The connector right cover 529 covers the right side surface of the connector 532. The connector right side cover 529 has, for example, a rectangular plate shape, and connects the board right side cover 525 and the connector top surface cover 527. The connector right side cover 529 is parallel to the board right side cover 525 and is connected to a portion of the board right side cover 525 that is not connected to the board surface cover 521. The connector right cover 529 is perpendicular to the connector top cover 527 and is connected to one side of the connector top cover 527.
The connector back side cover 530 covers the back side surface of the connector 532. The connector back side cover 530 has, for example, a rectangular plate shape, and connects the connector top surface cover 527, the connector left side cover 528, and the connector right side cover 529.
The connector top cover 527, the connector left cover 528, the connector right cover 529, and the connector back cover 530 constitute a connector cover. The side surface of the connector 532 on the side where the harness is inserted is not covered. In addition, since the connector back side cover part 530 side is covered with the outer surface of the case 43 when the light source unit 35 is attached to the emission unit 34, the connector back side cover part 530 may not be provided.

  FIG. 10 is a front view and a perspective view showing the structure of the holding portion 51 in this embodiment.

The holding part 51 is made of a material having high thermal conductivity such as a metal such as aluminum or a heat radiating resin. Thereby, the heat generated by the light source is efficiently radiated. The holding part 51 includes, for example, a base part 511, an emission engaging part 512, and a main body engaging part 513.
The base 511 has, for example, a rectangular plate shape, and comes into contact with the back surface of the substrate 531. The side surface which is the long side of the base portion 511 has a taper of 45 degrees, for example, and the short side direction of the base portion 511 is shortened as the distance from the substrate 531 increases.
The emission engagement portion 512 is, for example, an isosceles trapezoidal plate having a side angle of 90 degrees, and is formed perpendicular to the base portion 511 along one of the short sides of the base portion 511. The side surface that is the side edge of the emission engaging portion 512 forms one plane with the side surface that is the long side of the base portion 511.
The main body engaging portion 513 is, for example, an isosceles trapezoidal plate having a side angle of 90 degrees, and is formed perpendicular to the base portion 511 along another short side of the base portion 511. The side surface that is the side of the main body engaging portion 513 forms one plane with the side surface that is the long side of the base 511.

  The holding part 51 and the cover 52 are fixed by, for example, adhesion. The holding portion 51 and the cover 52 may be configured to be fixed using a fixing member such as a screw, for example, or may be configured to be fixed by fitting a structure such as a fitting claw. Also good.

  When the light source unit 35 is attached to the emission unit 34, the side surface that is the long side of the base portion 511 and the side surface that is the side side of the emission engagement portion 512 are in contact with the inner surface of the frame 42. In addition, the outer surface of the emission engagement portion 512 is also in contact with the inner surface of the frame 42. Thereby, the light source unit 35 is engaged with and fixed to the engaging portion 41.

FIG. 11 is a diagram showing the measurement result of the light distribution characteristics of the light emitted from the display device 10 according to this embodiment.
The horizontal axis indicates the horizontal angle (measurement angle) formed by the surface of the display body 45 with respect to the measurement apparatus. The vertical axis shows the relative illuminance based on the case where the measurement angle is 0 degree. A solid line 81 represents the measurement result.

Of the two light source units 35, only the light source unit 35 on the left side is turned on, and a transparent polymethyl methacrylate resin (PMMA) is used as the display body 45, and an optical sheet is provided between the light guide body 44 and the display body 45. And the illuminance was measured.
Since only the left light source unit 35 is lit, the light distribution characteristic is asymmetrical. However, if the right light source unit 35 is also lit, the light distribution characteristic is reversed between the solid line 81 and the solid line 81. It becomes the sum with the curved line and becomes symmetrical.

  For comparison, measurement was also performed when the light source unit 35 was provided not on the corner of the emission unit 34 but on the upper side and on the side. A dotted line 82 represents a measurement result when the light source unit 35 is provided on the upper side of the emission unit 34. An alternate long and short dash line 83 represents a measurement result when the light source unit 35 is provided on the side of the emission unit 34.

When the light source unit 35 is provided at the corner or side of the emission unit 34, the illuminance when viewed from an oblique direction is higher and the visibility is higher than when the light source unit 35 is provided on the upper side.
However, if the light source unit 35 is provided on the side, luminance unevenness is likely to occur between the light sources when the number of light sources is small. On the other hand, if the light source unit 35 is provided at the corner, the occurrence of uneven brightness can be suppressed.

FIG. 12 is a diagram showing the measurement result of the light distribution characteristics of the light emitted from the display device 10 according to this embodiment.
The horizontal axis indicates the measurement angle. The vertical axis represents relative illuminance. A solid line 84 represents the measurement result.

Of the two light source units 35, only the left light source unit 35 was turned on, and the illuminance on the surface of the display body 45 was measured using milky white PMMA as the display body 45.
Only the left light source unit 35 is lit, but light is diffused by the display body 45, so that the light distribution characteristics are symmetrical. From this, it can be seen that when the display body 45 has sufficient diffusion performance, the light source units 35 do not need to be provided symmetrically, and only one light source unit 35 is required.

  For comparison, the light source unit 35 was measured not on the corner of the emission unit 34 but on the upper side (dotted line 85) and on the side (dotted line 86). There was no difference.

As described above, by providing the light source unit 35 at the corner of the emission unit 34, visibility from various angles can be improved and luminance unevenness can be suppressed.
By configuring the light source unit 35 to be detachable from the emission unit 34, the user can easily replace the light source.
Since the light source unit 35 is engaged and fixed with the engaging portion 41, the light source can be easily arranged at a predetermined position in a predetermined direction even if the light source unit 35 is replaced. Thereby, display quality can be improved.

As described above, the number of light source units 35 may be one. Conversely, the number of light source units 35 may be three or more.
The light source unit 35 may be configured to be disposed at the lower corner instead of the upper corner of the light guide 44.
The emission unit 34 may not be a rectangular plate as long as it has a plate shape having at least one corner.
Further, a light control member such as a prism sheet or a diffusion sheet and a reflective material such as a reflection sheet may be provided before and after the light guide 44.
Further, the light source unit 35 and the engaging portion 41 have a fitting structure constituted by an elastic body such as a spring or a claw, and the engaging structure engages with the engaged light source unit 35. The structure which makes it hard to remove | deviate from the part 41 may be sufficient.

Further, when the incident portion 437, the emission portion 421, the light source corresponding portion 522, and the like are made of a transparent material, they may be formed as separate parts, or may be formed integrally by two-color molding or the like.
Further, the holding part 51 may be formed of a material having low thermal conductivity.

In addition, the liquid crystal display device may be used as the display body 45 instead of drawing information to be displayed on the display body 45 by the display device 10.
In addition, the connection between the lighting device 23 and the light source unit 35 may be configured with, for example, a connection piece and a blade receiver instead of a harness and a connector, or may be easily soldered directly with a lead wire. The connection may be such that it cannot be removed.

Embodiment 2. FIG.
The second embodiment will be described with reference to FIGS.
In addition, about the part which is common in Embodiment 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  Since the appearance and structure of the display device 10 in this embodiment are the same as those in the first embodiment, only the differences will be described.

  FIG. 13 is a front view showing the structure of the light guide 44 in this embodiment.

The light guide 44 does not have chamfering, but instead has two engagement holes 443 (concave portion, engagement portion).
One of the engagement holes 443 is provided near the upper left corner of the light guide 44. Another engagement hole 443 is provided near the upper right corner of the light guide 44. The engagement hole 443 has, for example, an isosceles trapezoidal shape, and engages with the light source unit 35 to fix the light source unit 35.

FIG. 14 is a partially enlarged perspective view showing the structure of the light guide body 44 in this embodiment.
This figure is an enlarged view of the vicinity of the engagement hole 443 in the light guide 44.

  The side surface that is the lower bottom side of the engagement hole 443 forms a light incident portion 441. The light incident part 441 enters the light emitted from the light source of the light source unit 35 engaged and fixed in the engagement hole 443 into the light guide 44.

  Even with this configuration, the same effects as those of the first embodiment can be obtained.

  As described above, the configuration described in each embodiment is an example, and another configuration may be used. For example, the structure which combined the structure demonstrated in different embodiment may be sufficient, and the structure which replaced the structure of the non-essential part with the other structure may be sufficient.

  DESCRIPTION OF SYMBOLS 10 Display apparatus, 12 Main body, 13 Display part, 14 Storage battery, 21 Power supply terminal block, 22 Inspection switch part, 23 Lighting device, 26 Main body frame, 34 Output unit, 35 Light source unit, 41 Engagement part, 42 Frame, 421 Output Part, 43 case, 431 bottom face part, 432 lower edge part, 433 right edge part, 434 left edge part, 435 upper edge part, 436 chamfering part, 437 incident part, 44 light guide, 441 light incident part, 442 light exit Part, 443 engaging hole, 45 display body, 451 display surface, 51 holding part, 511 base part, 512 emission engaging part, 513 main body engaging part, 52 cover, 521 substrate surface covering part, 522 light source corresponding part, 523 substrate Upper cover 524 Substrate left cover 525 Substrate right cover 526 Substrate engaging part 527 Connector top cover 528 Connector left cover 529 Connector right side cover, 530 Connector back side cover, 53 Light source circuit part, 531, Board, 532 Connector, 533 LED, 61, 62 Power supply hole, 63-68 Mounting hole, 81, 84 Solid line, 82, 85 Dotted line, 83, 86 A one-dot chain line.

Claims (5)

A columnar light source unit having a bottom surface of a substantially isosceles right triangle, and a light source unit having a light source that emits light in a direction substantially perpendicular to a side surface corresponding to a hypotenuse of the right triangle, and an emission unit And
The emission unit is
The light source unit has a flat light guide having a light incident part for incident light emitted from the light source and a light output part for emitting light diffused from the light incident from the light incident part,
An engaging portion that engages with the light source unit and removably fixes the light source unit;
The surface light-emitting device, wherein the light incident part is provided at a side surface angle of the light guide. The emission unit is
Having a frame portion covering the side surface of the light guide,
The light incident portion is provided by chamfering a side surface angle of the light guide,
The surface emitting device according to claim 1, wherein the engaging portion is formed by a gap between the frame portion and the light incident portion. The engaging portion is a recess provided on a surface opposite to the light exit surface of the light guide,
The surface light-emitting device according to claim 1, wherein the light incident portion is provided on an inner wall of the engagement portion. A surface light-emitting device according to any one of claims 1 to 3 ,
A display device comprising: a display body illuminated by light emitted from the surface light emitting device. A surface light-emitting device according to any one of claims 1 to 3 ,
A guide lamp device comprising: a display body that displays an evacuation guide pattern illuminated by light emitted from the surface light emitting device.

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