JP2009176652A - Internal illumination type light box - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an internal illumination type light box capable of efficiently reflecting light of LEDs, and excelling in workability. <P>SOLUTION: In this internal illumination type light box, a plurality of LEDs and a reflecting plate reflecting the light of the LEDs are arranged in a box body with a front face opened, and the front-face opening of the box body is covered with a light diffusion plate. The light box is structured such that the reflecting plate is formed as a reflective tray formed into a tray type having a bottom part and a sidewall part rising from the bottom part by sheet molding; the reflective tray is arranged in the box body so that its bottom inner surface faces the front side; and the LEDs are arranged inside the sidewall part of the reflective tray. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an internally-illuminated light box used as a backlight for various liquid crystal display devices, electric signboards, lighting devices, wall panels, and the like.

The internally-illuminated light box used as the wall surface panel includes one shown in Patent Document 1 below.
This includes a plurality of LEDs and a reflector that reflects the light of the LEDs inside the box body. The reflector is disposed at the bottom to efficiently reflect the LED light. And in order to reflect the light of LED further efficiently, it is possible to provide another reflector in addition to the inner surface of the box body.
JP 2006-202729 A

  When another reflector is provided on the inner surface of the box body, the reflector is cut into a shape facing the inner surface of the box body and fixed to the inner surface. Workability is poor.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an internally-illuminated light box that can efficiently reflect the light of an LED, suppress uneven illuminance, and has good workability.

  The internally-lighted light box of the present invention includes a plurality of LEDs and a reflecting plate that reflects the light of the LEDs inside the box body whose front surface is open, and the front opening of the box body is covered with a light diffusion plate. The reflection plate is configured as a reflection tray formed in a tray shape having a bottom portion and a side wall portion rising from the bottom portion by sheet molding, and the reflection tray is a box so that an inner surface of the bottom portion faces frontward. It is arrange | positioned in the main body and the said LED is arrange | positioned inside the side wall part of a reflective tray, It is characterized by the above-mentioned.

  In the internally-illuminated light box having the above configuration, since the reflector configured as a reflection tray has a bottom portion and a side wall portion rising from the bottom portion, when mounted on the inner surface of the box body, both the bottom surface and the side surface of the box body are It will be covered with the reflector at the same time, therefore the assembling workability of the internal light box will be better than the case where the reflector is installed separately on the bottom and side of the box body, In addition to having the side wall portion, the light reflection efficiency of the LED is improved accordingly.

  In the internally illuminated light box of the present invention, the box body is rectangular in front view, and the reflection tray is also rectangular in front view corresponding to the shape of the box body, and the four adjacent side walls of the reflection tray are adjacent to each other. It is characterized in that the LEDs are arranged inside the two side wall portions while being spaced from each other so that the LEDs are arranged in an L shape when viewed from the front.

  In the internally lit light box with the above configuration, the LEDs are arranged in an L-shaped arrangement when viewed from the front, making it easy to organize the wiring from the corners of the L-shaped arrangement. Therefore, the workability is improved accordingly.

  In the internally illuminated light box of the present invention, an inclined surface inclined with respect to the light diffusing plate is formed at the bottom of the reflecting tray, and the corner of the reflecting tray corresponding to the corner of the L-shaped array of LEDs is used as one end. A cross section of the inclined surface in a direction perpendicular to the diagonal line is characterized by being inclined downwardly toward the diagonal line or being flat toward the diagonal line.

  The light from the LED in the L-shaped arrangement is particularly diffusely reflected in the box body due to the presence of the inclined surface, so that unevenness in illuminance is suppressed as an internally illuminated light box, and the flat part is installed at the bottom of the box body. Easy.

  In the internally lit light box of the present invention, the reflector configured as a reflection tray has a bottom part and a side wall part rising from the bottom part. Since it will be covered with the reflector at a time, the assembling workability of the internally illuminated light box can be improved compared to the case where the reflector is separately installed on the bottom and side surfaces of the box body. Has a side wall portion as well as a bottom portion, so that even if the same number of LEDs are arranged as much, the light reflection efficiency can be improved.

Hereinafter, an internally illuminated light box according to an embodiment of the present invention will be described with reference to the drawings. First, a first embodiment will be described based on the drawings.
FIG. 1 is a single perspective view with the front plate of the internally illuminated light box removed. 2 (a) and 2 (b) are a front view and a side view of the reflecting plate, FIG. 3 is a rear view, FIG. 4 is a cross-sectional view showing the overall configuration of the internally lit light box, and FIG. FIG.

  As shown in these drawings, the internally illuminated light box 1 according to the first embodiment is arranged along the wall surface of a house or a showroom as a component of the wall panel structure. The light in the room is irradiated to the outside, so that the atmosphere in the room is improved. The wall panel structure is configured by, for example, combining a plurality of internally illuminated light boxes 1 as a panel unit, and continuously assembling the panel unit along the wall surface.

  The internally lit light box 1 includes a box body 3, a front plate body 5 as a light diffusing plate that covers the front opening of the box body 3, a reflection plate 6, a wiring board (substrate) 7, and the wiring board 7. It is comprised from several LED8 installed in. The box body 3, the front plate body 5, and the reflection plate 6 are each formed separately from a synthetic resin. The box body 3 is formed of a frame body portion 10 and a body bottom portion 11.

  The frame body portion 10 is integrally formed in a substantially rectangular (square) shape when viewed from the front from the combination of the L-shaped first frame body portion 10A and the second frame body portion 10B when viewed from the front. The front surface of the frame body portion 10 is an opening portion configured as a lid hooking surface 12 on which the outer peripheral portion of the front plate body 5 is abutted and supported.

The first frame body portion 10A is a frame body component portion on the side where the LEDs 8 are provided. The corners of the first frame portion 10A are formed in an arc shape when viewed from the front. In the first frame body portion 10A, the rear portion located on the wall surface side when the panel unit is attached to the wall surface has an internal / external double structure.
That is, the rear portion of the first frame body portion 10 </ b> A is composed of an outer rear portion 13 and an inner rear portion 14 disposed inside the outer rear portion 13 with a space therebetween. The inner surface of the inner rear portion 14 is formed integrally with the front portion of the first frame body portion 10A, and the inner surface of the first frame body portion 10A is a smooth surface without a step. The outer rear portion 13 and the inner rear portion 14 are integrated by ribs 15 arranged at substantially equal intervals in the wall surface direction.
A pair of fitting holes 16 are formed in the outer rear portion 13 on one side of the first frame body portion 10A so as to be separated in the length direction of the one side. The fitting hole 16 is for fitting a projection 17 provided on the other side of the first frame body portion 10 </ b> A of the box body 3 of the adjacent internally illuminated light box 1. Therefore, the protrusion 17 is also formed on the other side of the first frame portion 10A in the box body 3 of the internally lit light box 1. The protrusions 17 are spaced apart from each other in the length direction of the other side of the first frame body portion 10 </ b> A so as to be fitted into the fitting holes 16.
Continuous belt-shaped concave grooves 20 and 21 that are recessed toward the second frame body portion 10B are formed on the outer front portions of the two sides of the first frame body portion 10A. On the further front side of the concave grooves 20, 21, a plurality of narrow grooves 22, 23 smaller than the concave grooves 20, 21 are formed in parallel to the concave grooves 20, 21 (in this case, two grooves). . The recessed grooves 20 and 21 and the narrow grooves 22 and 23 are used to lock the hooks of a fixture (not shown) for mounting the decorative member in a state where the internally illuminated light boxes 1 are assembled.

An attachment recess 26 that is recessed toward the corner of the second frame 10B is formed at the corner of the first frame 10A. The mounting recess 26 is formed so that the projection 17 is fitted into the fitting hole 16 with the corners of the first frame body portion 10A of the internally illuminated light box 1 as the center so that the internally illuminated light box 1 has a rectangular shape when viewed from the front. In this case, a mounting hole through which the mounting screw 27 is inserted is formed.
A frame side misalignment prevention protrusion 30 protruding forward is formed to protrude forward along the outer end portion of the lid hooking surface 12 of the first frame body portion 10A. A small protrusion 17a that fits into a small hole formed on the back surface of the front plate body 5 is formed on the lid hanging surface 12 of the first frame body portion 10A so as to be separated in the length direction of one side or the other side. .

The corners of the second frame 10B are formed in a square shape when viewed from the front. The second frame portion 10B has a smooth surface with no steps on the inner surface and outer surface, but the front portion on one side facing the one side of the first frame portion 10A on which the small protrusions 17b are formed A displacement prevention recess 33 is formed in which a lid side displacement prevention piece (not shown) formed so as to protrude below one side of the plate body 5 overlaps from the outside. The misalignment prevention recess 33 is formed with a pair of small projections 17b projecting outward in the length direction of one side. A small hole that fits into the small protrusion 17b is formed in the lid side deviation preventing piece.
A connecting recess 35 into which a connecting tool (not shown) for connecting the panel units is inserted is formed in the corner of the first frame 10A in the middle of the corner of the second frame 10B. It is formed so as to be recessed.
Due to the configuration of the connecting recess 35, a fan-like bulged portion 36 is formed on the inner surface of the corner of the second frame body portion 10B so as to bulge toward the center.
A plurality of pairs of attachment pieces 43 for screwing the frame body portion to the wall surface are formed at the inner surface rear end portions of the first frame body portion 10A and the second frame body portion 10B of the box body 3.

Here, the configuration of the main body bottom 11 will be described.
The main body bottom portion 11 is formed in a thin plate shape parallel to the wall surface in the middle of the frame body portion 10 in the longitudinal direction of the inner surface.
In other words, the main body bottom portion 11 is formed in parallel to the light diffusion surface 37 which is the back surface of the front plate body 5, and each side of the first frame body portion 10A and the second frame body portion 10B and A bottom hole 38 having a substantially rectangular shape when viewed from the front, with the central portion in the length direction of the other side as the apex portion, is formed, and the inner surface of the frame body portion 10 is located in the middle of each corner of the inner surface of the frame body portion 10 in the front-rear direction. The bottom component plate members 40A, 40B, 40C, and 40D that are isosceles right-angled triangles when viewed from the front, with the side as the bottom and the center side of the frame 10 as the hypotenuse, are integrated with each corner of the inner surface of the frame 10 Is formed. The front surfaces of the bottom component plate members 40 </ b> A, 40 </ b> B, 40 </ b> C, and 40 </ b> D are provided to be parallel to the light diffusion surface 37.
Both apex corners 41, 42 on the hypotenuse side of the bottom component plate members 40A, 40B, 40C, 40D are one side with apex portions 41, 42 on the hypotenuse side of the adjacent bottom component plate members 40A, 40B, 40C, 40D. , At a position separated by a predetermined distance (L1) in the length direction of the other side.
In each of the bottom component plate members 40A, 40B, 40C, and 40D, a notch 44 that allows a tool to be inserted is formed in a front and rear direction at a portion facing the front side of the mounting piece 43.

Next, the configuration of the front plate 5 will be described.
As described above, the front plate body 5 is a light diffusing plate and is formed of a light-transmitting material, and is detachably attached to the frame body portion 10 so as to close the opening portion of the frame body portion 10. The front plate 5 has at least a back surface (inner surface) as a flat and smooth light diffusing surface 37, and the front plate 5 has a rectangular covering portion 45 having the light diffusing surface 37 and a first frame portion of the covering portion 45. Opposite to 10A side, it has integrally the superposition | polymerization part 46 superposed on the front side of 10A of 1st frame parts. The overlapping portion 46 is formed thicker than the covering portion 45.

Next, the configuration of the reflecting plate 6 will be described.
The reflecting plate 6 is integrally formed as a reflecting tray having a bottom reflecting portion 47 and a side reflecting portion 48 which are main reflecting portions by sheet molding.
The reflector 6 in the first embodiment of the present invention is not particularly limited as long as it is made of a synthetic resin sheet and has a light reflectivity and can be thermoformed. However, a sheet made of a thermoplastic resin composition containing 5% by weight or more of an inorganic filler is preferable from the viewpoint of excellent thermoformability. Such a sheet is integrally formed as a reflecting tray having the bottom reflecting portion 47 and the side reflecting portion 48 by using vacuum forming, press forming, or the like.
More specifically, the following sheet is exemplified as the sheet used for the reflecting plate 6. That is, an inorganic filler such as titanium oxide is contained in a thermoplastic resin such as a polypropylene-based resin and formed into a sheet with a thickness of 0.2 to 2 mm by extrusion molding, and the light reflectance is 95% or more. It is a certain sheet. More specifically, those described in Japanese Patent No. 4005123 are exemplified.
The bottom reflecting portion 47 is integrally formed by a combination of the flat portion 50 and the slope portion 51 and is formed in a substantially rectangular shape (square) in front view, and the area projected in front view is substantially the same as that of the main body bottom portion 11. Are set equal. Accordingly, the bottom reflecting portion 47 can be disposed so as to overlap the front surface of the main body bottom 11 (bottom component plate members 40A to 40D). However, the slope portion 51 is inserted into the bottom hole 38 of the main body bottom portion 11 from the front side to the rear side.

Here, the configuration of the slope portion 51 will be described. The slope 51 is located on the diagonal 52 of the bottom reflector 47 (reflecting tray) with the corner of the first frame 10A as one end, and the set point 53 located near the first frame 10A. The inner surface 54 of the slope portion 51 is configured to be inclined. That is, the set point 53 is positioned closer to the corner of the first frame body portion 10A on the side where the wiring board 7 (LED 8) is provided. The direction of the inner surface 54 in every cross section in the front-rear direction passing through the set point 53 is inclined toward the set point 53 in any cross section in any direction.
In this case, the cross section in the direction orthogonal to the diagonal line 52 with the corner portion in the first frame body portion 10A as one end is inclined toward the diagonal line 52 so as to be a downward gradient, and the set point 53 that is the inclination center is the first frame. It is set closer to the corner of the body part 10A. In addition, the slope portion 51 has an outer surface facing the bottom hole 38 when viewed from the front, and has four types of slopes: a first slope 55A, a second slope 55B, a third slope 55C, and a fourth slope 55D. Has a surface.
Further, the first inclined surface 55A, the second inclined surface 55B, the third inclined surface 55C, and the fourth inclined surface 55D are each formed in a triangle having the set point 53 as one vertex when viewed from the front. Further, between the first inclined surface 55A and the second inclined surface 55B, between the second inclined surface 55B and the third inclined surface 55C, between the third inclined surface 55C and the fourth inclined surface 55D, the fourth inclined surface. Between the surface 55D and the first inclined surface 55A, a triangular portion 56 having a base corresponding to the front side of the apex portions 41, 42 on the oblique sides of the bottom component plate members 40A, 40B, 40C, 40D. Is continuous by.

The gathering point 53 is provided further rearward than the back surface of the main body bottom 11, and the gathering point 53 is set not to be rearward of the rear end face of the frame body part. Therefore, the inclination angle of the inclined surface is set so that the set point 53 is located between the bottom component plate members 40A, 40B, 40C, and 40D and the rear end surface of the frame body portion.
In the bottom reflecting portion 47, the portion other than the slope portion 51 is the flat portion 50, and this flat portion 50 is a portion that is attached to the front surface of the bottom component plate members 40A, 40B, 40C, 40D, The plane portions 50A, 50B, 50C, and 50D are formed, and each of the plane portions 50A, 50B, 50C, and 50D is formed in a triangle when viewed from the front.
The flat portions 50A, 50B, 50C, and 50D are flat toward the diagonal line 52. The slope portion 51 is disposed in a region substantially surrounded by the plane portion 50, and the slope portion (inclined surface) 51 extends rearward from the end portions of the plane portions 50 </ b> A, 50 </ b> B, 50 </ b> C, 50 </ b> D and is integrated with the plane portion 50. Is formed.

The side reflecting portion 48 is a portion that rises forward from the four sides of the bottom reflecting portion 47 and faces the inside of the frame body portion 10 and is formed in a rectangular frame shape when viewed from the front. A flat bulging portion 60 for disposing the wiring board 7 along the inner surface 48a is formed on the inner surface 48a of the portion of the side reflecting portion 48 facing the first frame body portion 10A from the inner surface 48a. It is formed to bulge inward. The bulging part 60 is formed apart from each other in the length direction of the two sides of the first frame body part 10A.
In such a reflector 6, a corner portion corresponding to the bulging portion 36 is inclined so as to avoid the bulging portion 36 to form a corner cutting portion 6 a.

The wiring boards 7 and 7 are formed in an elongated rectangular shape, and are respectively bulged in two side reflecting portions 48 (48A and 48B) facing the first frame body portion 10A in the side reflecting portion 48. It is provided so that it may overlap via the exit part 60. A plurality of LEDs 8 are installed on the respective wiring boards 7 and 7 in the middle of the front and rear of the wiring board 7, and the distance between the LEDs 8 is far from the side closer to the corner part 48c of the side reflection part 48 (48A, 48B). Widened compared to the side spacing. This is because the LEDs 8 arranged on the wiring boards 7 and 7 are close to each other on the side closer to the corner portion 48c, so that it is not necessary to concentrate the LEDs 8 on the side farther from the corner portion 48c. This is because reducing (thinning out) is excellent in terms of cost.
In this way, the LEDs 8 are configured in an L-shaped array as viewed from the front as a whole.

In addition, in the interval between the LEDs 8, the distance closer to the corner portion 48 c of the side reflecting portion 48 may be increased from the far side to the corner portion 48 c in order to increase the distance closer to the corner portion 48 c than the distance on the far side. Alternatively, a certain LED 8 at a predetermined position may be used as the boundary LED 8, and the distance between the LEDs 8 may be changed on the side farther and closer to the corner 48 c.
In this embodiment, the corner portion of the side reflector 48 is larger than the arrangement pitch of the LEDs 8 arranged on the side closer to the corner 48c of the side reflector 48 (arranged at a constant pitch between the distances L2). The arrangement pitch of the LEDs 8 arranged on the side close to 48c (arranged at a constant pitch between the distances L3) is increased.
In addition, insertion holes (not shown) through which the wirings 7a and 7a of the wiring boards 7 and 7 are collectively inserted are formed in the corners 48c of the side reflection parts 48 (48A and 48B).

In the above configuration, the first frame body portion 10A is fixed to the wall surface by inserting a tool from the notch 44 in the internally illuminated light box 1 and inserting a screw into the screw hole of the mounting piece 43 and screwing it into the wall surface. To do. Subsequently, the reflection plate 6 to which the wiring boards 7 and 7 are attached is attached to the first frame body portion 10A, and the front plate body 5 is attached to the opening portion configured as the lid hooking surface 12 to cover the opening portion.
Such an operation is performed for a plurality of internally illuminated light boxes 1 so as to constitute a panel unit as a wall panel structure. Then, by turning on the LED 8, the light of the LED 8 is reflected by the reflecting plate 6 within the internally lit light box 1, diffused by the light diffusion surface 37, which is the back surface of the front plate body 5, and internally illuminated.

  In assembling the internally lit light box 1 as described above, the reflector 6 is integrally formed as a reflecting tray by sheet molding from the bottom reflecting portion 47 and the side reflecting portion 48 which are main reflecting portions. Therefore, for example, the reflecting plate 6 is inserted into the bottom hole 38 so that the position of the corner cutting portion 6a corresponds to the bulging portion 36, and the flat portion 50 is set to the bottom component plate members 40A and 40B. , 40C, 40D, the side reflector 48 is arranged so as to face the inside of the frame body 10, so that the reflector 6 can be attached to the box body 3 very easily. it can.

Further, in this internally illuminated light box 1, due to the presence of the inclined surface portion (inclined surface) 51, the aggregation point 53 of the inclined surface portion 51 is positioned closer to the first frame body portion 10 </ b> A on the diagonal line 52, and the LED 8 is entirely As a result, it becomes clear that the irregular reflection of the light of the LED 8 in the internally illuminated light box becomes extremely uniform, and uneven illumination can be effectively suppressed. ing.
FIG. 6 is a schematic diagram of the internally-illuminated light box 1. In the first embodiment, one end of the diagonal 52 (the corner 48c of the side reflecting portions 48A and 48B) is the point P1, and the other end P2 of the diagonal 52 is shown. The point between the one end point P1 and the other end point P2 is the intermediate point P, and the case where the set point 53 is provided between the intermediate point P and the one end point P1 is schematically shown. The intermediate point P in this case is the intersection of the diagonal lines in the internally lit light box, and is the midpoint of the diagonal line 52.

As other embodiment of the reflecting plate 6 which can suppress uneven illuminance effectively, the structure shown to FIGS. 7-9 (a), (b) may be sufficient. In each figure, (a) is a front view, and (b) is a side view as seen so that the corner of the side reflecting portion is on the right side.
FIG. 7 shows a second embodiment, in which the reflecting plate 6 has a bottom reflecting portion 47 along the diagonal line 52 and a valley fold shape in which a cross section perpendicular to the diagonal line 52 is inclined downward toward the diagonal line 52, and the other end point P2. It is set as the structure made to incline downward toward the one end point P1 side from the side.
FIG. 8 shows a third embodiment, and the reflecting plate 6 is configured such that all inner surfaces of the bottom reflecting portion 47 are inclined with a uniform gradient from the one end point P1 side to the other end point P2 side.
FIG. 9 shows a fourth embodiment, and the reflecting plate 6 is configured such that all inner surfaces of the bottom reflecting portion 47 are inclined with a uniform gradient from the other end point P2 side toward the one end point P1 side. Since the configuration other than the reflector 6 is the same as that of the embodiment shown in FIGS. 1 to 5, the description thereof is omitted. Even in the internally illuminated light box using the reflector 6 having the above-described configuration, it is possible to effectively suppress illuminance unevenness.

FIGS. 10A and 10B and FIGS. 11A and 11B show an internally illuminated light box (reflecting plate) as a comparative example. In each figure, (a) is a front view, and (b) is a side view as seen so that the corner of the side reflecting portion is on the right side.
FIG. 10 shows Comparative Example 1, which is configured to be parallel to the light diffusing surface 37 without inclining the entire inner surface of the bottom reflecting portion 47 in any direction.
FIG. 11 shows a comparative example 2, which has a bottom reflecting portion 47 along the diagonal line 52 in a mountain-fold shape in which a cross section perpendicular to the diagonal line 52 is inclined upward toward the diagonal line 52, and is at one end point P1 from the other end point P2 side. It is configured to incline downward toward the side.
In the embodiment shown in FIGS. 7 to 9, the configuration other than the reflector 6 is the same as that of the first embodiment shown in FIGS. Also in the comparative examples of FIGS. 10 and 11, the configuration other than the reflector 6 is the same as that of the first embodiment.
Here, [Table 1] below shows a result obtained by measuring the illuminance (lx: lux) of the internally illuminated light box and calculating the illuminance unevenness.

Here, the illuminance measurement method in the illuminance measurement experiment will be described.
In a dark room with an illuminance of 0 lux in an environment of room temperature 20 ° C and humidity 60% HR, after the LED 8 is turned on for a predetermined time (in this case, only 1 hour), a plurality of illuminance measurements at predetermined positions on the front plate 5 are measured. The illuminance at a predetermined position was measured by directly applying an illuminance meter to the point.
Here, the predetermined positions are 25 points equally divided in the vertical and horizontal directions from the intermediate point P on the diagonal line 52, and the distance between each point is 2Z, from the outer point to the frame body part 10. The distance is set to be half of 2Z (Z).
Further, the illuminance unevenness is a result of subtracting the minimum value from the maximum illuminance value at the 25 points, which is an indicator of light brightness.

  With reference to the above [Table 1], it can be seen that in the first to fourth embodiments, the illuminance unevenness is suppressed to be lower than that in Comparative Example 1 and Comparative Example 2. In particular, as in the first embodiment, due to the presence of the inclined surface portion (inclined surface) 51, and the set point 53 of the inclined surface portion 51 is positioned closer to the first frame body portion 10A on the diagonal line 52, the LED 8 is entirely As a result, it becomes clear that the irregular reflection of the light of the LED 8 in the internally illuminated light box becomes extremely uniform, and uneven illumination can be effectively suppressed. ing.

  From the above [Table 1], in the internally illuminated light box 1 according to the present embodiment, the slope portion (inclined surface) 51 is provided, and the set point 53 of the slope portion 51 is closer to the first frame body portion 10A on the diagonal line 52. The LED 8 is arranged in an L-shape when viewed from the front, and the irregular reflection of the light of the LED 8 in the internally illuminated light box becomes extremely uniform, compared with the comparative example. Thus, it has become clear that unevenness in illuminance can be effectively suppressed. That is, even if the average of the illuminance is not small, it can be seen that the value of the illuminance unevenness is “1510”, which is the smallest.

As described above, the internally illuminated light box 1 according to the embodiment of the present application can provide a user with a light with a stable and comfortable illuminance.
Furthermore, as a configuration that effectively suppresses uneven illuminance, the light of the LEDs 8 in the bottom reflecting portion 47 that is the main reflecting portion is likely to be concentrated by positioning the set point 53 closer to the first frame body portion 10A on the diagonal line 52. The presence of the fourth inclined surface 55D having a larger area than the first inclined surface 55A at the position is considered to be a configuration that can diffuse the light of the LED 8 more evenly. For example, the set point 53 is a position on the one end point P1 side of the position obtained by dividing the one end point P1 and the other end point P2 into approximately three equal parts.

Single-piece | unit perspective view in the state which removed the front plate body of the internally-illuminated light box which shows 1st embodiment of this invention Similarly, (a) and (b) are a front view and a side view of the reflector, respectively. Similarly back view Sectional drawing which shows the whole structure of an internal illumination type light box similarly Front view of the wiring board to which the LED is also mounted Similarly, schematic diagram of internally illuminated light box It is a schematic diagram of the internal illumination type light box of 2nd embodiment of this invention, (a) is a front view, (b) is the side view seen so that the corner part of a side part reflection part may turn into the right side It is a schematic diagram of the internally-illuminated light box of 3rd embodiment of this invention, (a) is a front view, (b) is the side view seen so that the corner part of a side part reflection part may turn to the right side It is a schematic diagram of the internally-illuminated light box of the fourth embodiment of the present invention, where (a) is a front view, and (b) is a side view as seen with the corner portion of the side reflecting portion on the right side. It is a schematic diagram of the internal illumination type light box of the comparative example 1, (a) is a front view, (b) is the side view seen so that the corner part of a side part reflection part may turn to the right side It is a schematic diagram of the internal illumination type light box of the comparative example 2, (a) is a front view, (b) is the side view seen so that the corner part of a side part reflection part may turn to the right side

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Internal illumination type light box, 3 ... Box main body, 5 ... Front plate body, 6 ... Reflecting plate, 7 ... Wiring board, 7a ... Wiring, 8 ... LED, 10 ... Frame body part, 10A ... First frame body part DESCRIPTION OF SYMBOLS 10B ... 2nd frame part, 11 ... Main body bottom part, 12 ... Lid surface, 13 ... Outer rear part, 14 ... Inner rear part, 40A, 40B, 40C, 40D ... Bottom part structural plate member, 41, 42 ... Vertical angle part 45 ... covering part, 46 ... overlapping part, 47 ... bottom reflecting part, 48 ... side reflecting part, 48A, 48B ... side reflecting part, 50A, 50B, 50C, 50D ... planar part, 51 ... slope part, 52 ... Diagonal line, 53 ... Aggregation point, 54 ... Inner surface, 55A ... First inclined surface, 55B ... Second inclined surface, 55C ... Third inclined surface, 55D ... Fourth inclined surface, 56 ... Triangular portion, 60 ... Expanded portion , P: intermediate point, P1: one end point, P2: other end point

Claims (3)

In the internally illuminated light box provided with a plurality of LEDs and a reflecting plate that reflects the light of the LEDs inside the box body whose front surface is open, and the front opening of the box body is covered with a light diffusion plate,
The reflection plate is configured as a reflection tray formed in a tray shape having a bottom portion and a side wall portion rising from the bottom portion by sheet molding, and the reflection tray is arranged in the box body so that the inner surface of the bottom portion faces frontward. And the LED is disposed inside the side wall of the reflection tray.   The box body is rectangular in front view, and the reflection tray is also rectangular in front view corresponding to the shape of the box body, and the LED is placed inside two adjacent side walls of the four side walls of the reflection tray. The internally illuminated light box according to claim 1, wherein the interior light box is arranged with a space therebetween so as to form an L-shaped array as a whole when viewed from the front.   An inclined surface inclined with respect to the light diffusing plate is formed at the bottom of the reflection tray, and the inclined surface in a direction perpendicular to the diagonal line with the corner of the reflection tray corresponding to the corner of the L-shaped array of LEDs as one end. 3. The internally illuminated light box according to claim 2, wherein the cross section is inclined downwardly toward the diagonal line or flat toward the diagonal line.

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