JP2009266636A - Lighting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To alleviate a thermal influence of a light emitting diode, and to uniform luminance diffusion in a light diffusion member. <P>SOLUTION: This lighting system is constituted in such a manner that the light diffusion member 17 with a periphery covered with a mask member and a light reflecting member 5 are arranged on the front surface side and the back surface side of a light guide plate 6, respectively; light source units 8 are arranged on respective end faces 6c of the light guide plate, and are housed in a housing 1. The light source unit is composed of a box-shaped case 9 having a light reflecting property on the inner surface, and has an opening on a part facing the end face of the light guide plate, and a plurality of light emitting diodes 16 arranged on the bottom face 10 of the case to face the end face of the light guide plate. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an improvement in a lighting device applied to a system / device for performing visual inspection of a product by processing image data from, for example, a CCD (Charge Coupled Device), or general illumination.

In general, in order to inspect the appearance of a product, for example, to inspect whether or not an undesired protrusion or chipping is present in the outer shape of the product, a lighting device is used to capture product silhouette information.
For example, when performing an appearance inspection of a product, the product to be inspected is irradiated with light from an illumination device, a silhouette of the product to be inspected is photographed with a CCD camera, and the image data is compared with reference data. It is inspected whether or not the outer shape of each is appropriate.

As an illuminating device applied to such a use, the illuminating device of the structure shown, for example in FIGS. 9-12 has been proposed (refer to Immac Corporation's 2007 LED lighting general catalog).
This illumination device will be specifically described with reference to FIGS. In the figure, H is a metal housing having a rectangular accommodating portion Ha, and a rectangular light guide plate L made of, for example, an acrylic plate is accommodated in the accommodating portion Ha. A light diffusing plate DB is disposed on the front surface side (light emission side) La of the light guide plate L, and a sheet-like light reflecting member R is disposed on the back surface side Lb. A plurality of recesses D are formed at almost equal intervals on each end face Lc of the light guide plate L, and the light emitting diodes LED are inserted and supported in these recesses D. These light emitting diodes LED are connected in series via a protective resistor, for example, with 3 to 4 LEDs as one group, and each group is connected in parallel to a DC power supply (Vcc). . Note that the number of connected light emitting diodes LED is appropriately determined depending on the forward voltage Vf and the like. Further, a mask member M made of a light-impermeable member is arranged on the surface side of the light diffusion plate DB so that an opening Ma is formed in the center portion.

Next, a method for inspecting the appearance of a product to be inspected by the lighting device will be described. First, when the lighting device is turned on, the light from the light emitting diode LED is incident on and diffused from the front surface La of the light guide plate L to the light diffusion plate DB, and is emitted to the outside from the opening Ma. In this state, the product to be inspected is set in the central portion (the central portion of the opening Ma) of the light diffusing plate DB in the lighting device. Next, a silhouette of the product to be inspected is photographed by a CCD camera (not shown) disposed above the illumination device. The photographed image data is taken into a personal computer and compared with reference data built in in advance, and it is determined (inspected) whether or not the appearance is appropriate. Only the product to be inspected determined to be appropriate is transferred to the next process.
Immac's 2007 LED lighting general catalog

By the way, this illuminating device exhibits a luminance distribution characteristic indicated by a dotted line A in FIG. 8 (details will be described later). That is, the luminance distribution of the light diffusion plate DB exposed from the mask member M has a high luminance near the mask member M and a low luminance toward the central portion. For this reason, when visual inspection of a product to be inspected is performed, not only the inspection accuracy such as protrusions and chips on the edge of the product to be inspected is impaired, but also the inspection accuracy depends on the set position of the product to be inspected on the light diffusion plate DB There is a problem that variations occur.
Further, in the above-described lighting device, since the light emitting diode LED is embedded in the concave portion D formed on the end face Lc of the light guide plate L, heat generated from the light emitting diode LED during the operation spreads into the concave portion D, and the light emitting diode. The LED will undesirably rise in temperature, and not only the light emitting diode itself but also the light guide plate L will be thermally affected. That is, the light emitting diode LED is disturbed in light emission characteristics and life characteristics due to an undesired temperature rise. In order to avoid such an inconvenience, the forward current may be reduced. However, there is a problem that the reliability of the inspection accuracy is impaired due to the extremely low brightness. On the other hand, with respect to the light guide plate L, the yellowing phenomenon that turns yellow itself is accelerated, and there is also a problem that the light guide property is impaired.
In addition, of the light emitted from the light-emitting diode LED, a part of the light component along the optical axis leaks out of the light guide plate from the opposite end surface of the light guide plate, so that the amount of light incident on the light diffusion plate DB is small. As a result, the luminance level also decreases, and the reliability of the inspection accuracy is impaired.

In order to solve such a problem, a lighting device shown in FIG. 13 has been proposed. This illuminating device is configured by arranging a plurality of light emitting diodes LED so as to face the end face Lc of the light guide plate L.
According to this configuration, since the light emitting diode LED is not embedded in the end face Lc of the light guide plate L, the thermal influence is greatly reduced, and the above-described problems can be solved.
However, as shown in FIG. 13, a non-light emitting region P is formed at the end of the light guide plate L, and uneven brightness occurs at the end of the light guide plate, which makes it impossible to accurately inspect the appearance. Have a problem.
Therefore, an object of the present invention is to provide an illuminating device that can alleviate the thermal influence of a light-emitting diode and can homogenize a luminance distribution in a light diffusing member.

  Therefore, in order to achieve the above-mentioned object, the present invention provides a polygonal light guide plate, a light reflecting member disposed on the back side (non-light emitting side) of the light guide plate, and an end face on each side of the light guide plate. A light source unit disposed so as to face each other, a housing for housing the light guide plate and the light source unit, and a light diffusing member disposed so that at least a surface side (light emission side) of the light guide plate is covered with an opening portion of the housing The light source unit includes: a box-shaped case having at least an inner surface formed to be light-reflective and having an opening formed in a portion facing the end surface of the light guide plate; and a light guide plate on a bottom surface portion of the case. And a plurality of light emitting diodes arranged so as to face the end face.

  The second aspect of the present invention is such that the polygonal light guide plate, the light reflecting member disposed on the back surface side (non-light emitting side) of the light guide plate, and the end face on each side of the light guide plate are opposed to each other. A light source unit disposed in the housing, a light guide plate and a housing that houses the light source unit, and a light diffusion member disposed so that at least a surface side (light emission side) of the light guide plate is covered with an opening of the housing. The light source unit has at least an inner surface that is light-reflective and has an opening formed in a portion facing the end surface of the light guide plate, and a protrusion that slightly overlaps the surface side of the light guide plate. It is comprised from the box-shaped case formed integrally, and the several light emitting diode arrange | positioned so that the bottom face part of a case may face the end surface of a light-guide plate, It is characterized by the above-mentioned.

  The third invention of the present invention is characterized in that a light-reflecting dot pattern is formed on the back side of the light guide plate, and the fourth invention is an outer peripheral portion on the surface side of the light diffusing member. In the light source unit according to the fifth aspect of the present invention, the light emitting diodes are individually inserted and arranged in a plurality of holes formed in the bottom surface of the case. It is characterized by being.

  Furthermore, the sixth invention of the present invention is characterized in that an attachment portion is formed at the bottom of the corner portion of the housing, and the light diffusion member is fixed using the attachment portion.

  As described above, according to the present invention, the light source unit includes a box-shaped case in which at least the inner surface is formed to be light-reflective and an opening is formed in a portion facing the end surface of the light guide plate, and a bottom surface portion of the case. The light source unit includes a plurality of light emitting diodes arranged to face the end face of the light guide plate, and the light source unit is arranged to face each end face of the light guide plate. Is not embedded in the light guide plate, but is placed in a case separated from the light guide plate, so that it can be operated at an appropriate temperature without inconvenience that the temperature of the light emitting diode undesirably rises during operation. . Therefore, it is possible to minimize the influence on the light emission characteristics and the life characteristics.

In addition, since a reflection layer is formed on the inner surface of the case in the light source unit and a light reflecting member is disposed on the back side of the light guide plate, the light emitted from the light emitting diode is reflected on the reflection layer on the inner surface of the case. The light that is reflected by or directly enters the light guide plate and further leaks from the back side of the light guide plate to the outside of the light guide plate is reflected by the light reflecting member and returned to the light guide plate again. Therefore, the light emitted from the light emitting diode is effectively incident on the light guide plate, so that the amount of light on the surface side of the light guide plate can be increased, the luminance level at the light diffusion member is increased, and the luminance distribution is made uniform. be able to. In particular, if a light-reflecting dot pattern is formed on the back side of the light guide plate, the amount of light on the front side of the light guide plate can be increased, and the uniformity of the luminance distribution in the light diffusing member can be further improved.
In addition, since the bottom surface portion (light emitting diode placement portion) of the case is configured to be light-reflective like the other portions, the light guide plate emits light along the optical axis from the light emitting diode of the opposing light source unit. Even if the light is incident on the bottom surface portion of the case, the amount of light on the front surface side of the light guide plate can be increased as a result of being reflected again by the bottom surface portion and returned to the light guide plate.

Further, since the mask member made of a light-impermeable member is arranged in the peripheral portion on the surface side of the light diffusing member so that the opening is formed in the central portion, the luminance level is near the mask member. Undesirably high can be suppressed.
In particular, in the case of the light source unit, if a protruding portion that slightly overlaps the surface portion of the light guide plate is integrally formed on the side surface portion on the light diffusing member side, the luminance level is increased in the vicinity of the mask member. Undesirably high can be suppressed, and the luminance distribution in the light diffusing member can be homogenized in combination with the above-described configuration.

Furthermore, in the light source unit, if the light emitting diode is configured to be inserted and supported in the hole formed in the bottom surface of the case, the light source unit can be assembled efficiently.
Further, if a mounting portion having a screw hole for fixing the light diffusing member is formed at the bottom of the corner portion of the housing, the light diffusing member can be easily attached to the housing using the mounting portion. , Can improve the assembly. In particular, since the attachment portion is provided in a space portion where the light guide plate and the light source unit are not arranged, unnecessary space can be used effectively and it is not necessary to prepare a space portion for providing the attachment portion.

Next, an embodiment of the device of the present invention will be described with reference to FIGS. In the figure, reference numeral 1 denotes a housing made of a metal member such as aluminum or copper, for example, which is formed by integrating a square-shaped accommodation portion 2 with a bottom plate, for example, and has an opening in an upper portion of the accommodation portion 2. Part 3 is formed. A mounting portion 4 for mounting a light diffusing member to be described later is formed at a corner portion (a space portion sandwiched between end portions of the light source unit to be described later) in the bottom surface portion of the housing portion 2. For example, the mounting portion 4 is formed by providing a screw hole 4a or the like in a portion where the bottom surface portion is extruded, but is not limited to this configuration.
In the housing portion 2 of the housing 1, a light guide plate 6 and a plurality of light source units 8 are housed. The light guide plate 6 is made of, for example, acrylic resin, and has a polygonal shape, preferably a rectangular shape. The light guide plate 6 is accommodated in the accommodating portion 2 such that the front surface side 6a is on the opening 3 side and the back surface side 6b is on the bottom surface side of the accommodating portion. A light-reflecting dot pattern 7 is formed on the back surface side 6b of the light guide plate 6, and further, for example, a metal, a resin material, paper, or the like is formed between the back surface side 6b and the housing bottom surface side. The sheet-like light reflecting member 5 is disposed so as to be in close contact with the back surface side 6b.

The light source unit 8 is disposed on each end face 6c of the light guide plate 6 so as to face the end face 6c. The light source unit 8 includes, for example, a box-shaped case 9 having at least an inner surface made light-reflective, and a plurality of light-emitting diodes 16 disposed on the bottom surface of the case 9 so as to face the end surface 6c of the light guide plate 6. It consists of and. In the light source unit 8, the case 9 includes a bottom surface portion 10, a first side surface portion 11 that extends integrally from each side of the bottom surface portion 10, and a second side surface portion, as shown in the development view of FIG. 4. 12, a third side surface portion 13, a fourth side surface portion 14, and a plurality of holes 15 formed in the bottom surface portion 10 at substantially equal intervals. In addition, the flap parts 13a, 13b, 14a, and 14b are formed in the edge part of the 1st, 2nd side part 11 and 12 via the notches 11a and 12a.
The case 9 is assembled as follows. First, the side portions 11, 12, 13, and 14 are bent substantially perpendicularly in the same direction from the crease line indicated by the dotted line in FIG. Next, the flap portions 13a and 14a are overlapped on the outer surface portions of both end portions of the second side surface portion 12, and the flap portions 13b and 14b are overlapped on the outer surface portions of both end portions of the first side surface portion 11, respectively. The case 9 is completed by fixing with. A light emitting diode 16 is inserted and disposed in the hole 15 in the bottom surface portion 10 of the case 9. Note that an opening is formed in a portion where the case 9 faces the end surface 6 c of the light guide plate 6, and the light from the light emitting diode 16 is efficiently incident on the light guide plate 6.

  A light diffusing member 17 is disposed above the light guide plate 6 and the light source unit 8 (on the front surface side 6 a and the side surface portion 12 side) so as to cover the light guide plate 6 and the light source unit 8. On the surface side 17a of the light diffusing member 17, a mask member 18 made of an opaque material is disposed so that an opening 18a having a desired size is formed in the central portion. Further, a light reflecting member 19 is disposed on the back surface side 18b of the portion substantially corresponding to the mask member 18. The light reflecting member 19 may be omitted depending on circumstances.

Next, the 2nd Example of the illuminating device concerning this invention is described with reference to FIGS. The basic configuration of this embodiment is the same as that of the embodiment shown in FIGS. 1 to 5, and the difference is that the light guide plate 6 is in the assembled state on the second side surface portion 12 of the case 9 in the light source unit 8. That is, the protruding portion 12A that is slightly overlapped on the front surface side 6a is integrally formed, and the light reflecting member on the back surface side of the light diffusing member 17 is omitted.
According to this embodiment, since the protruding portion 12A is disposed on the outer peripheral portion of the end portion of the light guide plate 6, the luminance distribution of the light diffusing member 17 caused by light leakage from the edge portion of the light guide plate 6 is uniformed. It can be further improved.

Next, the inventors performed comparative measurements on the luminance distribution characteristics of the light diffusing member using the illumination device according to the present invention shown in FIG. 6 and the conventional illumination device shown in FIG. The light guide plate was a rectangular acrylic plate with a side length of 62 mm. The length of one side of the opening 18a (Ma) of the mask member 18 (M) disposed on the light diffusion member 17 (DB) is set to 50 mm. In addition, the light emitting diodes arranged on each side (end face side) of the light guide plate are twelve with a forward voltage Vf of 3.6 V, and three of each are connected in series through a protective resistor as a group, Each group was connected in parallel to a 12V DC power source.
30 minutes after the operation started, the luminance distribution in the opening 18a (Ma) of the light diffusing member 18 (M) was measured, and the result shown in FIG. 8 was obtained. In the figure, the dotted line indicates the luminance distribution characteristic of the conventional apparatus, and the solid line indicates the luminance distribution characteristic of the present invention apparatus.
As is clear from the figure, in the device of the present invention, the luminance distribution of the opening of the light diffusing member is homogenized, whereas in the conventional device, the luminance level in the portion of the opening close to the mask member is high, The central portion is low, and the overall luminance distribution is uneven. Further, the brightness level of the central portion in the opening of the light diffusing member is approximately 10% higher in the device of the present invention than in the conventional device.
When the appearance inspection of the product to be inspected was performed using these devices, the device of the present invention had a clear silhouette of the product to be inspected and was able to perform a highly reliable inspection. On the other hand, since the luminance distribution is not uniform in the conventional apparatus, the inspection accuracy is lower than that of the apparatus of the present invention.

  It should be noted that the present invention is not limited to the above-described embodiments, and can be appropriately changed without departing from the gist of the present invention. For example, the light guide plate is formed in a square shape, but may be formed in an appropriate shape such as a pentagonal shape depending on the application. In the light source unit, the case may be formed of a sheet-like member such as a resin material or paper, or may be formed by spraying a reflective layer on the inner surface by vapor deposition or the like using a metal member.

It is a sectional side view which shows the 1st Example of this invention. It is a top view of FIG. It is a top view of the state which removed the light-diffusion member of FIG. It is an expanded view of the case in the light source unit concerning this invention. It is a sectional side view which shows the decomposition | disassembly state of this invention apparatus. It is principal part sectional drawing which shows the 2nd Example of this invention. It is an expanded view of the case in FIG. It is a figure which shows the luminance distribution characteristic in a light-diffusion member. It is a sectional side view of the conventional illuminating device. FIG. 10 is a plan view of FIG. 9. FIG. 10 is a plan view of a state where the light diffusing member of FIG. 9 is removed. It is an expanded sectional view of the state which decomposed | disassembled the principal part of FIG. It is a principal part top view of the other conventional illuminating device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Housing 2 Accommodating part 3 Opening part 4 Mounting part 5 Light reflection member 6 Light guide plate 6a Front side 6b Back side 6c End face 7 Dot pattern 8 Light source unit 9 Case 10 Bottom part 11 First side part 12 Second side part 12A Projection 15 Hole 16 Light-emitting diode 17 Light diffusion member 18 Mask member 18a Opening

Claims (6)

  A polygonal light guide plate, a light reflecting member arranged on the back side (non-light emitting side) of the light guide plate, a light source unit arranged to face the end face of each side of the light guide plate, a light guide plate, A housing that houses the light source unit; and a light diffusing member that is disposed so that at least a surface side (light emission side) of the light guide plate is covered at an opening of the housing. A box-shaped case formed in a reflective manner and having an opening formed in a portion facing the end surface of the light guide plate, and a plurality of light emitting diodes disposed on the bottom surface of the case so as to face the end surface of the light guide plate A lighting device comprising:   A polygonal light guide plate, a light reflecting member arranged on the back side (non-light emitting side) of the light guide plate, a light source unit arranged to face the end face of each side of the light guide plate, a light guide plate, A housing that houses the light source unit; and a light diffusing member that is disposed so that at least a surface side (light emission side) of the light guide plate is covered at an opening of the housing. A box-like case that is formed to be reflective and has an opening formed in a portion facing the end face of the light guide plate, and a protrusion that is slightly overlapped on the surface side of the light guide plate; An illuminating device comprising: a plurality of light emitting diodes disposed on a bottom surface of the case so as to face an end surface of the light guide plate.   The lighting device according to claim 1, wherein a light-reflecting dot pattern is formed on a back surface side of the light guide plate.   The illuminating device according to claim 1, wherein a mask member made of a light-impermeable member is disposed on the outer peripheral portion on the surface side of the light diffusion member.   3. The lighting device according to claim 1, wherein in the light source unit, the light emitting diodes are individually inserted and arranged in a plurality of holes formed in a bottom surface portion of the case. The lighting device according to claim 1, wherein an attachment portion is formed at a bottom portion of a corner portion of the housing, and the light diffusion member is fixed using the attachment portion.