JP2979521B2 - Illumination light transmission jig - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an illumination device in an image processing system, and more particularly to simplification and uniform illumination of the illumination device.

[0002]

2. Description of the Related Art In recent years, in an inspection system or the like, an inspection is often performed by photographing an object to be inspected on a camera and processing an image thereof. In this case, if the inspection target is a minute object such as an electronic component, the inspection is performed by performing processing such as enlarging the obtained image. In general, illumination of a subject is an important factor in photographing with a camera. However, in the case of an electronic component or the like that requires inspection of a fine portion, the illumination has a particularly large effect on an image.

[0003] There are various illumination methods as described above, as shown in FIG. FIG. 6A shows a method of illuminating a subject 10 with one or more incandescent lamps 4 provided around the camera 2 by a spot illumination method. FIG. 6B shows a ring illumination method in which a lighting device 4 such as a fluorescent lamp is provided in a ring shape to uniformly illuminate the subject 10. FIG. 6C shows a coaxial epi-illumination method in which illumination by a distal end portion of an optical fiber 6 or the like is reflected by a reflection plate 8.

As described above, conventionally, illumination in an image processing apparatus has been performed.

[0005]

However, the illumination in the conventional image processing apparatus has the following problems.

As described above, in the ring illumination method, uniform illumination by the same light source is possible, which is optimal as illumination in an image processing apparatus. In some cases, it is difficult to use the device, and there is also a problem in terms of cost.

[0007] In the spot illumination method and the coaxial epi-illumination method, when the subject is illuminated, the illumination is affected by the gloss of the surface due to the variation of the reflection angle due to the difference in the direction and the distance. However, there is a problem that a shadow is generated on the image and a good image cannot be obtained.

An object of the present invention is to solve the above-mentioned problem and to provide an illumination light transmitting jig capable of easily and uniformly illuminating.

[0009]

According to a first aspect of the present invention, there is provided an illumination light transmitting jig comprising: a transmitting path for transmitting light; a light emitting portion for emitting light; a light refractive index conversion surface provided on an outer periphery of the light emitting portion; It is formed surrounding the refractive index conversion surface and receives light from the transmission path.
Te, light reflection portion to be emitted from the light refractive index conversion surface, reflecting surface provided on the outer periphery of the light reflecting portion, not comprising the
You.

According to a second aspect of the present invention, there is provided an illumination light transmitting jig provided on a housing having an incident surface, a transmission path for transmitting light incident from the incident surface, a light emitting portion for emitting light, and an outer periphery of the light emitting portion. Light-refractive-index conversion surface, formed around the light-refractive-index conversion surface , receiving light from the transmission path and emitting from the light-refractive-index conversion surface
And a reflecting surface provided on the outer periphery of the light reflecting portion.

A pudding having the illumination light transmitting jig according to claim 3.
In the board inspection jig, the illumination light transmission jig is
It is provided on the main body of the inspection jig and transmits light.
Path, a light emitting part that emits light, formed as a hole
Light emitting part, light refractive index conversion provided on the outer periphery of the light emitting part
Surface, the light refractive index conversion surface
A light reflecting portion that receives the light and emits it from the light refractive index conversion surface,
A reflecting surface provided on the outer periphery of the light reflecting portion;
On the printed circuit board to be inspected by the light from the holes
Irradiate the positioning mark of
Image of the positioning mark
Align the main body of the board inspection jig with the printed circuit board
Is characterized by

[0012]

In the illumination light transmitting jig of the first aspect, the light transmitted through the transmission path is reflected by the reflection surface of the light reflecting portion to confine the light, and the confined light is converted into a light refractive index of the light emitting portion. The light is refracted by the surface and emitted. Therefore, uniform illumination can be obtained around the light emitting portion.

In the illumination light transmitting jig of the present invention, the light taken out from the incident surface of the housing and transmitted through the transmission path is reflected by the reflecting surface of the light reflecting portion to confine the light, and the confined light is confined. The light is refracted and emitted by the light refractive index conversion surface of the light emitting portion. Therefore, even when the housing is opaque, uniform illumination can be obtained around the light emitting portion.

In the printed circuit board inspection apparatus according to the third aspect, the illumination light transmitting jig is attached to the main body of the printed circuit board inspection jig.
Is provided. Therefore, uniform illumination can be obtained in the inspection of the printed circuit board.

[0015]

FIG. 1 shows the configuration of an illumination light transmitting jig 20 according to an embodiment of the present invention. This illumination light transmission jig 20
An illumination light transmission jig main body 5 and an optical fiber cable 7 as a transmission path are provided.

As the illumination light transmitting jig main body 5, for example, a cylindrical light reflecting portion 35 having a hole 28 serving as a light emitting portion penetrating therethrough is used. A material that is transparent and easily processed, for example, an acrylic body, is used for the light reflecting portion 35. Therefore, an outer peripheral surface 29 of the hole is formed between the hole 28 and the light reflecting portion 35, and the refractive index of light is different at the outer peripheral surface (boundary surface between air and acrylic) 29 of the hole (here, the refractive index of the hole). The outer peripheral surface 29 is called a light refractive index conversion surface). Further, the outer periphery of the light reflecting portion 35 forms a reflecting surface 36, and in this example, the aluminum tape 26 is attached. This aluminum tape 26
With respect to the above, other tapes may be used as long as they have a good light reflectance, or a tape coated with a paint having a good reflectance may be used.

In this embodiment, the aluminum tape 26 is provided only on the outer peripheral surface of the light reflecting portion 35. However, the aluminum tape 26 is provided on the upper surface and the lower surface of the light reflecting portion 35 excluding the hole 28. Is also good.

The illumination light transmitting jig 20 is provided with an entrance port 24, into which light emitted from a light source 30 is incident.
The optical fiber cable 7 serving as a transmission path is provided at the entrance 24.
Are connected at one end. The other end of the optical fiber cable 7 is connected to the light reflecting section 35. Therefore, the light source 30
Is transmitted to the light reflecting portion 35.

A camera 32 is arranged above the illumination light transmitting jig main body 5, and a subject 34 is arranged below the same. Hereinafter, the operation of the illumination light transmission jig 20 will be described in detail.

First, the light from the light source 30 is applied to the illumination light transmitting jig 20.
Of the illumination light transmitting jig main body 5 via the optical fiber cable 7 from the entrance 24 of the illumination light transmitting jig. The incident light beam is reflected by the reflection surface 36 to which the aluminum tape 26 is attached, as shown in FIG. For example, the incident light beam _RA is first reflected by the reflecting surface 36 as R _A1, and then R _A2 , R _A3 , R _A4 , R _A5 ,. Will also be reflected. Similarly,
Incident ray R _B and the illumination light transmitted also for such R _C jig body 5
Will be reflected many times inside.

As described above, the innumerable light entering the illumination light transmitting jig main body 5 is confined in the illumination light transmitting jig main body 5 as shown in FIG. That is, uniform light exists everywhere in the illumination light transmission jig main body 5. In this state, if the outer peripheral surface (light refractive index conversion surface) 29 of the hole 28 is provided, the confined light beam is refracted by the outer peripheral surface (light refractive index conversion surface) 29 of the hole 28 and It will leak out. This ray
Since the light is uniform light confined in the illumination light transmitting jig main body 5, the light uniformly leaks from the entire circumference of the hole 28. Therefore, in the hole 28, uniform illumination similar to illumination in ring illumination was obtained.

Under the illumination thus obtained, a subject 34 can be photographed by the camera 32 above the hole 28 in FIG. 1 to obtain a shadowless image. in this way,
With this illumination light transmission jig 20, uniform illumination can be easily obtained.

Since the hole 28 can be provided at an arbitrary position in the illumination light transmitting jig 20, the hole can be formed at an arbitrary position and an image can be taken by the camera 32. The jig 20 may be an opaque material.

Further, uniform illumination may be obtained by moving the illumination light transmitting jig body 5 itself with the movement of the camera 32.

FIG. 4 shows the configuration of an illumination light transmitting jig 20 according to another embodiment. In this example, the plate 6 on which the subject 34 is placed
Utilizing that 0 is transparent, the illumination light transmission jig 20 is installed on the lower surface of the plate 60. By illuminating the lower surface of the subject 34, an image of the subject 34 can be obtained. As described above, it is possible to easily capture an image under uniform illumination even by the transmission illumination.

FIG. 5 shows a configuration of an illumination light transmitting jig in a printed circuit board inspection apparatus according to one embodiment of the present invention.
In this embodiment, an illumination light transmitting jig is used for a main body of a jig for inspecting a printed circuit board. Meanwhile, in the inspection of the printed circuit board, the inspection contact terminals (probes) 40 are brought into contact with the terminals 48 of the printed circuit board 50 to inspect the continuity of the circuit of the printed circuit board 50. In this case, the printed circuit board 5
The prog 40 is brought into contact with the terminal 48 with reference to the position mark 46 printed on “0”.

In this inspection apparatus, the illumination light transmitting jig is used for the probe jig 42 which is the inspection jig main body. The probe jig 42 is formed of an acrylic plate or the like, and includes the illumination light transmission jig main body 5 and the optical fiber cable 7. Further, the camera 3 is located above the light source 30 and the hole 28.
2. A positioning mark 46 printed on the printed circuit board 50 is provided below the hole 28. The camera 32 is provided with a sufficient distance (for example, about 20 mm) from the probe jig 42 so that the light of the illumination does not directly enter the lens of the camera. Are provided close enough (for example, 0 to 2 mm) so that the obtained illumination light does not diffuse.

First, light from the light source 30 is incident on the light reflecting portion 35 through the optical fiber cable 7 from the entrance 25 of the probe jig 42. Similarly, light is confined by the aluminum tape 26 adhered to the reflection surface of the light reflection section 35. Further, uniform light can be obtained around the hole 28 by the light leaked from the hole 28. Under this illumination, the positioning mark 46 is detected by the camera 32 through the hole 28 of the probe jig 42, and the position is automatically fine-tuned based on the obtained image.
0 will be touched.

This illuminating light transmission jig is used when the probe 40 is standing in a printed circuit board inspection apparatus.
This is particularly effective because it becomes more difficult to detect the position mark 46.

As described above, in the inspection of the printed circuit board, uniform illumination can be easily obtained.

In this embodiment, the light emitting portion is constituted by a hole penetrating the light emitting portion. However, the light emitting portion may be constituted by a filler having a different refractive index from that of the light reflecting portion.

In this embodiment, the illumination light transmitting jig body is cylindrical, but may be a rectangular parallelepiped, for example.

In this embodiment, the light is reflected by attaching an aluminum tape to the outer periphery of the light reflecting portion, but a material having a different light refractive index from the light reflecting portion is formed around the light reflecting portion. May be reflected.

[0034]

According to the first aspect of the present invention, there is provided an illumination light transmitting jig.
The light transmitted by the transmission path (optical fiber cable) is reflected by the reflecting surface of the light reflecting portion to confine the light, and the confined light is converted by the light refractive index conversion surface (outer peripheral surface of the hole) of the light emitting portion (hole). It is refracted and emitted. Therefore, uniform illumination can be obtained around the light emitting portion. Thereby, it is possible to provide an illumination light transmission jig capable of easily performing uniform illumination.

In the illumination light transmitting jig of the second aspect, the light taken out from the incident surface of the housing and transmitted through the transmission path is reflected by the reflecting surface of the light reflecting portion to confine the light, and the confined light is confined. The light is refracted and emitted by the light refractive index conversion surface of the light emitting portion. Therefore, even when the housing is opaque, uniform illumination can be obtained around the light emitting portion.

In the printed circuit board inspection apparatus of the third aspect, the illumination light transmitting jig is attached to the main body of the printed circuit board inspection jig.
Is provided. Therefore, uniform illumination can be obtained in the inspection of the printed circuit board.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of an illumination light transmitting jig according to an embodiment of the present invention.

FIG. 2 is a diagram showing a light reflection state in an illumination light transmission jig main body.

FIG. 3 is a diagram showing a state of uniform light confined in an illumination light transmission jig main body.

FIG. 4 is a diagram showing a configuration of an illumination light transmission jig according to another embodiment.

FIG. 5 is a diagram showing a configuration of an illumination light transmission jig in the printed circuit board inspection apparatus according to one embodiment of the present invention.

FIG. 6 is a diagram showing a configuration of a conventional lighting device.

[Explanation of symbols]

 5 Illumination light transmission jig main body 7 Optical fiber cable (transmission path) 24 Inlet 26 Aluminum tape 28 Hole (light emitting portion) 29 Outer peripheral surface of hole (Light Refractive Index Conversion Surface) 30 ... Light Source 35 ... Light Reflector 36 ... Reflector

──────────────────────────────────────────────────続 き Continuation of front page (58) Field surveyed (Int. Cl. ⁶ , DB name) F21V 8/00 G02B 6/00 301 G02B 6/00 331 G01N 21/84

Claims (3)

(57) [Claims] 1. A transmission path for transmitting light, a light-emitting portion for emitting light, a light-refractive-index conversion surface provided on the outer periphery of the light-emitting portion, and a light-refractive-index conversion surface formed around the light-refractive-index conversion surface. An illumination light transmitting jig, comprising: a light reflecting portion that receives light and emits the light from a light refractive index conversion surface; and a reflecting surface provided on an outer periphery of the light reflecting portion. 2. A housing having an incident surface, a transmission path for transmitting light incident from the incident surface, a light emitting portion for emitting light, a light refractive index conversion surface provided on the outer periphery of the light emitting portion, and light refraction. A light reflecting portion formed around the index conversion surface and receiving light from the transmission path and emitting from the light refractive index conversion surface; and a reflecting surface provided on an outer periphery of the light reflecting portion. Illumination light transmission jig. 3. A printed circuit board inspection having an illumination light transmitting jig.
A jig, wherein the illumination light transmitting jig is attached to a main body of the printed board inspection jig.
A light transmitting portion for transmitting light, a light emitting portion for emitting light, and a light formed as a hole.
The light-emitting portion, a light-refractive-index conversion surface provided on the outer periphery of the light-emitting portion, and formed so as to surround the light-refractive-index conversion surface, and are provided with
Receiving light, the light reflecting portion that emits the optical index conversion surface, reflecting surface provided on the outer periphery of the light reflecting portion is provided with a, by the light from the hole, the printed circuit board to be inspected
By irradiating the upper positioning mark and imaging the positioning mark through the hole,
Position of the printed circuit board inspection jig body and printed circuit board.
Printed circuit board inspection and repair characterized by performing alignment
Utensils.