JP3269403B2 - Document illumination device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a document illuminating device used in an overhead projector for projecting an image of a document made of, for example, an opaque material by enlarging the image via an image sensor.

[0002]

2. Description of the Related Art Conventionally, when an image of a document made of an opaque material such as paper is projected on a screen or the like by an overhead projector, the image of the document is temporarily copied to a transparent film, and this image is copied. It has been practiced to provide a transparent film to an overhead projector. Recently, there has been proposed an overhead projector capable of directly enlarging and projecting an image of an original made of an opaque material (see Japanese Patent Application Laid-Open No. 7-36116). Is provided with an original illuminating device for illuminating the original surface of the original.

FIG. 6 is an explanatory view schematically showing the configuration of an example of an overhead projector. In this figure, reference numeral 80 denotes a document illuminating device, which is two illuminating mechanisms 81 disposed at positions symmetrical with respect to the center of the document table 84 below and below both ends of a transparent document table 84 disposed horizontally. Having. The illumination mechanism 81 is provided for the document table 8.
4 is a rod-like light source 82 arranged to extend in the longitudinal direction.
And a reflecting member 83 formed of a concave mirror that surrounds the light source 82 and reflects the light from the light source 82 toward the document table 84. Reference numeral 85 denotes a total reflection mirror that reflects light from the document 1 over the entire visible range,
Reference numeral 6 denotes an image sensor that receives light from the total reflection mirror 85 and converts the incident light into an image signal.
Is a signal processing unit that converts the image signal sent from the LCD into a liquid crystal drive signal. Further, 88 is a projection lamp, 89 is a cold mirror that reflects visible light of the light from the projection lamp 88 and transmits infrared light, and 90 is a liquid crystal drive signal from the signal processing unit 87. The driven liquid crystal panel, 91 is a total reflection mirror for reflecting light passing through the liquid crystal panel 90, 92 is a projection lens for projecting light from the total reflection mirror 91 to a screen (not shown), 9
3 is a housing.

In such an overhead projector, the two illuminating mechanisms 81 of the original illuminating device 80 illuminate the original surface of the original 1 placed on the original plate 84 so that the original 1 is reflected from the original surface. Light is incident on the image sensor 86 via the total reflection mirror 85.
In the image sensor 86, the incident light is converted into an image signal, and the image signal is sent to the signal processing unit 87.
In the signal processing section 87, the image signal sent from the image sensor 86 is converted into a liquid crystal drive signal, and the liquid crystal panel 90 is driven by the liquid crystal drive signal. On the other hand, the light in the visible range of the light emitted from the projection lamp 88 is:
It is led to the liquid crystal panel 90 by the cold mirror 89,
The light that has passed through the liquid crystal panel 90 becomes a total reflection mirror 91.
And a screen (not shown) via the projection lens 92
Thus, the image of the original surface of the original 1 is projected on the screen.

However, in the document illuminating device 80 of the above-mentioned overhead projector, high uniformity of illuminance cannot be obtained over the entire document surface of the document 1.
The problem was found. Hereinafter, a specific description will be given. FIG. 7 is a curve diagram schematically showing the illuminance distribution on the document table 84 formed by the light from the illumination mechanism 81 in the document illumination device 80. In this figure, the vertical axis represents the illuminance, and the horizontal axis represents the position of the document table 84 in the width direction (the horizontal direction in FIG. 6). A curve a is an illuminance distribution by one illumination mechanism 81 on one end side (left side in FIG. 6) of the document table 84, a curve b is an illuminance distribution by the other illumination mechanism 81 on the other end side of the document table 84, and a curve c is And the illuminance distribution by both the one illumination mechanism 81 and the other illumination mechanism 81. As is clear from the curves a and b, the illuminance of each of the one illumination mechanism 81 and the other illumination mechanism 81 decreases as the distance from the light source 82 decreases. However, since the value of the illuminance by the illumination mechanism 81 decreases in proportion to the square of the irradiation distance, the illuminance by both the one illumination mechanism 81 and the other illumination mechanism 81 is apparent from the curve c. The value at the center of the document table 84 becomes extremely lower than the value at both ends of the document table 84.

Then, as described above, the document illuminating device 80
Due to this, the original surface of the original 1 is not uniformly illuminated over the entire surface. Therefore, in an overhead projector provided with such an original illuminating device 80, sufficient gradation cannot be obtained, and the image of the original 1 is faithfully projected. It will be difficult to do.

[0007]

DISCLOSURE OF THE INVENTION The present invention has been made based on the above circumstances, and its object is to provide:
An object of the present invention is to provide a document illuminating device having high uniformity of illuminance over the entire surface of a document.

[0008]

According to the present invention, there is provided a document illuminating apparatus, comprising: a transparent platen on which a document to be illuminated is placed; A document illuminating device having two illuminating mechanisms disposed at positions symmetrical with respect to each other, wherein the illuminating mechanism includes a rod-shaped light source extending along an edge of the document table, and surrounds the light source. A reflecting member that reflects light toward the platen, the reflecting member reflecting light from the light source so that an illuminance distribution having a peak in a central region of the platen is formed. A reflecting portion for central illumination, and a reflecting portion for edge illumination that reflects light from the light source toward an end region near the light source on the document table, and the reflected light is diffused light. And

In the document illuminating apparatus according to the present invention, the central illumination reflecting portion of the reflecting member reflects the illuminance distribution such that an illuminance distribution having a peak at a position near the light source in the central region of the document table is formed. It is preferable that the illumination unit is divided into an illumination part and a distal illumination part that reflects so as to form an illuminance distribution having a peak at a position far from the light source in the central area of the document table.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a document illuminating device according to the present invention will be described in detail. FIG. 1 is an explanatory diagram illustrating a configuration of an example of a document illumination device according to the present invention. In this document illuminating device, a rectangular transparent document table 1 is disposed horizontally.
5 are positioned symmetrically with respect to the center of the document table 15 below the outer edges of both edges in the width direction (the left-right direction in the figure).
One illumination mechanism 10 is arranged.

In the illumination mechanism 10, a rod-like light source 11
Are arranged so as to extend along the edge of the document table 15, and a reflecting member 20 that reflects light from the light source 11 toward the document table 15 is disposed so as to surround the light source 11 along its axial direction. I have.

The light source 11 in this embodiment is formed of, for example, a cold cathode fluorescent lamp having an outer diameter of 2 to 6 mm. When such a light source 11 is used, as shown in FIG. 2, it is preferable to provide a protective tube 12 (shown broken) surrounding the light source 11 along its axial direction.

The reflection member 20 is located in the central area 1 of the document table 15.
6 so that an illuminance distribution having a peak at 6 is formed.
A central illumination reflector 21 for reflecting light from the light source 1;
An end illumination reflector 25 that reflects the light from 1 toward the end area 17 near the light source 11 on the document table 15, and these are held by a holding member 26.

The central illumination reflector 21 of the reflector 20 is
A partially illuminated proximal illumination portion 22 that reflects so as to form an illuminance distribution having a peak at a position near the light source 11 in the central area 16 of the document table 15; The illumination light is divided into a partially elliptical distal illumination portion 23 which reflects so as to form an illuminance distribution having a peak at a position distant from. Specifically, the upper part of the central illumination reflector 21 is a proximal illumination part 22, and the lower part of the central illumination reflector 21 is a distal illumination part 23. And are provided integrally. In this way, the upper part of the central illumination reflector 21 is the proximal illumination part 22,
By making the lower portion a distal illumination portion 23, the angle of incidence of each reflected light on the document table 15 is reduced, that is, each reflected light is incident on the document table 15 at an angle close to a right angle. As a result, the ratio of sacrificed light reflected by the document table 15 is reduced, which is preferable. Further, the peak value of the illuminance distribution formed by the proximal illumination reflecting portion 22 is equal to the distal illumination portion 23.
Is set to be larger than the peak value of the illuminance distribution formed by

The proximal illumination portion 22 and the distal illumination portion 23 in the central illumination reflector 21 of the reflection member 20 include:
Each surface is made of mirror-finished aluminum. Also, the end illumination reflector 2 of the reflector 20.
The light reflected by 5 is diffused light, and specifically, the end illumination reflector 25 is formed of a white sheet or the like.

Proximal illumination part 2 of central illumination reflector 21
2 and the distal illumination portion 23, and the curvature of each of the reflection surfaces of the end illumination reflector 25,
0, the light source 11 and the document table 15 are appropriately set in consideration of the specific positional relationship, dimensions, and the like.

In the above-described document illumination device, the light source 11
The direct light from the light source and the reflected light from the reflection member 20 irradiate the lower surface of the transparent platen 15, whereby the platen 15
The original surface of the original 1 placed above is illuminated.

FIG. 3 is a curve diagram schematically showing an illuminance distribution on the document table 15 formed by one illumination mechanism 10 on one end side of the document table 15 in the document illumination apparatus shown in FIG. In this figure, the vertical axis indicates illuminance, and the horizontal axis indicates the position of the document table 15 in the width direction. Curve d
Is the illuminance distribution by the direct light from the light source 11, and the curve e is
The illuminance distribution by the reflected light from the proximal illumination portion 22 of the central illumination reflector 21, the curve f is the illuminance distribution by the distal illumination portion 23 of the central illumination reflector 21, and the curve g is the edge illumination 5 shows an illuminance distribution by reflected light from the reflection unit 25.

As is apparent from the curve d, in the central area 16 on the document table 15, the value of the illuminance due to only the direct light from the light source 11 is represented by a straight line d ₁ (shown by a one-dot chain line) connecting both ends of the curve d. It turns out that it is extremely small compared with the above value. Thus, as shown by the curves e and f, in the central region 16 on the document table 15, the reflected light from the proximal illumination portion 22 of the central illumination reflector 21 is located at a position close to the light source 11. Irradiation is performed so that an illuminance distribution having a peak is formed, and reflected light from the distal illumination portion 23 of the central illumination reflector 21 forms an illuminance distribution having a peak at a position distant from the light source 11. Then, as shown by a curve g, a part of the reflected light from the end illumination reflector 25 is irradiated. On the other hand, as shown by the curve g, the end area 17 on the document table 15 close to the light source 11 is irradiated with the reflected light from the end illumination reflector 25. Since the reflected light from the end illumination reflector 25 is diffused light, the illuminance in the end region 17 of the document table 15 due to the reflected light is equal to the end region 17 of the document table 15 due to the direct light from the light source 11. This is a value sufficiently smaller than the illuminance at. Therefore,
The direct light from the light source 11 and each of the reflected lights from the proximal illumination portion 22, the distal illumination portion 23, and the end illumination reflection portion 25 of the central illumination reflection portion 21 of the reflection member 20 are combined. Thereby, the illuminance distribution curve of the entire one illumination mechanism 10 is close to a straight line h (shown by a dotted line).

The illuminance distribution curve of the other illuminating mechanism 10 is close to a straight line symmetrical to the straight line h with respect to the center of the document table 15 in the width direction. The illuminance distribution curves of both mechanisms 10 are close to a horizontal straight line.

According to such a document illuminating device, the reflecting member 20 includes the central illumination reflecting portion 21 and the edge illumination reflecting portion 25.
Since the light reflected by the reflecting member 20 is divided, and the light reflected by the end illumination reflecting portion 25 is diffused light, only the light reflected from the reflecting member 20 is considered. The value of the illuminance in the central region 16 of the document table 15 obtained by the reflecting member 20 is:
The illuminance becomes larger than the value of the illuminance in the end region 17 of the platen 15, whereby the platen 15
Since the illuminance distribution at the top can be made highly flat, high illuminance uniformity can be obtained over the entire original surface of the original 1 placed on the original table 15.

Also, since the central illumination reflector 21 has a proximal illumination portion 22 and a distal illumination portion 23,
By independently adjusting the directions of the reflected light from the proximal illumination portion 22 and the distal illumination portion 23, the illuminance distribution in the central region 16 of the document table 15 can be made more flat. As a result, even higher illuminance uniformity can be obtained.

[0023]

[Light source (11)]

Cold cathode fluorescent lamp: outer diameter 3.1 mm, lamp voltage 70
0 V, lamp current 5 mA, lamp power 3.5 W, center-to-center distance between light sources (11): 323 mm, vertical distance between light source (11) and platen (15): 76 mm, [Reflective member ( 20)] Reflector for central illumination (21): Proximal illumination part (22); aluminum, arc length of reflective surface 14.8 mm, distal illumination part (23); aluminum, arc length of reflective surface 10.4 mm, reflector for edge illumination (25): made of white sheet, arc length of reflection surface 28.9 mm,

<Experimental Example> As shown in FIG.
5) is divided into 10 equal parts in the width direction (the left-right direction in the figure), and the center points A to I on the boundary lines of these divided areas are divided.
The illuminance at was measured. The results are shown in Table 1 below and FIG.

[0025]

[Table 1]

In FIG. 5, a curved line a indicates a platen (15).
One illumination mechanism (1) on one end side (left end side in FIG. 1)
0) is the illuminance distribution by the other illumination mechanism (10) on the other end side of the document table (15), and curve C is the illuminance distribution of one illumination mechanism (10) and the other illumination mechanism (1).
0) shows the illuminance distribution by both of them.

As is clear from the curves A and B,
One illumination mechanism (10) and the other illumination mechanism (10)
Is adjusted by the reflection member (20), so that the value of the illuminance decreases almost in proportion to the distance in the width direction of the document table (15). It will be understood that Therefore, as is apparent from the curve C, one of the illumination mechanisms (1
It is understood that the illuminance by both the illumination mechanism (0) and the other illumination mechanism (10) is highly uniform over the entire surface of the document table (15).

More specifically, as shown in Table 1, the ratio of the minimum illuminance value (illuminance value at points E and F) to the maximum illuminance value (illuminance value at point A) is 93%. According to the document illuminating device according to the above-described embodiment, it has been confirmed that high uniformity of illuminance can be obtained.

[0029]

According to the document illuminating device of the present invention, since the reflecting member is constituted by the reflecting portion for central illumination and the reflecting portion for edge illumination, the light reflected by the reflecting member is divided, and Since the light reflected by the end illumination reflector is diffused light, considering only the light reflected from the reflection member, the value of the illuminance in the central region of the platen obtained by the reflection member is the edge region of the platen. , The distribution of illuminance on the platen by the entire illumination mechanism can be adjusted, so that high uniformity of illuminance over the entire surface of the document placed on the platen can be achieved. can get.

Further, according to the configuration in which the reflecting portion for central illumination is divided into the portion for proximal illumination and the portion for distal illumination, the reflected light from the proximal illumination portion and the distal illumination portion causes Since the illuminance distribution in the central area of the document table can be adjusted, higher illuminance uniformity can be obtained.

[Brief description of the drawings]

FIG. 1 is an explanatory view schematically showing the configuration of an example of a document illumination device according to the present invention.

FIG. 2 is an enlarged explanatory view showing one illumination mechanism in the original illumination device shown in FIG. 1;

3 is a curve diagram schematically showing an illuminance distribution on a document table, formed by one illumination mechanism in the document illumination device shown in FIG. 1. FIG.

FIG. 4 is an explanatory diagram showing a position at which illuminance is measured on a document table in an experimental example.

FIG. 5 is formed by a document illumination device according to the embodiment;
FIG. 4 is a curve diagram illustrating an illuminance distribution on a document table.

FIG. 6 is an explanatory diagram showing a schematic configuration of an example of an overhead projector provided with a conventional document illumination device.

FIG. 7 is a curve diagram schematically showing an illuminance distribution on a document table formed by a conventional document illuminating device.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 document 10 illumination mechanism 11 light source 12 protective tube 15 document table 16 central region 17 end region 20 reflection member 21 central illumination reflection portion 22 proximal illumination portion 23 distal illumination portion 24 light shielding portion 25 edge illumination reflection Unit 26 holding member 80 document illumination device 81 illumination mechanism 82 light source 83 reflection member 84 document table 85 total reflection mirror 86 image sensor 87 signal processing unit 88 projection lamp 89 cold mirror 90 liquid crystal panel 91 total reflection mirror 92 projection lens 93 housing

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-5-150235 (JP, A) JP-A-9-179193 (JP, A) JP-A-9-90264 (JP, A) JP-A-4-199 298730 (JP, A) JP-A-59-177524 (JP, A) JP-A-63-4262 (JP, A) JP-A-6-273760 (JP, A) JP-A-7-320513 (JP, A) Japanese Utility Model Showa 63-157737 (JP, U) Japanese Utility Model Showa 60-120483 (JP, U) Japanese Utility Model Utility Model 1-92682 (JP, U) (58) Fields surveyed (Int. Cl. ⁷ , DB name) G03B 21/14

Claims (2)

(57) [Claims] 1. An illumination system comprising: two illumination units disposed at positions symmetrical with respect to a center in a width direction of a document table, on outer lower sides of both ends in a width direction of a transparent document table on which a document to be illuminated is placed; A document illumination device having a mechanism, wherein the illumination mechanism includes a rod-shaped light source extending along an edge of the document table, and a reflection that surrounds the light source and reflects light from the light source toward the document table. A reflection member for central illumination that reflects light from the light source, such that an illuminance distribution having a peak is formed in a central region of the document table; and light from the light source. And a reflecting portion for edge illumination, the reflected light being a diffused light. 2. The central illumination reflecting section of the reflecting member,
A near-illumination portion that reflects so that an illuminance distribution having a peak near the light source in the central region of the platen is formed, and an illuminance distribution having a peak at a position far from the light source in the central region of the platen is formed 2. The original illuminating device according to claim 1, wherein the original illuminating device is divided into a distal illumination portion that reflects light to be reflected.