JPH0521252U - Mask plate for transparent originals - Google Patents

Abstract

(57) [Abstract] [Purpose] Placed on a transparent document holder used in optical equipment such as an image reading device equipped with a light source and a photo enlarger, and then placed on a transparent document holder. To provide a transparent original mask plate for positioning and placing a transparent original according to the outer size. A transparent original mask plate 8 that is positioned and placed on a transparent original holder is formed by using an opaque thin plate member that does not transmit light, and conforms to the width W ₁ of the external size of the transparent original 6. A plurality of cut-and-raised pieces 8c are provided in a vertically symmetrical manner so as to project upward and are elastically displaceable, and the cut-and-raised pieces 8c position and place the transparent original 6 on the transparent original mask plate 8. Further, an unexposed portion detection hole 8b for detecting the developing state of the transparent original 6 is provided near the image frame through hole 8a.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention is mounted on a transparent document holder used in an optical device such as an image reading device equipped with a light source and a photo enlarger. The present invention relates to a transparent original mask plate that is positioned and placed according to the size.

[0002]

[Prior Art]

 An image reading device that transmits light to an image of a transparent original placed on an original table and reads the image with a line image sensor through an imaging lens is adopted, for example, in a well-known scanner. There is. Here, a conventional transparent document holder on which a transparent document such as a photographic film is placed will be described with reference to FIGS. 7 and 8.

FIG. 7 is a perspective view showing a conventional transparent original document holder used in an image reading apparatus, and FIG. 8 is a diagram showing a configuration of an image reading apparatus adopting a conventional transparent original document holder.

In the transparent document holder 100 shown in FIG. 7, a base plate 101 and a cover plate 102 are connected by a hinge 103 so as to be capable of opening and closing. A transparent glass plate 104 is fixed to the base plate 101, and a transparent glass plate 105 is fixed to the lid plate 102 so as to face the glass plate 104. Further, the transparent original 106 (shown by a chain double-dashed line) placed on the lower glass plate 104 is positioned at both upper and lower ends by position regulating plates 107, 107 formed so as to project from the glass plate 104. Further, facing the position regulating members 107, 107 on the base plate 101 side, recesses 108, 108 into which the position regulating members 107, 107 fit are formed on the lid plate 102 side. Then, when the cover plate 102 is closed in the counterclockwise direction (arrow direction), the transparent original 106 is sandwiched between the glass plates 104 and 105 while the position of the transparent original 106 is regulated.

Next, as shown in FIG. 8, the transparent original 106 is sandwiched between the glass plates 104 and 105 of the transparent original holder 100, and the transparent original holder 100 is attached to the transparent original reading device 110. In the transparent original reading device 110, light is emitted from a light source 111 installed above the transparent original holder 100, and the emitted light transmits an image of the transparent original 106 and passes through an image forming lens 112 to form a CCD or the like. It is configured to be read by the line image sensor 113.

[0006]

[Problems to be solved by the device]

 By the way, the outer size of the transparent original 106 such as a photographic film is variously different. For example, 16 mm photographic film, 35 mm photographic film, 120-inch size photographic film (60 x 45 format, 60 x 60 format, 60 x 70 format, 60 x 90 format, unit is mm) There is.

However, in the transparent document holder 100 described above, although the transparent document 106 can be sandwiched while being positioned between the glass plates 104 and 105, the position control plates 107 and 107 that positionally control both side ends of the transparent document 106 and The outer size of the transparent original 106 is limited by the recesses 108, 108 that are fitted in this. Therefore, the conventional transparent document holder 100 cannot handle transparent documents 106 having different outer sizes, which is a problem.

[0008]

[Means for Solving the Problems]

 The present invention has been made in view of the above problems, and the first invention irradiates light from a light source provided in an optical device such as an image reading device and a photo enlarger and transmits the light. A transparent mask is placed on a transparent original holder formed of a transparent member, and a transparent original is placed on the transparent original holder, and an opaque thin plate member that does not transmit light is used. A cut-and-raised piece (8c) for positioning when placing the transparent original (6) is formed so as to be elastically displaceable along the outer shape of the transparent original, and corresponds to the image frame (6a) of the transparent original. The transparent original mask plate (8) is characterized in that a through hole (8a) is formed.

According to a second aspect of the invention, the mask plate (8) for a transparent original according to claim 1 is provided with an unexposed portion detection hole (8b) corresponding to the unexposed portion (6b) of the transparent original (6). This is a mask plate (8) for transparent manuscripts characterized by being formed.

[0010]

【Example】

 1 to 6, an embodiment of a transparent original mask plate according to the present invention will be described in the order of <image reading device>, <transparent original and transparent original mask plate>, <transparent original holder>. The details will be described.

First, before describing the transparent original mask plate according to the present invention, an image reading apparatus adopting the transparent original mask plate will be briefly described with reference to FIGS. 1A and 1B. explain.

<Image Reading Device> FIGS. 1A and 1B are diagrams showing a schematic configuration of an image reading device employing a mask plate for a transparent original according to the present invention, and FIG. The state when the reflective original is read is shown, and (B) shows the state when the transparent original is read.

In the image reading apparatus 1 shown in FIGS. 1A and 1B, a reflective original that reflects light or a transparent original that transmits light is placed on different original plates, and the reflective original or the transparent original is placed. Light is emitted from a fixed light source while linearly moving the placed document table horizontally, and the reflected light that reflects the image of the reflected document or the transmitted light that transmits the image of the transmissive document passes through the imaging lens. It is configured to read with a line image sensor.

A schematic configuration of the image reading apparatus 1 is as follows: a box-shaped housing 2, elongated reflection original light sources 3 and 3 and transparent original light sources that are fixedly installed above the inside of the housing 2 perpendicularly to the plane of the drawing. Reference numeral 4 denotes a reflection original table unit 10 which is provided above the housing 2 so as to be capable of reciprocating linear movement in the horizontal direction in a horizontal direction, for example, and a reflection original table unit 10 on which a reflection original 5 having an outer size of A row 3 or smaller is placed. It is installed above the inside of the housing 2 and a transparent original table unit 20 which is provided below the light sources 3 and 4 installed above so as to be reciprocally movable linearly in the horizontal direction and on which the transparent original 6 such as photographic film is placed. And a reflecting mirror unit 40 provided with a first reflecting mirror 41 fixedly installed below the fixed light sources 3 and 4 and second and third reflecting mirrors 42 and 43 capable of reciprocating linear movement in the horizontal direction. Is provided below the inside of the housing 2 and includes an imaging lens 51 and a lens. The line image sensor unit 50 including the in-image sensor 52 can be roughly divided into units, and the units 10, 20, 40, 50 are separately assembled in units of the above-mentioned predetermined positions of the housing 2. is set up.

For the reflection original light sources 3 and 3 and the transmission original light source 4, for example, long fluorescent lamps are used. The reflective original light sources 3 and 3 are installed so as to emit light toward the upper reflective original 5, while the transparent original light source 4 illuminates light toward the lower transparent original 6. It is installed to shoot.

Further, in the reflection original table unit 10, a transparent glass plate 12 having a size smaller than this is fixed on a rectangular base plate 11, and the reflection original 5 placed on the glass plate 12 is a base plate. A driving mechanism (not shown) integrally with 11 allows linear movement in the directions of arrows A ₁ and A ₂ . Instead of the transparent glass plate 12, a transparent resin material that transmits light may be used.

The transparent original table unit 20 is provided with a transparent original document holder 30 (FIG. 4) on which the transparent original mask plate 8 (FIGS. 3 and 4) according to the present invention is placed. Although details will be described later, the transparent original 6 placed on the transparent original mask plate 8 (FIGS. 3 and 4) between the upper and lower transparent glass plates 37 and 32 of the transparent original holder 30 is a frame 21. It is linearly movable in the directions of arrows A ₁ and A ₂ by a driving mechanism (not shown). The lower glass plate 32 is also referred to as a first transparent member and the upper glass plate 37 is also referred to as a second transparent member. These first and second transparent members are replaced by transparent glass plates 32 and 37, respectively. A transparent resin material that transmits light may be used.

In the reflecting mirror unit 40, the first reflecting mirror 41 is fixedly installed below the light sources 3 and 3 for reflecting originals, while the first reflecting mirror 41 is separated from the first reflecting mirror 41 by a second distance. One set of third reflecting mirrors 42 and 43 is integrally movable by a drive mechanism (not shown) in the directions of arrows A ₁ and A ₂ . Here, the first reflecting mirror 41 is fixedly installed so that the reflecting surface side faces the reflecting original light sources 3, 3 at a predetermined angle (45 degrees left). The second reflecting mirror 42 is urged to rotate counterclockwise (in the direction of arrow B ₁ ) about the shaft 44 by a torsion spring member (not shown), and when the reflecting original 5 is read, the first reflecting mirror 41 is read. And is inclined at a predetermined angle (45 degrees left) with a space therebetween, that is, is positioned in parallel with the first reflecting mirror 41 at a space. On the other hand, the third reflecting mirror 43 is tilted at a predetermined angle (45 degrees to the right) with respect to the second reflecting mirror 42, that is, the second reflecting mirror 42 and the third reflecting mirror 43 are in the “Ha” position. It is in the shape of a letter. Further, when the transparent original 6 is read by linearly moving the frame 21 of the transparent original table unit 20 in the direction of the arrow A ₁ , the second reflecting mirror 42 cooperates with the linear movement of the frame 21 to move the second reflecting mirror 42. It rotates around 4 4 in the clockwise direction (the direction of arrow B ₂ ) to avoid the light from the optical path of the transparent original light source 4, and only the third reflecting mirror 43 functions.

Further, in the line image sensor unit 50, an imaging lens 51 and a line image sensor 52 such as a CCD are connected by a well-known bellows 53, and both parties 51 and 52 are extendable and retractable bellows 53. Each of them is independently movable linearly in the directions of arrows A ₁ and A ₂ by a driving mechanism (not shown). The two 51, 52 are independently linearly moved so that the magnification of the image formed on the line image sensor 52 can be appropriately set.

Here, the operation of the image reading apparatus 1 will be briefly described. First, at the time of reading the reflection original shown in FIG. 1A, the reflection original 5 placed on the base plate 11 is linearly moved in the direction of the arrow A _1, while the light source 3 for the reflection original 5 is provided from below the reflection original 5. When the light 3 is radiated upward toward the reflective original 5, this light is reflected by the reflective original 5 and becomes a reflected light directed downward at right angles to the reflective original 5. The reflected light is reflected by the first reflecting mirror 41, travels in the right direction in parallel with the reflecting original 5, is further reflected by the second reflecting mirror 42, and travels downward again, and is reflected by the third reflecting mirror 43. In parallel with the original 5, it travels to the left in the opposite direction to the above, and an image is formed on the line image sensor 52 via the imaging lens 51. That is, the optical path described above is formed along the optical path indicated by the arrow in the figure. This reflected light sequentially contains images of the reflective original 5 in the direction perpendicular to the paper surface in accordance with the linear movement of the reflective original 5, whereby the reflected light containing the image of the reflective original 5 becomes a line image. The image of the reflective original 5 can be read by forming an image on the sensor 52. At this time (when reading the reflection original 5), the second and third reflection mirrors 42 and 43 in the reflection mirror unit 40 are at the first stop position shown by the solid line or at the second stop shown by the chain double-dashed line. Is fixed to any one of the stop positions by a lock mechanism portion (not shown), and the moving distance between the first stop position and the second stop position is set to 85 mm in the embodiment, whereby the optical path length is 2 mm. The line image can be changed by a distance of × 85 mm, and the first stop position and the second stop position modes are combined with the above-described movement modes of the imaging lens 51 and the line image sensor 52. The magnification of the image formed on the sensor 52 is set appropriately.

Next, at the time of reading the transparent original shown in FIG. 1B, first, the transparent original table unit 20 is linearly moved in the direction of arrow A ₁ until the left end of the transparent original table unit 20 is positioned below the transparent original light source 4. At this time, the second reflecting mirror 42 is rotated around the shaft 44 in the direction of the arrow B _{2 in} cooperation with the linear movement of the frame 21, and is avoided from the optical path of the transparent original light source 4. After that, the transparent original 6 sandwiched between the glass plates 32 and 37 is linearly moved in the direction of arrow A ₂ together with the frame body 21 while being linearly moved, and the light of the transparent original light source 4 is emitted from above. Then, the transmitted light transmitted through the transparent original 6 is directly reflected by the third reflecting mirror 43 and is imaged on the line image sensor 52 via the imaging lens 51 to form an image of the transparent original 6. Reading. At this time, the third reflecting mirror 43 is fixed to the above-mentioned first stop position, and the reflecting surface of the third reflecting mirror 43 faces the light source 4 for the transparent original. The magnification of the image formed on the line image sensor 52 is appropriately set by the movement mode of the image lens 51 and the line image sensor 52.

<Transparent Original and Transparent Original Mask Plate> Here, the transparent original mask plate according to the present invention and the transparent original positioned and placed on the transparent original mask plate will be described with reference to FIGS. 2 and 3. To do.

2A and 2B are perspective views showing an example of a transparent original placed on the mask plate for a transparent original according to the present invention, and FIG. 2A is a strip negative film as a transparent original. In (B), a strip negative film with an outer frame is formed as a transparent original. 3A and 3B are perspective views showing a mask plate for transparent originals according to the present invention, and FIG. 3A is a transparent original mask for strip negative film shown in FIG. 2A. 2B shows a mask plate for a transparent original for a negative film with an outer frame shown in FIG. 2B.

Generally, the transparent original 6 is formed of a transparent material that can transmit light, and is, for example, a photographic film or a transparent resin material on which an image, characters, etc. are described. ..

Here, a photographic film is used as the transparent original 6, and the photographic film includes the 16 mm photographic film, the 35 mm photographic film, and the 120-inch size photographic film (60 × 45 format, 60 × 60 × 60 × 60 × 60, There are various external sizes such as 60 size, 60 x 70 size, 60 x 90 size, etc., and the unit is mm). However, the photo film of any external size is shown in Fig. 3 (A) described later according to the size. A transparent original mask plate 8 is formed, and a photographic film (transparent original 6) is positioned and placed on the transparent original mask plate 8. Further, even in a transparent original 6 using a photographic film (negative film) having the same external size, the strip negative film 6 having a small thickness T ₁ as shown in FIG. In some cases, an outer frame 7 having a large thickness T ₂ is formed along the outer periphery of the strip negative film 6 as shown in B) and used. Also in this case, the transparent original mask plate 8 shown in FIG. 3B described later can be applied according to the outer size.

Next, a transparent original mask plate according to the present invention will be described with reference to FIGS. 3 (A) and 3 (B). The transparent original mask plate 8 according to the present invention shown in FIGS. 3A and 3B is positioned and mounted on a base plate 31 and a glass plate 32 of a transparent original holder 30 (FIG. 4) described later. In addition, the transparent original 6 is provided with a function for positioning and placing the transparent original 6 according to the outer size on the transparent original holder 30, and according to the outer size of the transparent original 6. It is formed exclusively for each transparent original 6. The transparent original mask plate 8 is inexpensively formed by punching using an opaque thin plate material that is elastically displaceable and does not transmit light, and is formed of, for example, a black resin plate material having a plate thickness of about 0.5 mm. Has been done. As an example of the transparent original mask plate 8, the transparent original mask plate 8 shown in FIG. 3 (A) is formed for a 35 mm photographic film, and as shown in FIG. 2 (A). It is for a strip negative film (transparent document) 6 having a continuous image frame 6a. That is, a plurality of rectangular image frame through holes 8a corresponding to the image frames 6a of the strip negative film 6 are continuously formed in the central portion of the transparent original mask plate 8. Further, an unexposed portion detection hole 8b is provided near the image frame through hole 8a corresponding to the unexposed portion 6b of the strip negative film 6 shown in FIG. The part detection hole 8b is a part of the main part of the present invention. The function of the unexposed portion detection hole 8b is provided to detect the developing state of the strip negative film 6, and when the strip negative film 6 is placed on the transparent original mask plate 8, The light from the transparent original light source 4 (FIG. 1) is transmitted through the unexposed portion 6b, further passes through the unexposed portion detection hole 8b below, and is imaged on the line image sensor 52 (FIG. 1). Here, the developing state of the unexposed portion 6b is detected. For the detailed description, refer to the "photographic film reading method" described in Japanese Patent Laid-Open No. 3-35668 already disclosed.

Further, a plurality of cut-and-raised pieces 8c are provided in a vertically symmetrical manner in accordance with the width dimension W ₁ of the external size of the strip negative film 6 so as to project upward and elastically displaceable. It is an integral part of the present invention. That is, the position of the cut-and-raised piece 8c of the transparent original mask plate 8 is a position dedicated to the 35 mm strip negative film 6, for example. As a result, the strip negative film 6 on the transparent original mask plate 8 is sandwiched between the upper and lower cut-and-raised pieces 8c and positioned and placed in the width direction. Further, since the cut-and-raised piece 8c can be elastically displaced by the elastic force of the material itself, the cut-and-raised piece 8c is pressed by the weight of the glass plate 37 on the lid plate side of the transparent original document holder 30 (FIG. 4), which will be described later. Since it is stretched flat in 8c ₁ , no influence is exerted on the thickness direction.

Further, a plurality of positioning holes 8d are formed on both the left and right sides of the transparent original mask plate 8 so as to fit with the positioning pins 33 of the transparent original holder 30 (FIG. 4) described later.

Therefore, when the transparent original mask plate 8 is used, the transparent original mask plate 8 is fitted with the positioning holes 8d of the transparent original mask plate 8 to the positioning pins 33 of the transparent original holder 30 (FIG. 4). 8 is positioned and placed on the base plate 31 and the glass plate 32, and the strip negative film 6 is placed on the mask plate 8 for transparent original, and the outer shape of the strip negative film 6 is cut by the cut-and-raised pieces 8c. A strip negative film (transparent original) 6 is positioned and placed along the screen. Similarly, the transparent original mask plate 8 shown in FIG. 3B is formed for the transparent original 6 having a wide outer shape, and for example, the negative film with the outer frame shown in FIG. 2B is used. In the case of the transparent original mask plate 8, upper and lower cut-and-raised pieces 8c are formed according to the width dimension W ₂ of the outer frame 7. The cut-and-raised pieces 8c of the transparent original mask plate 8 shown in FIGS. 3A and 3B may be formed not only in the width direction of the transparent original 6 but also on the left and right side surfaces of the transparent original 6. ..

Thus, the upper and lower cut-and-raised pieces 8 c of the transparent original mask plate 8 are formed according to the outer size of the transparent original 6, that is, along the outer shape of the transparent original mask plate 8. Therefore, a dedicated transparent original mask plate 8 for transparent originals 6 of various outer sizes may be prepared and placed in advance. On the other hand, the transparent original holder 30 (FIG. 4) side corresponds to this. Only the positioning pin 33 that fits into the positioning hole 8d of the transparent original mask plate 8 may be provided. Thus, the transparent original mask plate 8 that can be manufactured at low cost allows the transparent originals 6 having various outer sizes to be placed on the transparent original holder 30 (FIG. 4), which is convenient.

The transparent original mask plate according to the present invention described in detail above is positioned on the transparent original holder 30 (FIG. 4) used in optical devices such as an image reading device and a photo enlarger described later. The transparent original 6 is placed on the transparent original holder 30 and is then used by positioning the transparent original 6 according to the outer size. The position regulating members 107, 107 for positioning the transparent original 6 and the recesses 108, 108 fitted therein are removed, and the positioning pin newly fitted in the positioning hole 8d of the transparent original mask plate 8 is modified. With this structure, the transparent original mask plate 8 can be positioned and placed on the transparent original holder 30, and even in this state, transparent originals of various external sizes can be obtained as described above. 6 has the advantage of being applicable.

<Transparent Original Document Holder> A transparent original document holder for mounting a transparent original document mask plate according to the present invention will now be described with reference to FIGS. 4 to 6.

FIG. 4 is a perspective view showing the structure of a transparent original table unit having a transparent original document holder on which a transparent original document mask plate according to the present invention is placed, and in a state in which the lid side is opened. It is the figure shown. Further, FIG. 5 is an enlarged perspective view of the transparent original document holder shown in FIG. 4, and also shows a state in which the lid side is closed. 6 (A) and 6 (B) are schematic diagrams for explaining the operation of the transparent original document holder. FIG. 6 (A) shows a case where a thin transparent original document is used, and FIG. The figure shows the case where a thick transparent original is used.

In FIG. 4, in the transparent original table unit 20 in the image reading apparatus 1 (FIG. 1), a frame body 21 using a sheet metal member or the like is arranged in the horizontal direction along the upper and lower two guide rods 22 and 23. It is provided so as to be linearly movable in the directions of the arrows A ₁ and A ₂ ), and the transparent original document holder 30 is installed on the frame body 21, and the transparent original document holder 30 is naturally integrated with the frame body 21. Are linearly movable in the directions of arrows A ₁ and A ₂ .

In addition, in the configuration of the transparent document holder 30, the base plate 31 is formed in a disk shape by using a sheet metal member or the like, and the guide rollers 24a to 24c are added at positions where the outer periphery of the base plate 31 is divided into three. The base plate 31 is rotatably supported on the frame 21 in the directions of the arrows C ₁ and C ₂ . As shown in FIG. 5, in the base plate 31, a guide roller 24a axially attached to a slide plate 25 (shown by a chain double-dashed line) is always fitted into the recess 31a of the base plate 31 by the urging force of the spring 26. Therefore, the base plate 31 is stopped at a predetermined position, but when the slide plate 25 is pulled in the arrow direction, the base plate 31 becomes rotatable while being attached to the guide rollers 24a to 24c. Further, if it is not necessary to rotate the base plate 31, it goes without saying that the constituent members of the transparent original document holder 30 described later may be directly attached to the frame body 21 (FIG. 4). Returning to FIG. 4 again, a transparent glass plate 32 is fixed in a rectangular shape on the upper part of the center of the base plate 31, and the positioning pins 33 are provided on the base plate 31 near the left and right sides of the glass plate 32. A plurality of them are provided so as to project upward, and are fitted into the positioning holes 8d of the transparent original mask plate 8 described above, and the transparent original mask plate 8 (shown by a chain double-dashed line) with respect to the base plate 31 and glass plate 32. It is designed so that it can be positioned and placed.

Further, a first lid 34 (hereinafter referred to as a lid 34) is provided on the base plate 31 near the glass plate 32 so as to be openable and closable. The lid body 34 is formed by bending a sheet metal member to form a frame. The lid body 34 is clockwise with a first rotating shaft 36 (hereinafter referred to as a rotating shaft 36) pivotally attached to the support bracket 35. The lid can be opened and closed counterclockwise. Further, in the frame of the lid 34, a second lid 38 (hereinafter referred to as the lid 38) to which a transparent glass plate 37 serving as a second transparent member is fixed is rotatably supported. There is. The glass plates 32 and 37 may be used for the first and second transparent members, and instead of these, a transparent resin material that transmits light may be used. The lid 38 is formed using a sheet metal member. In addition, second rotary shafts 39, 39 (hereinafter referred to as rotary shafts 39) are provided at substantially central portions of the left and right sides 34a, 34b of the lid 34 and substantially central portions of the left and right sides 38a, 38b of the lid 38. ) Is pivotally mounted, and the rotating shaft 39 is parallel to the rotating shaft 36 described above. As a result, the lid body 38 and the glass plate 37 integral with the lid body 38 can be rotated with respect to the lid body 34 in the clockwise direction and the counterclockwise direction about the rotation shaft 39. Further, the lid 38 and the glass plate 37 can be pivoted about a pivot shaft 39 while being balanced by the gravity of the lid 38 and the glass plate 37. The structure in which the substantially central portions on both sides of the lid body 38 are rotatable about the rotating shafts 39, 39 is also called "gimbal structure". Although the glass plate 37 is fixed to the lid member 38 here, the lid member 38 formed of a sheet metal member is not used, and only the transparent member such as the glass plate 37 is used to form the central portion on both sides of the transparent member. Needless to say, a "gimbal structure" in which the rotatably supported directly on the lid 34 via the rotative shaft 39 is also possible.

Further, as shown in FIG. 5, when the lid 34 is closed, the glass plate 32 fixed to the base plate 31 and the glass plate 37 fixed to the lid 38 face each other. Is becoming

Here, the operation of the transparent original document holder 30 having the “gimbal structure” will be described with reference to FIGS. 6 (A) and 6 (B). That is, as shown in FIG. 6 (A), the transparent negative mask plate 8 positioned and placed on the base plate 31 and the glass plate 32 is provided with a strip negative film (transparent original) 6 having a thin thickness T ₁ on the mask plate 8. Place it. When the lid 34 is closed with the pivot shaft 36 as the center, the attitude of the lid 38 and the glass plate 37 fixed to the lid 38 is controlled by the gravity of the glass plate 37 and the lid 38 about the pivot shaft 39. While rotating, the strip negative film 6 is attached to the strip negative film 6 from above in accordance with the thickness T ₁ of the strip negative film 6. At this time, the gravitational force between the lid 34 and the lid 38 to which the glass plate 37 is fixed is further added, so that the lid 38 to which the lid 34 and the glass plate 37 are fixed is centered on the rotating shafts 36 and 39. The glass plate 37 is evenly attached to the strip negative film 6 from above, so that the strip negative film (transparent original) 6 can be securely sandwiched between the glass plates 32 and 37 without distortion. Can be placed. After that, as described above, the light from the transparent original light source 4 is emitted from above the glass plate 37, and the transmitted light transmitted through the image of the strip negative film 6 passes through the image forming lens 51 and the line image sensor. Imaged on 52.

Next, as shown in FIG. 6B, in the case of a negative film framed by the outer frame 7, the thickness T ₂ becomes thicker, and even in this case, the glass plate 37 fixed to the lid 38 is fixed. Is attached to the upper surface of the outer frame 7 according to the thickness T ₂ of the outer frame 7. Therefore, similarly to the above, the gravity of the lid 34 and the lid 38 to which the glass plate 37 is fixed is added, so that the lid 38 to which the lid 34 and the glass plate 37 are fixed moves the rotation shafts 36 and 39. As the glass plate 37 is rotated in cooperation with the center and evenly contacts the upper surface of the outer frame 7 from above, the negative film (transparent original) 6 with the outer frame is securely distorted between the glass plates 32 and 37. It can be sandwiched between and placed.

When the transparent original mask plate 8 according to the present invention, which has been described in detail above, is applied to the transparent original holder 30 described above, the transparent original 6 may have different outer sizes, and further, transparent originals having different thicknesses. There is an advantage that 6 can be positioned and mounted. The transparent original mask plate 8 according to the present invention can be applied by using a transparent original holder in a known photo enlarger equipped with a light source (not shown).

[0041]

[Effect of the device]

 According to the transparent original mask plate according to the present invention described in detail above, according to the first aspect of the present invention, the transparent original mask plate uses an opaque thin plate member that does not transmit light, and positioning is performed when the transparent original is placed. Since the cut-and-raised pieces for projection are formed so as to be elastically displaceable along the outer shape of the transparent original, if this transparent original mask plate is placed on the transparent original holder, that is, a special original according to the outer original size of the transparent original is placed. Placing the mask plate for transparent originals has the practical advantage of being able to handle transparent originals of various external sizes at low cost and improving operability.

Further, in the transparent original mask plate according to the second aspect, the same effect as that of the first aspect is obtained, and the unexposed portion detection hole corresponding to the unexposed portion of the transparent original is formed. , It becomes possible to grasp the development state of the transparent original.

[Brief description of drawings]

FIG. 1 is a diagram showing a schematic configuration of an image reading apparatus adopting a mask plate for a transparent original according to the present invention, and (A) shows a state at the time of reading a reflective original; ) Indicates a state at the time of reading a transparent original.

FIG. 2 is a perspective view showing an example of a transparent original placed on a transparent original mask plate according to the present invention, FIG.
Shows strip negative film as a transparent original,
(B) is a strip negative film in which an outer frame is formed.

3 is a perspective view showing a transparent original mask plate according to the present invention, FIG. 3A shows the transparent original mask plate for the strip negative film shown in FIG. 2A, and FIG. FIG. 3 shows a mask plate for a transparent original for a negative film with an outer frame shown in FIG. 2 (B).

FIG. 4 is a perspective view showing a configuration of a transparent original table unit having a transparent original document holder on which a transparent original document mask plate according to the present invention is placed, and a view showing a state in which a lid side is opened. Is.

5 is an enlarged perspective view of the transparent original holder shown in FIG. 4, and is a view showing a state in which the lid side is closed.

6A and 6B are schematic diagrams for explaining the operation of the transparent document holder, in which FIG. 6A shows a case where a thin transparent document is used, and FIG. 6B shows a case where a thick transparent document is used. Shows.

FIG. 7 is a perspective view showing a conventional transparent original document holder used in an image reading apparatus.

FIG. 8 is a diagram showing a configuration of an image reading apparatus that employs a conventional transparent document holder.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Image reading device, 6 ... Transparent original, 6b ... Unexposed area, 8 ... Transparent original mask plate, 8a ... Through hole (image frame through hole), 8b ... Unexposed area detection hole, 8c ... Cut and raised piece , 8d ... Positioning holes, 20 ... Transparent manuscript table unit, 30 ... Transparent manuscript holder, 31 ... Base plate, 32 ... Second transparent member (glass plate), 33 ... Positioning pin, 37 ... Second transparent member ( Glass plate).

Claims (2)

[Scope of utility model registration request] 1. A light source provided in an optical device such as an image reading device or a photo enlarger, irradiates light, and the light source is mounted on a transparent original document holder formed of a transparent member, which transmits the light.
Further, the transparent original (6) is a mask plate on which the transparent original is placed from above the transparent original holder and which uses an opaque thin plate member which does not transmit light.
A cut-and-raised piece (8c) for positioning when placing is formed so as to be elastically displaceable along the outer shape of the transparent original, and a through hole (8a) corresponding to the image frame (6a) of the transparent original. A mask plate (8) for transparent manuscripts, characterized in that 2. A mask plate for a transparent original according to claim 1.
A mask plate (8) for a transparent original, wherein an unexposed portion detection hole (8b) corresponding to the unexposed portion (6b) of the transparent original (6) is formed in (8).