JP2011109322A - Document reader - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a document reader determining opening/closing states of a document cover without adding a new sensor, and determining the opening/closing states of the document cover even when a large document is mounted. <P>SOLUTION: A light guide 28 emits light B emitted by a light source 27 toward platen glass 16. When a document P is not read, the light source 27 and the light guide 28 wait at standby positions. A white reference plate 26 is arranged on the platen glass 16 and reflects the light B emitted by the light guide 28. An imaging element receives the light B reflected on the white reference plate 26. When the light source 27 and the light guide 28 are located at the standby positions, a light-shielding member 50 moves between the light source 27 and the light guide 28 so that the quantity of light entering the light guide 28 from the light source 27 while the document cover 14 is closed is made different from the quantity of light entering the light guide 28 from the light source 27 while the document cover 14 is opened. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a document reading device, and more particularly to a document reading device that reads an image of a document.

  As a conventional document reading device, for example, a document reading device described in Patent Document 1 is known. The document reading apparatus described in Patent Document 1 will be described below with reference to the drawings. FIG. 6 is a configuration diagram of a document reading apparatus 500 described in Patent Document 1.

  The document reading apparatus 500 includes a main body 501, a platen glass 502, a document pressing cover 504, and a regular reflection unit 506. The main body 501 includes an image reading sensor, a light source, a mirror, and the like. The image reading sensor, the light source, the mirror, and the like are the same as those of a general document reading apparatus, and thus description thereof is omitted.

  The platen glass 502 is a transparent plate provided on the upper surface of the main body 501. An original is set on the platen glass 502. The document pressing cover 504 is provided so as to be rotatable with respect to the main body 501 and can be in a closed state so as to press the document or in an opened state so as to expose the document.

  Incidentally, in the document reading apparatus 500, the document pressing cover 504 needs to detect the open / closed state. For this reason, in the document reading apparatus 500, a regular reflection unit 506 is provided. The regular reflection portion 506 is provided on the lower surface of the document pressing cover 504. The regular reflection unit 506 reflects the light that has passed through the platen glass 502 and returns it to the main body 501 when the document pressing cover 504 is closed. On the other hand, the regular reflection unit 506 cannot reflect the light passing through the platen glass 502 and return it to the main body 501 when the document pressing cover 504 is open. Therefore, the control unit in the main body 501 detects the open / close state of the document pressing cover 504 by determining whether or not the light receiving element in the main body 501 has received the light reflected by the regular reflection unit 506. . Thus, the document reading apparatus 500 can detect the open / closed state of the document pressing cover 504 using the light receiving element without adding a new sensor.

  However, the document reading device 500 has a problem that when the large document is set on the platen glass 502, the light does not reach the regular reflection unit 506, so that the open / close state of the document pressing cover 504 cannot be detected. is doing.

Japanese Patent Laid-Open No. 10-32679

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a document reading apparatus that can determine the open / close state of a document cover without adding a new sensor, and can determine the open / closed state of the document cover even when a large document is placed. That is.

  An original reading apparatus according to an aspect of the present invention includes a transparent plate on which an original is placed on an upper surface, a first state covering the upper surface of the transparent plate, and a second state not covering the upper surface of the transparent plate. A document cover that can be switched between states, a light source, a light guide that radiates light emitted from the light source toward the lower surface of the transparent plate, and the light source and the light guide when the document is being read. A moving means for moving the light body along the lower surface of the transparent plate and waiting the light source and the light guide at a predetermined standby position when the original is not read; and provided on the transparent plate; A reflection member that reflects light emitted from the light guide at the standby position, and light emitted toward the lower surface of the transparent plate, reflected by the document or reflected by the reflection member A light receiving element for receiving light; and the light And when the light guide is in the standby position, the amount of light or the color of light incident on the light guide from the light source in the second state, and the light source from the light source in the first state. A light shielding member that moves between the light source and the light guide in conjunction with the movement of the document cover so that the amount of light incident on the light guide or the color of the light is different. It is characterized by that.

  According to the present invention, the open / close state of the document cover can be determined without adding a new sensor, and the open / close state of the document cover can be determined even when a large document is placed.

1 is a configuration diagram of a document reading apparatus according to an embodiment of the present invention. 1 is a configuration diagram of a document reading apparatus according to an embodiment of the present invention. FIG. 3 is a cross-sectional structure diagram of the document reading device along AA in FIG. 2. It is an external appearance perspective view of the detection member of a detection mechanism. It is an external appearance perspective view of the detection member which concerns on a modification. 1 is a configuration diagram of a document reading device described in Patent Document 1. FIG.

  A document reading apparatus according to an embodiment of the present invention will be described below with reference to the drawings.

(Outline of the document reader)
1 and 2 are configuration diagrams of a document reading apparatus 10 according to an embodiment of the present invention. FIG. 3 is a sectional structural view 10 of the document reading device taken along the line AA of FIG. 1 to 3, the vertical direction is defined as the z-axis direction, and the moving direction of the first slider 18 and the second slider 20 is defined as the x-axis direction. A direction orthogonal to the x-axis direction and the z-axis direction is defined as the y-axis direction. In use, the user is positioned on the positive side of the y-axis direction of the document reading device 10.

  As shown in FIGS. 1 to 3, the document reading apparatus 10 includes a main body 12, a document cover 14, a platen glass 16, a first slider 18, a second slider 20, an imaging lens 22, an image sensor (light receiving element) 24, White reference plate (reflective member) 26, light source 27 (not shown in FIGS. 1 and 2), light guide 28, mirrors 29, 30, 32, control unit 40, and detection mechanism 42 (in FIGS. 1 and 2) (Not shown).

  The main body 12 includes a document cover 14, a platen glass 16, a first slider 18, a second slider 20, an imaging lens 22, an image sensor 24, a light source 27 (not shown in FIGS. 1 and 2), and a light guide 28. , A cuboid housing to which the mirrors 29, 30, 32, the control unit 40, and the detection mechanism 42 (not shown in FIGS. 1 and 2) are attached. The platen glass 16 is a rectangular transparent plate attached to an opening provided on the positive side of the main body 12 in the z-axis direction, and has an upper surface S1 and a lower surface S2. The document P is placed on the upper surface S1 of the platen glass 16 with the reading surface facing the negative direction in the z-axis direction.

  As shown in FIGS. 1, 2 and 3A, the document cover 14 covers the upper surface S1 of the platen glass 16 (hereinafter referred to as a closed state), and as shown in FIG. 3B. In addition, the platen glass 16 is a rectangular plate-like member that can be switched between a state where the upper surface S1 of the platen glass 16 is not covered (hereinafter referred to as an open state). More specifically, the platen glass 16 is formed by joining the long side on the negative direction side in the y-axis direction of the platen glass 16 and the long side on the negative direction side in the y-axis direction of the main body 12 with a hinge or the like. It is attached to the main body 12 so as to be rotatable about the long side on the negative direction side in the axial direction. The platen glass 16 functions to bring the document P into close contact with the platen glass 16 in the closed state.

  The light source 27 emits light B and is configured by, for example, an LED. Further, as shown in FIG. 3, the light source 27 is inside the main body 12 and does not overlap the platen glass 16 when viewed in plan from the normal direction of the platen glass 16 (that is, the z-axis direction). It is provided as follows. In the present embodiment, the light source 27 is provided so as to be positioned on the negative direction side in the y-axis direction with respect to the platen glass 16 as shown in FIGS. Thereby, the light source 27 is provided on the opposite side to the user with respect to the light guide 28.

  The light guide 28 emits light B emitted from the light source 27 toward the lower surface S2 of the platen glass 16 as shown in FIGS. The light guide 28 is a transparent resin member having a cylindrical shape, and is an optical member having a prism formed on the surface thereof. The light guide 28 is provided inside the main body 12 so as to face the lower surface S2 of the platen glass 16, and extends in the y-axis direction. The end face on the negative direction side in the y-axis direction of the light guide 28 faces the light source 27. In the light guide 28 having the above-described configuration, the light B emitted from the light source 27 enters the light guide 28 from the end surface on the negative direction side in the y-axis direction. Then, the light B repeats total reflection in the light guide 28 and travels, and is emitted from the light guide 28 toward the positive side in the z-axis direction. Thus, the light B is emitted toward the lower surface S2 of the platen glass 16 and irradiates the original P. The light B is diffusely reflected on the reading surface of the original P.

  As shown in FIG. 1, the mirror 29 reflects the light B reflected from the original P toward the negative side in the x-axis direction. The mirror 30 reflects the light B from the mirror 29 toward the negative direction side in the z-axis direction. The mirror 32 reflects the light B from the mirror 30 to the positive direction side in the x-axis direction.

  Here, the light source 27, the light guide 28 and the mirror 29 are mounted on the first slider 18 as shown in FIGS. 1 and 2. When the document P is being read, the first slider 18 is moved along the lower surface S2 of the platen glass 16 by a moving means such as a motor, a belt, and a pulley (not shown) as shown in FIG. It is moved at a speed V toward the direction side. On the other hand, when the original P is not read, the first slider 18 is caused to wait at a predetermined standby position P1 by the moving means as shown in FIG. The standby position P1 is a position in the negative direction side of the platen glass 16 in the z-axis direction and in the vicinity of the end of the platen glass 16 on the negative direction side in the x-axis direction.

  The mirrors 30 and 32 are mounted on the second slider 20 as shown in FIGS. When the original P is being read, the second slider 20 is moved forwardly in the x-axis direction by moving means such as a motor, a belt, and a pulley (not shown) below the lower surface S2 of the platen glass 16, as shown in FIG. It is moved toward the direction side at a speed V / 2. Thereby, the length of the path of the light B between the reading surface of the document P and the image sensor 24 during movement is constant. On the other hand, when the document P is not read, the second slider 20 is caused to wait at a predetermined standby position P2 by the moving means as shown in FIG. The standby position P2 is located on the negative side in the x-axis direction of the standby position P1.

  As shown in FIG. 2, the white reference plate 26 is a reflecting member that reflects the light B emitted from the light guide 28 at the standby position P1. The white reference plate 26 is a white plate and, as shown in FIGS. 2 and 3, is the upper surface S1 of the platen glass 16 and extends in the y-axis direction along the short side on the negative direction side in the x-axis direction. Exist. The light B reflected by the white reference plate 26 is reflected by the mirrors 29, 30, and 32 in the same manner as the light B reflected by the original P. The light B reflected by the white reference plate 26 is used, for example, to generate white reference data when reading the document P.

  The imaging lens 22 forms an optical image obtained by the light B on the image sensor 24. The imaging element 24 is a light receiving element that receives the light B emitted toward the lower surface S <b> 2 of the platen glass 16 and reflected by the original P or the light B reflected by the white reference plate 26. Specifically, the imaging device 24 has a one-dimensional imaging region extending in the y-axis direction, and is a CCD camera or the like that scans an optical image formed by the imaging lens 22 and reads an image of the original P. It is a line sensor.

  The control unit 40 is constituted by a CPU and controls the entire document reading apparatus 10.

  When the original P is read by the original reading apparatus 10 configured as described above, the light B emitted from the light source 27 and guided by the light guide 28 is irradiated to the original P and reflected by the original P. The light B is sequentially reflected by the mirrors 29, 30 and 32. Then, the light B reflected by the mirror 32 enters the imaging lens 22 and is imaged on the image sensor 24 by the imaging lens 22. The image sensor 24 performs photoelectric conversion for each pixel according to the intensity of incident light, thereby generating an image signal (RGB signal) corresponding to the document image, and outputs the image signal to the control unit 40.

  Incidentally, the document reading apparatus 10 is provided with a detection mechanism 42 (see FIG. 3) for determining the open / closed state of the document cover 14. Below, the detail of the detection mechanism 42 is demonstrated, referring drawings. FIG. 4 is an external perspective view of the detection member 44 of the detection mechanism 42.

  As shown in FIG. 3, the detection mechanism 42 includes a detection member 44 and a spring 46, and is provided so as not to overlap the platen glass 16 when viewed in plan from the z-axis direction. In the present embodiment, the detection mechanism 42 is provided so as to be positioned on the negative direction side in the y-axis direction with respect to the platen glass 16, as shown in FIGS. 3 (a) and 3 (b). Thereby, the detection mechanism 42 is provided on the side opposite to the user with respect to the light guide 28. As illustrated in FIG. 4, the detection member 44 includes a light shielding member 50 and a contact member 52. The light shielding member 50 is a rectangular plate-like member, and is provided between the light source 27 and the light guide 28. The light shielding member 50 is provided with a triangular hole H. The hole H has a shape in which the width in the x-axis direction becomes wider as it goes from the positive direction side in the z-axis direction to the negative direction side. The contact member 52 is a rod-shaped member that extends from the short side of the light shielding member 50 on the positive side in the z-axis direction toward the positive side in the z-axis direction.

  The spring 46 is in contact with the short side of the light shielding member 50 on the negative direction side in the z-axis direction and is in contact with the inner peripheral surface of the main body 12. Thereby, the spring 46 pushes the light shielding member 50 to the positive direction side in the z-axis direction. As a result, the tip of the contact member 52 on the positive side in the z-axis direction is in pressure contact with the document cover 14 as shown in FIG.

  In the detection mechanism 42 having the above-described configuration, the light shielding member 50 is in a closed state (FIG. 3A) when the light source 27 and the light guide 28 are at the standby position P1 (that is, in the state of FIG. 2). )), The amount of light incident on the light guide 28 from the light source 27 is different from the amount of light incident on the light guide 28 from the light source 27 in the open state (state shown in FIG. 3B). As described above, the light source 27 and the light guide 28 move in conjunction with the movement of the document cover 14. Specifically, when determining the open / close state of the document cover 14, the first slider 18 is moved to the standby position P1. In the closed state, the contact member 52 is pushed down to the negative side in the z-axis direction by the document cover 14. As a result, the light shielding member 50 moves to the negative side in the z-axis direction between the light source 27 and the light guide 28 as shown in FIGS. Interference with the light body 28 is blocked. Accordingly, the light B emitted from the light source 27 does not enter the light guide 28 and therefore does not enter the image sensor 24. Therefore, the control unit 40 determines that the amount of the light B incident on the image sensor 24 is 0 based on the output from the image sensor 24, and determines that the document cover 14 is in the closed state. judge.

  On the other hand, in the open state, since the document cover 14 is moved to the positive direction side in the z-axis direction, the light shielding member 50 is pushed up by the spring 46 to the positive direction side in the z-axis direction. As a result, the light shielding member 50 moves to the positive side in the z-axis direction between the light source 27 and the light guide 28 as shown in FIGS. 3B and 4A. Therefore, the hole H is positioned between the light source 27 and the light guide 28, and the light source 27 and the light guide 28 are not blocked. Therefore, the light B emitted from the light source 27 enters the light guide 28 and also enters the image sensor 24. Therefore, the control unit 40 determines that the amount of the light B incident on the image sensor 24 is not 0 based on the output from the image sensor 24, and determines that the document cover 14 is in the open state. To do.

  Further, the hole H of the light shielding member 50 has a triangular shape as shown in FIG. Therefore, as the light shielding member 50 moves to the negative direction side in the z-axis direction, the area where the light source 27 and the light guide 28 face each other decreases. Therefore, the amount of light B incident on the light guide 28 decreases as the light shielding member 50 moves to the negative side in the z-axis direction. That is, the amount of light B incident on the image sensor 24 decreases as the light shielding member 50 moves to the negative direction side in the z-axis direction. As described above, the light shielding member 50 moves between the light source 27 and the light guide 28 in conjunction with the rotation of the document cover 14, thereby reducing the amount of light incident on the light guide 28 from the light source 27. It has a changing structure. Therefore, the control unit 40 determines the amount of light B incident on the image sensor 24 based on the output from the image sensor 24, and the angle θ (FIG. 3) formed by the document cover 14 and the platen glass 16. (See (b)) can be determined.

(effect)
According to the document reading apparatus 10 described above, the open / close state of the document cover 14 can be determined without adding a new sensor. More specifically, in the document reading apparatus 10, the control unit 40 determines the open / close state of the document cover 14 based on the output from the image sensor 24. The image sensor 24 is a sensor used for reading the document P, and is naturally provided in the document reading apparatus 10. Therefore, the document reading apparatus 10 can determine the open / close state of the document cover 14 without adding a new sensor.

  Further, the document reading apparatus 10 can determine the open / close state of the document cover 14 even when a large document P is placed. More specifically, in the document reading device 10, the open / close state of the document cover 14 is determined by using the light B reflected by the white reference plate 26 provided at the end of the platen glass 16. Judgment is being made. Therefore, the document P is not positioned between the white reference plate 26 and the light guide 28. Therefore, even when a large document P is placed, the light B emitted from the light guide 28 is not prevented from entering the white reference plate 26. As a result, the document reading apparatus 10 can determine whether the document cover 14 is open or closed even when a large document P is placed.

  In the document reading device 10, the hole H of the light shielding member 50 has a triangular shape as shown in FIG. Therefore, as the light shielding member 50 moves to the negative direction side in the z-axis direction, the area where the light source 27 and the light guide 28 face each other decreases. Therefore, the amount of light B incident on the light guide 28 decreases as the light shielding member 50 moves to the negative side in the z-axis direction. That is, the amount of light B incident on the image sensor 24 decreases as the light shielding member 50 moves to the negative direction side in the z-axis direction. As described above, the light shielding member 50 moves between the light source 27 and the light guide 28 in conjunction with the rotation of the document cover 14, thereby reducing the amount of light incident on the light guide 28 from the light source 27. It has a changing structure. Therefore, the control unit 40 determines the amount of light B incident on the image sensor 24 based on the output from the image sensor 24, and the angle θ (FIG. 3) formed by the document cover 14 and the platen glass 16. (See (b)) can be determined.

  Further, in the document reading apparatus 10, the configuration of the detection mechanism 42 can be simplified. More specifically, when the light source 27 overlaps the platen glass 16, the light shielding member 50 is disposed so as to overlap the platen glass 16. In this case, a mechanism for connecting the light shielding member 50 and the contact member 52 is required to cause the contact member 52 to protrude from the main body 12 from a position that does not overlap the platen glass 16. Therefore, in the document reading apparatus 10, the light source 27 is provided so as not to overlap the platen glass 16. As a result, a mechanism for connecting the light shielding member 50 and the contact member 52 becomes unnecessary, and the contact member 52 can be directly attached to the light shielding member 50. As a result, the configuration of the detection mechanism 42 is simplified.

  In the document reading apparatus 10, the detection mechanism 42 can be reduced in size. More specifically, in the document reading apparatus 10, the detection mechanism 42 is provided on the side opposite to the user with respect to the light guide 28. That is, the detection mechanism 42 is provided so as to be positioned on the negative side in the y-axis direction with respect to the platen glass 16 as shown in FIGS. 3 (a) and 3 (b). As a result, the detection mechanism 42 is provided in the vicinity of the joint between the main body 12 and the document cover 14. Therefore, in the document reading apparatus 10, the contact member 52 can come into contact with the document cover 14 only by protruding slightly from the main body 12 toward the positive side in the z-axis direction. As a result, the contact member 52 can be shortened, and the detection mechanism 42 can be downsized.

(Modification)
As shown in FIG. 4, the detection member 44 has a triangular hole H. However, the detection member 44 is not limited to the structure shown in FIG. Hereinafter, a detection member 44 ′ according to a modification will be described with reference to FIG. FIG. 5 is an external perspective view of a detection member 44 ′ according to a modification.

  The detection member 44 and the detection member 44 ′ are different from each other in the configuration of the light shielding members 50 and 50 ′. Specifically, the light shielding member 50 ′ includes color filters 54Y, 54C, and 54M that transmit cyan, yellow, and magenta light. The color filters 54Y, 54C, 54M are arranged in this order from the positive direction side to the negative direction side in the z-axis direction. In the color filters 54Y, 54C, 54M through which the light B emitted from the light source 27 passes, the light shielding member 44 ′ moves between the light source 27 and the light guide 28 in conjunction with the rotation of the document cover 14. Can be switched.

  For example, when the light B is incident on the color filter 54Y by the detection member 44 ′ being pushed down to the negative side in the z-axis direction, the blue component of the light B is absorbed by the color filter 54Y and the red component of the light B And the green component is transmitted. Therefore, the blue component of the light B received by the image sensor 24 is greatly reduced. Therefore, the control unit 40 determines that the document cover 14 is in the closed state when the blue component of the light B received by the image sensor 24 is greatly reduced. Note that the control unit 40 can make the same determination for the other color filters 54C and 54M.

  As described above, the light shielding member 50 ′ is different in the color of light incident on the light guide 28 from the light source 27 in the open state and the color of light incident on the light guide 28 from the light source 27 in the closed state. As described above, the light source 27 and the light guide 28 may be moved in conjunction with the movement of the document cover 14. Accordingly, it is possible to determine the open / close state of the document cover 14 by analyzing the color component of the light received by the image sensor 24.

  In the document reading apparatus 10, the hole H provided in the light shielding member 50 has a width in the x-axis direction as it goes from the positive direction side in the z-axis direction to the negative direction side, as shown in FIG. It has a wide shape. However, the hole H may have a shape in which the width in the x-axis direction becomes narrower from the positive direction side in the z-axis direction to the negative direction side. As a result, when the user opens the document cover 14, the light is blocked by the light blocking member 50, so that the user does not feel dazzled.

  INDUSTRIAL APPLICABILITY The present invention is useful for a document reading apparatus, and in particular, can determine the open / close state of a document cover without adding a new sensor, and can determine the open / closed state of a document cover even when a large document is placed. Excellent in terms.

H hole P Document P1, P2 Standby position S1 Upper surface S2 Lower surface 10 Document reading device 12 Main body 14 Document cover 16 Platen glass 18 First slider 20 Second slider 22 Imaging lens 24 Imaging element 26 White reference plate 27 Light source 28 Light guide 29, 30, 32 Mirror 40 Control unit 42 Detection mechanism 44, 44 'Detection member 46 Spring 50, 50' Light shielding member 52 Contact member 54Y, 54M, 54C Color filter

Claims (6)

A transparent plate on which an original is placed;
A document cover capable of switching between a first state covering the upper surface of the transparent plate and a second state not covering the upper surface of the transparent plate;
A light source;
A light guide that emits light emitted by the light source toward the lower surface of the transparent plate;
When the original is being read, the light source and the light guide are moved along the lower surface of the transparent plate. When the original is not being read, the light source and the light guide are moved to a predetermined standby position. A moving means for waiting;
A reflective member that is provided on the transparent plate and reflects light emitted by the light guide at the standby position;
A light receiving element that receives light emitted toward the lower surface of the transparent plate and reflected by the original or reflected by the reflecting member;
When the light source and the light guide are in the standby position, the amount or color of light incident on the light guide from the light source in the second state, and the light source in the first state A light-shielding member that moves between the light source and the light guide in conjunction with the movement of the document cover so that the amount of light incident on the light guide or the color of the light is different from the light source,
Having
A document reading apparatus characterized by the above. A main body to which the transparent plate, the light source, the light guide, the moving means, the reflecting member, the light receiving element, and the light shielding member are attached,
In addition,
The document cover is rotatably attached to the main body, and the light shielding member is moved from the light source by moving between the light source and the light guide in conjunction with the rotation of the document cover. Having a structure in which the amount of light incident on the light guide changes;
The document reading device according to claim 1. A main body to which the transparent plate, the light source, the light guide, the moving means, the reflecting member, the light receiving element, and the light shielding member are attached,
In addition,
The document cover is rotatably attached to the main body, and the light shielding member has a plurality of types of color filters that transmit light of a specific color.
The color filter through which the light emitted from the light source passes is switched by the light shielding member moving between the light source and the light guide in conjunction with the rotation of the document cover.
The document reading device according to claim 1. Control means for determining the open / closed state of the document cover based on the output of the light receiving element,
More
The document reading device according to claim 1, wherein The light source and the light shielding member are provided on a side opposite to a user with respect to the light guide;
The document reading device according to claim 1, wherein The light source and the light-shielding member do not overlap the transparent plate when viewed from the normal direction of the transparent plate;
The document reading device according to claim 1, wherein

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