JP3570195B2 - Image reading device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image reading apparatus used in a copying machine, a scanner, and the like, and more particularly, to an image reading apparatus of a so-called CVT (Constant Velocity Transfer) system that reads an image data by moving a document.
[0002]
[Prior art]
2. Description of the Related Art In recent years, as disclosed in, for example, JP-A-7-193680, an image reading apparatus not only reads an original placed on a platen glass, but also moves an original to be read. There is widely known an apparatus capable of reading image data from the original, that is, reading by the so-called CVT method (hereinafter referred to as CVT reading).
[0003]
In an image reading apparatus that performs such CVT reading, as shown in FIG. 7, a document feed unit 31 that conveys a document from one side to the other side is provided at the top of the apparatus. At the time of CVT reading, the carriage 33 moving along the platen glass 32 is fixed at a predetermined position outside the area of the platen glass 32, and the document to be read is moved above the carriage 33 using the document feed unit 31. , The image data is obtained from the original.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional CVT image reading apparatus, since the document feed unit 31 is provided outside the area of the platen glass 32 corresponding to the fixed position of the carriage 33, the document feed direction by the document feed unit 31 Downstream, that is, downstream from the side end surface of the image reading apparatus in the document conveying direction, a space for discharging the read document is required. Therefore, in the conventional image reading apparatus, in order to realize the CVT reading, it is necessary to protrude the discharge tray 34 or the like downstream of the side end surface of the image reading apparatus in the document conveying direction, and as a result, a large amount of occupancy is required. It requires an area. In particular, when performing CVT reading on a large document such as an A3 size document, a large discharge tray 34 and the like are required, so that a larger occupation area is required.
[0005]
On the other hand, as shown in FIG. 8, for example, the document feed path in the document feed unit 41 is configured so that the document feed direction and the document discharge direction at the time of CVT reading are the same, It is also conceivable to achieve a reduction in emissions. However, in this case, the document feed path and the mechanical mechanism in the document feed unit 41 are complicated, which may lead to an increase in the size of the document feed unit 41 and an increase in apparatus cost.
[0006]
Therefore, the present invention effectively utilizes the space above the platen glass even if it is compatible with CVT reading, thereby reducing the area occupied by the apparatus without complicating the document transport path in the document feed unit. It is an object of the present invention to provide an image reading device capable of realizing reduction.
[0007]
[Means for Solving the Problems]
The present invention is an image reading device devised to achieve the above object, wherein a platen glass on which a document is placed, scanning means moving along the platen glass below the platen glass, and scanning Reading means for optically reading image data from a document on the platen glass via means, and a document feed unit provided above the area of the platen glass and transporting the document from one side to the other side When, A paper feed tray provided on one side of the document feed unit, and a discharge tray provided on the other side of the document feed unit, When the document feed unit conveys the document, the scanning unit is moved to a predetermined position corresponding to the position of the document feed unit, and the reading unit reads the document conveyed by the document feed unit. Scanning control means In addition, the document feed unit is provided only near a substantially central portion of the platen glass, and the paper feed tray and the paper discharge tray are provided above the platen glass. It is characterized by the following.
[0008]
According to the image reading device having the above configuration, the document feeding unit is located above the area of the platen glass, Only near the center of the platen glass It is provided in. And the document feed unit is on one side Paper tray From the other side Output tray The document is conveyed to the scanner, and at that time, the scanning control means moves the scanning means to a predetermined position.
Therefore, in this image reading apparatus, even when reading a document conveyed by the document feed unit, Paper feed tray for storing originals before scanning and output tray for storing originals after scanning Can be provided on both sides of the document feed unit, that is, above the platen glass. Input tray and output tray Does not protrude significantly from the side end surface of the image reading apparatus. In addition, since the document feed unit is for transporting the document from one side to the other side, the transport path and the like are not complicated.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an image reading apparatus according to the present invention will be described with reference to the drawings.
[0010]
[First Embodiment]
here, Of the first embodiment of the present invention. The image reading device will be described.
The image reading apparatus according to the present embodiment is used in a copier, a scanner, or the like, and reads an image drawn on a document from a sheet-shaped document as image data. It is possible. For this purpose, as shown in FIG. 1, the image reading apparatus according to the present embodiment includes a scanner unit 10, a CVT document feed unit 20, and a microprocessor (not shown) for controlling these operations. I have.
[0011]
The scanner unit 10 includes a platen glass 11, a full-rate carriage 12 that scans the lower surface of the document placed on the platen glass 11, a half-rate carriage 13 that scans at half the speed of the full-rate carriage 12, A lamp 14 for irradiating the original on the platen glass 11, a lens 15 for condensing the reflected light from the original, a CCD (Charge Coupled Device) sensor 16 for receiving the condensed reflected light and performing photoelectric conversion, and An image processing circuit (for example, an A / D converter or a shading correction circuit) 17 that processes a signal obtained by the conversion. The CCD sensor 16 may be a MOS (Metal Oxide Semiconductor) type sensor or the like.
[0012]
When an original is placed on the platen glass 11, the scanner unit 10 drives the full-rate carriage 12 and the half-rate carriage 13 along the platen glass 11 by driving a carriage drive motor (not shown), 11 is scanned. At this time, the reason why both the full rate carriage 12 and the half rate carriage 13 move is to make the optical path length from the document to the CCD sensor 16 constant. As a result of this scanning, the CCD sensor 16 reads image data from a document on the platen glass 11 via mirrors attached to the full rate carriage 12 and the half rate carriage 13.
[0013]
However, the scanner unit 10 can cope with not only reading of a document placed on the platen glass 11 but also CVT reading. In the case of CVT reading, as described in detail later, according to an instruction from a microprocessor, The full rate carriage 12 moves to a document reading position A which is a predetermined position. At this time, it is assumed that the half-rate carriage 13 moves together.
[0014]
Further, in the scanner unit 10, in the case of CVT reading, the lens 15 and the CCD sensor 16 are moved by a predetermined amount in the optical axis direction of the reflected light from the document by driving means such as a solenoid (not shown). With this movement, the focal position for reading by the CCD sensor 16 is changed by an amount corresponding to the movement amount.
[0015]
On the other hand, the CVT document feed unit 20 is for realizing CVT reading, is installed above the scanner unit 10, and includes a platen cover 21, a paper feed tray 22, a discharge tray 23, and a document feed unit 24. And The CVT document feed unit 20 is provided to be freely openable and closable with respect to the scanner unit 10 by a hinge described later in detail.
[0016]
The platen cover 21 is provided on the lower surface of the CVT document feed unit 20 so as to face the platen glass 11 so as to cover the upper surface of the platen glass 11. However, the platen cover 21 is provided with an opening 21 a at a position corresponding to the document reading position A in the scanner unit 10 in the main scanning direction of the scanner unit 10.
[0017]
The paper feed tray 22 is provided on one side of the document feed unit 24, and stacks documents to be subjected to CVT reading.
The discharge tray 23 is provided on the other side of the document feed unit 24, and discharges a document after CVT reading.
The paper feed tray 22 and the paper discharge tray 23 have extension members 22a and 23a whose lengths can be changed according to the document size. The extension members 22a and 23a are used in an expanded form.
[0018]
The document feed unit 24 is provided at a position corresponding to a substantially central portion in the area of the platen glass 11 and at a position corresponding to the document reading position A in the scanner unit 10. The set originals are sequentially fed out, conveyed while passing over the original reading position A at a constant speed, and discharged to the discharge tray 23.
[0019]
For this purpose, the document feed unit 24 is provided with a document transport path 24a for transporting the document from the paper feed tray 22 to the paper discharge tray 23. Further, on the document transport path 24a, a set gate 24b, A pickup roll 24c, a feed roll 24d, a retard roll 24e, a feed sensor 24f, a registration roll 24g, a discharge roll 24h, and a discharge sensor 24i are provided. As shown in FIG. 2, each of these rolls is driven by a motor 24m via a feed clutch 24j, a registration clutch 24k, a timing belt 241, and the like, and the original is conveyed by this drive.
[0020]
In FIG. 1, the document feed unit 24 has a position corresponding to the document reading position A in the scanner unit 10, that is, a position corresponding to the opening 21 a of the platen cover 21. A transparent member 24n capable of transmitting light is provided therebetween. This transparent member 24n is preferably formed of glass for the reason described below. The transparent member 24n is provided so that a slight gap is formed between the transparent member 24n and the platen glass 11 when the openable and closable CVT document feed unit 20 is closed. This is to prevent glass breakage due to impact when the CVT document feed unit 20 is closed.
Further, a back platen 24o is provided at a position opposed to the transparent member 24n with the document transport path 24a interposed therebetween.
[0021]
Here, an example of a processing operation when performing CVT reading in the image reading apparatus configured as described above will be described with reference to a timing chart of FIG.
[0022]
In this image reading apparatus, when a user sets an original to be read on the paper feed tray 22 with the surface to be read facing down and the leading end abutting against the set gate 24b, a sensor (not shown) Detect a document set. When the sensor detects the document set, the microprocessor of the image reading apparatus moves the full rate carriage 12 to the document reading position A on the assumption that the CVT reading is performed. Further, the microprocessor moves the lens 15 and the CCD sensor 16 by a predetermined amount, that is, the difference in the height direction between the upper surface of the platen glass 11 and the upper surface of the transparent member 24n, and changes the focal position for reading by the CCD sensor 16. With this movement, the focal position for reading by the CCD sensor 16 is changed from above the platen glass 11 to above the transparent member 24n of the document feed unit 24.
[0023]
When the user instructs the start of CVT reading with a start button on the operation panel or the like (Step 101, hereinafter, step is abbreviated as S), the microprocessor first sets the set gate 24b to a solenoid (not shown) so as not to obstruct the document conveyance. For example, the document is made to stand by outside the document transport path 24a. Subsequently, the motor 24m is started (S102), the feed clutch 24j is connected (S103), and the lowermost document on the sheet feed tray 22 is fed out by the pickup roll 24c in the document conveying direction. Then, the originals fed by the feed roll 24d and the retard roll 24e are separated one by one, and the originals are temporarily stopped with the originals abutting against the registration rolls 24g. More specifically, the connection of the feed clutch 24j is released after a predetermined time has passed since the feed sensor 24f located between the feed roll 24d and the registration roll 24g has detected the leading end of the document (S104) (S103). Stop with a loop. As a result, the leading edge of the original follows the nip of the registration roll 24g, so that the oblique feeding is corrected.
[0024]
Thereafter, the microprocessor causes the registration roller 24g to convey the original by engaging the registration clutch 24k after a predetermined time has elapsed (S105).
However, a transparent member 24n is provided between the platen glass 11 at a position corresponding to the document reading position A and the document transport path 24a. Therefore, the document conveyed by the registration roller 24g moves at a constant speed along the transparent member 24n on the document reading position A.
[0025]
At this time, the full rate carriage 12 of the scanner unit 10 is fixed at the document reading position A. Thereby, the reflected light from the document conveyed on the transparent member 24n enters the CCD sensor 16 via the mirrors attached to the full rate carriage 12 and the half rate carriage 13. That is, when the document moves on the transparent member 24n, the CCD sensor 16 performs the flow reading of the image data from the document.
Then, the document that has passed over the transparent member 24n is discharged onto the discharge tray 23 by the discharge roll 24h.
[0026]
Thereafter, the microprocessor reads all the documents on the paper feed tray 22 by repeatedly performing the above operation control (S106 to S108), and the rear end of the last document detects the discharge sensor 24i. After a certain period of time after the power is turned off (S109), the operation of the document feed unit 24 is stopped.
[0027]
As described above, the image reading apparatus according to the present embodiment performs CVT reading.
However, this In the image reading apparatus, the document feed unit 24 Is provided above the area of the platen glass 11, and the microprocessor moves the full-rate carriage 12 to the document reading position A during CVT reading. Therefore, even when CVT reading is performed, the sheet feeding tray 22 and the sheet discharging tray 23 do not significantly protrude from the side end surface of the image reading apparatus as in the related art.
[0028]
In particular, the document feed unit 24 Is positioned above and substantially near the center of the platen glass 11, the paper feed tray 22 and the paper discharge tray 23 to be provided on both sides thereof can be provided above the platen glass 11. The space above can be used effectively. Further, since the document feed unit 24 is for transporting a document from one side to the other side, the mechanisms such as the document transport path 24a and the rolls provided on the document transport path 24a are complicated. Therefore, there is no increase in the size of the document feed unit 24 and an increase in apparatus cost.
[0029]
Therefore, according to the image reading apparatus of the present embodiment, even if the image reading apparatus can cope with the CVT reading, the space above the platen glass 11 is effectively utilized, so that the document conveying path 24a and the like in the document feeding unit 24 can be used. The device occupation area can be reduced without increasing the complexity.
[0030]
In addition, in this image reading apparatus, since the document reading position A exists in the area of the platen glass 11, it is necessary to move the full rate carriage 12 out of the area of the platen glass 11 for CVT reading as in the related art. As a result, the size of the scanner unit 10 itself can be reduced. Further, the scanner unit 10 can cope with CVT reading only by a control change such as moving the full rate carriage 12 to the document reading position A, so that the same mechanism as the conventional one can be used as it is. .
[0031]
Specifically, in the image reading apparatus according to the present embodiment, for example, when a document of A4 size is conveyed in the horizontal direction, as shown in FIG. Assuming that the size of the paper discharge tray 23 is 200 mm, the occupied dimension in the width direction of the image reading apparatus is 530 mm, which is 270 mm occupied in the conventional example shown in FIG. 4B (occupied dimension is 800 mm). Size reduction can be realized. Similarly, even when an A3-size original is conveyed, as shown in FIG. 4C, by using the extended members 22a and 23a in an expanded form, the width of the image reading device can be increased. The occupied dimension in the direction is 860 mm, and the occupied dimension can be reduced by about 110 mm as compared with the conventional example (occupied dimension is 970 mm) as shown in FIG.
As described above, especially in the case of an A4 size document which is generally widely used, it is not necessary to extend the extension members 22a and 23a, so that no extra space is required outside the apparatus, and the document can be used in a very compact state. it can.
[0032]
Also, in the present embodiment, The image reading device is a platen glass 11 A transparent member 24n is provided between the document and the document transport path 24a (see FIG. 1). Thus, in this image reading apparatus, the document feed unit 24 can be installed above the platen glass 11 and near the center.
More specifically, in the CVT-type image reading apparatus, a mechanism for scooping the original from the moving surface of the original downstream of the original reading position A in the original transport direction in order to discharge the original after the CVT reading. And a discharge roll for holding the original from above and below. However, when the original to be read is moved on the upper surface of the platen glass 11 at the time of CVT reading, the original feed unit 24 is provided near the end of the platen glass 11 in order to provide a discharge roll, or In order to scoop up from the platen glass 11, a complicated mechanism such as suction of air must be introduced. Also, it is necessary to reduce the curvature of the document transport path. On the other hand, when the transparent member 24n is provided and the original is moved on the transparent member 24n, the transport position of the original moves upward in accordance with the thickness of the transparent member 24n. Even on the platen glass 11, the discharge roll 24h can be provided without difficulty. Therefore, if the transparent member 24n is provided, the document feed unit 24 can be installed above the platen glass 11 and in the vicinity of the substantially central portion without complicating the mechanism in the document feed unit 24 and the document transport path 24a. Will be able to
[0033]
Also, in the present embodiment, The image reading device has a transparent member 24n. Is formed of glass. Therefore, in this image reading apparatus, there is no possibility that reading image quality is degraded at the time of CVT reading.
This will be described in detail. For example, the transparent member 24n can be formed of a plastic plate or a plastic film as long as it can transmit light. Therefore, there is a possibility that the image quality is easily damaged, and as a result, the read image quality is deteriorated. In this case, in order to prevent the read image quality from deteriorating, the transparent member 24n must be replaced frequently, which significantly increases maintenance costs. In addition, since these materials are weak against heat, the deformation of the lamp 14 or the like due to heat is also considered. As a result, not only the read image quality is deteriorated but also the document feeding performance may be deteriorated. There is. In consideration of the above points, it can be said that the transparent member 24n is most preferably formed of glass having high surface hardness and excellent heat resistance.
[0034]
Also, in the present embodiment, The image reading device is used when reading CVT The microprocessor changes the focal position for reading by the CCD sensor 16 from the platen glass 11 to the transparent member 24n. Therefore, even when the document feed unit 24 is installed above the platen glass 11 and in the vicinity of the substantially central portion and the transparent member 24n is provided between the platen glass 11 and the document transport path 24a, Since CVT reading can be performed at an accurate focal position, the reading image quality is not reduced as a result.
In the present embodiment, the case where the focal position is changed by moving the position of the lens 15 and the CCD sensor 16 has been described as an example. However, for example, the optical path length is changed by moving the half-rate carriage 13 or other methods. The same effect can be obtained even if the focal position is changed.
[0035]
Also, in the present embodiment, The image reading device includes a CVT document feeder 20. Have a platen cover 21 and a document feed unit 24. That is, the document feed unit 24 is provided integrally with the platen cover 21 that covers the upper surface of the platen glass 11 so that it can be opened and closed. Therefore, in this image reading apparatus, even if the document feed unit 24 is installed above the platen glass 11 and near the center, the entire CVT document feed unit 20 is opened and closed to place the document feed unit 24 on the platen glass 11. It is also possible to easily cope with the reading of the original. Further, by integrating them, even if the entire CVT document feed unit 20 can be freely opened and closed, it is easy and reliable to secure the accuracy of the mechanical mechanism in the document feed unit 24.
[0036]
Here, the opening and closing of the entire CVT document feed unit 20 in the image reading apparatus of the present embodiment will be described. As described above, the CVT document feed unit 20 is provided to be freely openable and closable with respect to the scanner unit 10 by a hinge.
[0037]
By the way, as shown in FIG. 5B, these hinges are usually provided at only two places to reduce the number of parts and the number of assembling steps, and the span is as wide as possible in consideration of the weight balance of the platen cover and the like. It is provided in.
However, in the image reading apparatus according to the present embodiment, the weight of the CVT document feed unit 20 is concentrated at the center since the document feed unit 24 is installed near the substantially center of the platen glass 11. Therefore, at the hinge position as described above, even if the weight is balanced, when the entire CVT document feed unit 20 is opened, there is a possibility that bending occurs near the center of the CVT document feed unit 20 (in the figure). State as indicated by the broken line). This not only impairs the appearance of the appearance, but also may cause a problem that it is difficult to open and close in terms of operability. Further, since unnecessary force is always applied to each member constituting the CVT document feeder 20, there is a risk of plastic deformation and breakage due to the creep phenomenon.
[0038]
Therefore, in this embodiment, In the image reading apparatus, the CVT document feeder 20 As shown in FIG. 5A, hinges 20a for opening and closing the whole are provided near both sides of the portion where the weight is concentrated, that is, near the installation position of the document feed unit 24. Thus, in this image reading apparatus, even when the document feed unit 24 is installed near the center of the platen glass 11, when the entire CVT document feed unit 20 is opened, deflection occurs near the center. This makes it possible to solve the above-mentioned disadvantages.
[0039]
[Second embodiment]
next, Of the second embodiment of the present invention. The image reading device will be described. However, here, the same reference numerals are given to the same components as those in the above-described first embodiment, and description thereof will be omitted.
[0040]
The image reading apparatus according to the present embodiment includes an upper surface reading optical system 25 in a document feed unit 24, as shown in FIG. 6, in addition to the case of the above-described first embodiment. is there.
[0041]
The upper surface reading optical system 25 is for reading the surface opposite to the surface read by the CCD sensor 16 of the scanner unit 10, that is, the upper surface of the document. For this purpose, the upper surface reading optical system 25 includes a lamp 25a for irradiating the upper surface side of the original conveyed by the original feed unit 24, a plurality of mirrors 25b to 25d for changing the optical axis direction of the reflected light from the original, and an original. And a CCD sensor 25f that receives the collected reflected light and performs photoelectric conversion. The reason for having the plurality of mirrors 25b to 25d is to secure the optical path length of the reflected light. The signal obtained by the photoelectric conversion by the CCD sensor 25f is sent to the image processing circuit 17 of the scanner unit 10. Further, a back platen 25g is provided at a position opposed to the irradiation position of the lamp 25a across the document transport path 24a.
[0042]
However, in the upper surface reading optical system 25, the lamp 25a and the back platen 25g are provided upstream of the document reading position A, which is the reading position of the scanner unit 10 by the CCD sensor 16, in the document transport direction. That is, the upper surface reading optical system 25 reads the upper surface of the document conveyed by the document feed unit 24 at the upper surface reading position B upstream of the document reading position A in the document conveying direction.
[0043]
At the upper surface reading position B, the document transport path 24 a is not parallel to the platen glass 11, but is inclined with respect to the platen glass 11. Therefore, in the upper surface reading optical system 25, the lamp 25a, the mirrors 25b to 25d, and the back platen 25g are installed in a state in which the inclination is adjusted to the original conveying path 24a.
[0044]
Note that the upper surface reading optical system 25 is not a reduction optical system in which the CCD sensor 25f receives an optical image via the mirrors 25b to 25d and the lens 25e. For example, the CCD sensor is lined over the entire surface in the main scanning direction. It may be of a close contact sensor type arranged in a shape. The CCD sensor 25f may be a MOS-type sensor or the like, like the CCD sensor 16 of the scanner unit 10.
[0045]
Further, in the document feed unit 24, a unit opening / closing fulcrum 24p is provided near one end thereof, specifically, near a downstream end in the document transport direction. The unit opening / closing fulcrum 24p is for opening and closing the upper portion of the document feed unit 24 in the direction C in the drawing with respect to the document transport path 24a.
The upper surface reading optical system 25 is provided at an upper portion of the document feed unit 24 which can be opened and closed by a unit opening / closing fulcrum 24p. Among them, the CCD sensor 25f is located near the unit opening / closing fulcrum 24p for a reason described later. It is assumed that
[0046]
Here, a description will be given of a processing operation example when performing CVT reading in the image reading apparatus configured as described above. However, here, only differences from the first embodiment will be described.
[0047]
After the originals set on the paper feed tray 22 are separated one by one by the feed roll 24d and the retard roll 24e, and then conveyed into the original conveying path 24a by the registration roll 24g, the originals are moved to the upper surface reading position. B moves at a constant speed along the document transport path 24a. At this time, the upper surface reading optical system 25 irradiates the lamp 25a, photoelectrically converts the reflected light obtained by the irradiation with the CCD sensor 25f, and reads the upper surface side of the original conveyed at the upper surface reading position B. . That is, the document to be conveyed is firstly read on its upper surface side in the middle of a document conveying path 24a formed obliquely from the registration roll 24g toward the transparent member 24n.
[0048]
Next, the document that has passed the upper surface reading position B moves at a constant speed along the transparent member 24n from the document reading position A. Then, at the document reading position A, the lower surface side of the conveyed document is read by the CCD sensor 16 of the scanner unit 10. That is, the conveyed document is read on the lower surface side on the transparent member 24n.
[0049]
Therefore, in this image reading apparatus, when CVT reading is performed, reading of both sides of the conveyed document is performed in a substantially simultaneous manner. Each of the reading results is electrically corrected / converted by the image processing circuit 17, temporarily stored in a memory or the like (not shown) in the image reading device, and then stored in an image forming apparatus or the like in the copying machine according to an appropriate method. Output to external device.
[0050]
As described above, in the present embodiment, The image reading device includes a document feed unit 24 Since the upper surface reading optical system 25 is provided inside the scanner, the reading of both sides of the document can be performed substantially simultaneously in a single transport at the time of CVT reading. As a result, in this image reading apparatus, it is possible to reduce the area occupied by the apparatus and to perform a quick reading process. Further, the document transport path 24a does not become complicated due to double-sided reading of the document. Therefore, according to this image reading apparatus, it is easy to achieve downsizing of the apparatus and high-speed processing. It is needless to say that even if the upper surface reading optical system 25 is provided in the document feed unit 24, reading of only one of the surfaces of the document is possible.
[0051]
Also, in the present embodiment, The image reading device includes a document feed unit 24 A unit opening / closing fulcrum 24p is provided near one end of the inside, and a part of the document feed unit 24 opens and closes with the unit opening / closing fulcrum 24p as a boundary with the document transport path 24a. Therefore, even if it is necessary to perform maintenance of each roll on the document transport path 24a, or to remove a document in which a jam has occurred, these can be easily performed by opening a part of the document feed unit 24. This is very convenient for users and maintenance personnel.
[0052]
Also, in the present embodiment, The image reading device includes an upper surface reading optical system 25. Is located in the vicinity of the unit opening / closing fulcrum 24p. This is because the distance between the CCD sensor 25f and the unit opening / closing fulcrum 24p is made as small as possible, so that the CCD sensor 25f is not affected by adverse effects such as vibrations and shocks caused by opening / closing. This is to ensure the positional accuracy of the periphery. As a result, in the image reading apparatus, even when a part of the document feed unit 24 can be freely opened and closed, it is possible to read the upper surface of the document with high accuracy and high image quality.
[0053]
Also, in the present embodiment, The image reading device has the upper surface reading position B Are located upstream of the document reading position A in the document transport direction. This is for the following reason. The document feed unit 24 requires a longer transport path length on the paper feed side than on the paper discharge side in order to separate the documents to be transported one by one or to correct skew feed. In consideration of this point, the upper surface reading position B is positioned on the sheet feeding side, that is, upstream of the document reading position A, and the space in the document feed unit 24 is effectively used. Even when the upper surface reading optical system 25 is provided in the document feed unit 24, it is possible to prevent the document feed unit 24 from becoming unnecessarily large.
[0054]
Also, in the present embodiment, The image reading device is a platen glass 11 The upper surface reading position B is located at a position inclined with respect to. That is, even if the document transport path 24a is not parallel to the platen glass 11, the reading by the upper surface reading optical system 25 can be performed. Therefore, it is possible to prevent the document feed path 24a from becoming unnecessarily long, and to prevent the document feed unit 24 from being enlarged by effectively utilizing the space, as in the case described above.
[0055]
As described above, in the image reading apparatus of the present embodiment, by preventing the size of the document feed unit 24 from increasing, the occupation area of the entire image reading apparatus is further reduced.
[0056]
In the first and second embodiments described above, that is, in the examples shown in FIGS. 1, 4, and 6, the reading (scanning) direction of the scanner unit 10 is from left to right in the figure, and the original is fed by the original feed unit 24. The case where the transport direction is from right to left in the drawing (that is, the reading direction of the document is from left to right in the drawing) has been described. However, the present invention is not limited to this. Both or one of the directions may be changed.
[0057]
【The invention's effect】
As described above, in the image reading apparatus of the present invention, the document feed unit is located above the platen glass. Only near the center of the platen glass The scanning control unit moves the scanning unit to a predetermined position when the document feeding unit conveys the document from one side to the other side.
Therefore, in this image reading apparatus, even when reading a document conveyed by the document feed unit, the document should be provided on both sides of the document feed unit. Input tray and output tray Can be provided above the platen glass, Input tray and output tray Does not protrude significantly from the side end surface of the image reading apparatus. In addition, since the document feed unit transports the document from one side to the other side, the document transport path and the mechanism for transport are not complicated, and the size of the document feed unit is increased. It does not lead to an increase in cost or equipment cost.
In other words, according to this image reading apparatus, even in the case of CVT reading, by effectively utilizing the space above the platen glass, the document feed unit in the document feed unit does not become complicated. Thus, it is possible to reduce the area occupied by the device.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing a first embodiment of an image reading apparatus according to the present invention.
FIG. 2 is an explanatory diagram illustrating a main configuration of a document feeding unit.
FIG. 3 is a timing chart illustrating an example of a processing operation in a document feed unit when reading is performed by a CVT method.
4A and 4B are explanatory diagrams illustrating a specific example of an occupied dimension in the width direction of the image reading apparatus, wherein FIG. 4A is a diagram illustrating a case where an A4 size document is conveyed laterally, and FIG. 4B is an A4 size document; FIG. 3C is a diagram showing a conventional example in which an A3-size document is conveyed. FIG. 4D is a diagram showing a conventional example in which an A3-size document is conveyed. .
FIGS. 5A and 5B are perspective views showing an open / close state of a CVT document feed unit, wherein FIG. 5A shows a case where a hinge position is near an installation position of a document feed unit, and FIG. FIG. 6 is a diagram showing a case where the position is near both ends of FIG.
FIG. 6 is a schematic configuration diagram showing a second embodiment of the image reading apparatus according to the present invention.
FIG. 7 is a schematic configuration diagram showing an example of a conventional CVT-compatible image reading apparatus.
FIG. 8 is a schematic configuration diagram showing another example of a conventional image reading apparatus compatible with the CVT method.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Scanner part, 11 ... Platen glass, 12 ... Full rate carriage, 13 ... Half rate carriage, 14 ... Lamp, 15 ... Lens, 16 ... CCD sensor, 20 ... CVT original feeding part, 20a ... Hinge, 21 ... Platen cover, Reference numeral 21a: opening, 22: paper feed tray, 23: discharge tray, 24: document feed unit, 24a: document transport path, 24n: transparent member, 24p: unit opening / closing fulcrum, 25: upper surface reading optical system, 25f: CCD Sensor

Claims (11)

A platen glass on which the original is placed,
Scanning means for moving along the platen glass below the platen glass;
Reading means for optically reading image data from a document on the platen glass via the scanning means,
A document feed unit that is provided above the area of the platen glass and conveys a document from one side to the other side;
A paper feed tray provided on one side of the document feed unit,
A discharge tray provided on the other side of the document feed unit;
When the document feed unit conveys the document, the scanning unit is moved to a predetermined position corresponding to the position of the document feed unit, and the reading unit reads the document conveyed by the document feed unit. Scanning control means ,
The document feed unit is provided only near a substantially central portion of the platen glass,
An image reading apparatus, wherein the paper feed tray and the paper discharge tray are provided above the platen glass . 2. The image reading apparatus according to claim 1 , wherein a transparent member is provided between the platen glass and a document conveying path of the document feeding unit. The image reading device according to claim 2 , wherein the transparent member is formed of glass. Focus correction means for changing the focal position of reading by the reading means is provided,
The image according to claim 2 , wherein the focus correction unit changes the focus position from on the platen glass to on the transparent member when the scanning unit moves to a predetermined position. Reader. 5. The image reading apparatus according to claim 1 , wherein the document feed unit is provided integrally with a platen cover that covers an upper surface of the platen glass so as to be openable and closable. 6. The image reading apparatus according to claim 5, wherein a hinge for opening and closing the platen cover is provided near an installation position of the document feed unit. 5. An apparatus according to claim 1, wherein said document feed unit includes an upper reading means for optically reading image data from an upper surface of a document conveyed by said document feed unit . 7. The image reading device according to 5 or 6 . The document feeding unit, an image reading apparatus according to claim 3, 4, 5, 6 or 7 further characterized in that a portion of which is constituted openably. When the upper reading unit is a reduction image forming system, a reading sensor on which an optical image obtained from the upper surface side of the upper reading unit original is formed makes a part of the original feed unit openable and closable. 9. The image reading apparatus according to claim 8 , wherein the image reading apparatus is provided near a fulcrum. 10. The image according to claim 7 , wherein a reading position of the document by the upper reading unit is upstream of a reading position of the document by the reading unit in a document conveying direction by the document feeding unit. Reader. 11. The reading device according to claim 7 , wherein the upper reading unit reads the document at a position where a conveyance path of the document is inclined with respect to the platen glass. Image reading device.

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