JP2520676Y2 - Image reader - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to an image reading apparatus, which includes means for fixing a document and reading image information, and means for moving the document in the sub-scanning direction to read image information. The present invention relates to a provided image reading device.

(Prior Art) In recent years, various functions have been added to an image reading apparatus in order to improve the operability of an operator. One example is the automatic document feeder function called ADF (Auto Document Feeder). An image reading apparatus having an automatic document feeding function has a mechanism for automatically feeding and discharging a document to a reading unit, and is capable of automatically reading the documents one by one sequentially.

In general, an image reading apparatus reflects the light projected from the light source on the original by the original surface and reflects the reflected light on a CCD (Charge Coupled Decode).
Image information is read by photoelectric conversion with a line image sensor such as vice).

Therefore, scanning for sequentially reading the contents of the original is required, and the method includes main scanning and sub-scanning as shown in FIG. The main scanning is performed by electrically driving a line image sensor such as a CCD, and the information read from left to right in the figure is converted into a time-series signal for one line.
That is, as shown in FIG. 8, the optical information from the original is photoelectrically converted by the CCD element corresponding to the number of pixels, and time-series voltage signals corresponding to the respective array numbers are output.

On the other hand, the sub-scan is performed by mechanical drive, and the method is roughly classified into the following two types.

One is a method of scanning a document set on a document table by moving a light source, a mirror or the like in the sub-scanning direction and moving light projected from the light source onto the document in the sub-scanning direction.
The other one is a method in which an ADF scans a document by feeding only a predetermined number of lines of the document to a reading unit facing a light source. Here, for convenience, the former will be referred to as a set original reading method, and the latter will be referred to as an automatic feeding and reading method. The set original reading method further includes a method of setting the original on the original table by an operator and a method of feeding the original to the original table by ADF and setting the original.

Therefore, conventionally, there were the following two types of ADF. That is, the first ADF is placed on the document table of the ADF arranged above the document table of the image reading apparatus so that the feeding direction of the document and the upper part of the document are aligned with each other, and the document is turned upside down and set. The document is fed from the top in the scanning direction shown in FIG. The document whose image information has been read by the reading unit is discharged to a document tray provided on the side of the image reading device.

The second ADF is placed on the document table of the ADF arranged above the document table of the image reading device so that the feeding direction of the document and the lower part of the document are aligned with each other, and the surface of the document is faced up. A document is fed to a document table of the apparatus and image information is read by a set document reading method.

However, in the first ADF, since the original is set upside down, the original cannot be confirmed, and the original tray for ejecting the original must be provided on the side of the image reading device. There is a problem that a large installation place is required for installing the image reading device.

In the second ADF, the original can be set face up, but it is difficult to check the original because it is upside down. Also, since the ADF sets the original on the original table of the image reading device and scans it, There is a problem that the ADF becomes large and the number of parts is large and the cost becomes high. Further, in the second ADF, there is a problem that it takes a long time to set the document and complete the reading because the document is scanned after being set on the document table of the image reading apparatus.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to reduce the size of the apparatus and simplify the operation, although both the set document reading and the automatic feeding reading can be performed.

In order to achieve the above object, the present invention receives reflected light of a light projected on a document from a light source, electrically scans the document image in the main scanning direction, and photoelectrically converts the document image. To a sub-scanning direction, a manuscript table on which a manuscript is set and has a reading area larger than the manuscript size, a manuscript table on which the manuscript is set and is arranged above the manuscript stand, and the manuscript is discharged. A document tray is provided below the document table and above the document table, and has a reading area for a predetermined number of lines of the document and is provided closer to the home position than the document table. Reading unit,
An automatic document feeder that reverses the document set on the document table and feeds the document to the reading unit, and discharges the document from the reading unit to the document tray; and whether the document is set on the document table or the document table. When it is determined that a document is set on the document table, the reading unit is moved in the sub-scanning direction in the reading area of the document table according to the document set determining means for determining whether the document is set or not. When the original is determined to be set on the original table by moving the original, the reading unit is positioned within the reading area of the reading unit and is fed by the automatic original feeding unit. Control unit for controlling to read the original image of the original document and for mirror-finishing the original image read by the reading unit in the main scanning direction. Is shall.

 Hereinafter, the present invention will be specifically described based on embodiments.

1 to 6 are views showing an embodiment of the present invention,
It is applied to an image scanner.

In FIG. 1, reference numeral 1 denotes an image scanner. The image scanner 1 is a main body 2 and an ADF (Auto Docu
mento Feeder) 3 and.

As shown in FIG. 2, the main body 2 has a control circuit 4, a reading unit 5, and the like therein, and an original table 6 is provided above the main body 2.
And a reading unit 7. The document table 6 is formed by closing a large opening 8 formed in the upper part of the main body 2 from below with a glass plate 9, and has an area slightly larger than the maximum readable document size. The reading unit 7 is formed by closing the opening 10 formed in the upper portion of the main body 2 in the width direction of the document by closing the glass plate 9 from below, and the length of the opening 10 in the document width direction is readable. It is slightly longer than the maximum document width, and the length of the opening 10 in the document length direction is such that at least one line faces. This reading unit 7
Is provided at the position of the mechanism table 33 side of the document table 9.

The reading means 5 includes a light source 11, mirrors 12, 13, and 14, a condenser lens 15, a line image sensor 16, carriages 17a and 17b shown in FIG. 3, a drive motor 18, and the like. The image information of the document 19 located at 7 is read. As the light source 11, as shown in FIG. 3, a fluorescent lamp is used, and irradiates light on the entire line of the original document 19.
The light emitted from the light source 11 to the original 19 is reflected by the surface of the original 19 and introduced into the condenser lens 15 by the mirrors 12, 13, and 14. The light introduced into the condenser lens 15 is condensed on the line image sensor 16 and photoelectrically converted by the line image sensor 16. The line image sensor 16 is a CCD (Charge Coup
It has a photoelectric device such as a led device) and converts incident light into an electric signal.

The light source 11 and the mirror 12 are the first carriage shown in FIG.
The mirror 13 and the mirror 14 are mounted on the second carriage 17b. One ends of the carriage 17a and the carriage 17b are slidably supported by the guide plate 20, and the other ends thereof are a guide rod.
21 slidably supported. The guide plate 20 and the guide rod 21 extend in the front-rear direction of the image scanner 1 and are arranged in parallel, and the carriages 17a and 17b are guided by the guide plate 20 and the guide rod 21 to move in the front-rear direction of the image scanner 1. To do. Wires 22 are attached to the carriage 17a and the carriage 17b,
The wire 22 is driven by the drive motor 18 via various pulleys 23. The carriages 17a and 17b are driven by the drive motor 18, and move on the guide plate 20 and the guide rod 21 in the front-back direction (sub-scanning direction) of the image scanner 1. When the carriage 17b moves to the front side of the image scanner 1 (rightward in FIG. 3), the carriage 17b moves behind the carriage 17a with a gradual delay from the carriage 17a.
The amount of delay with respect to 7a increases as the image scanner 1 moves forward. The maximum amount of movement of the carriage 17b toward the front side of the image scanner 1 is about half that of the carriage 17a.

The ADF3 includes a document table 31, a document tray 32, and a mechanical section.
Has 33. The ADF3 is secondly attached to the main body 2 in the mechanical section 33.
It is attached so as to be rotatable in the direction of the arrow in the figure, and the document tray 32 opens and closes the document table 6 by rotating it. That is, the document tray 32 is set on the document table 6 and the document 19 is set.
Is pressed against the glass plate 9 and also functions as a pressure plate. As shown in FIG.
Is provided with a pair of guide plates 34 arranged in the width direction of
The guide plate 34 can be moved in the width direction of the document 19 according to the size of the document 19. Document tray 32 is the document table
The document 19 placed below the document table 31 and set on the document table 31 is discharged to the document tray 32 through the mechanism section 33. The mechanical unit 33 includes a paper feed roller 35, a separation roller 36, a feed roller 37, a platen 38, a discharge roller 39, a pressure plate 40, and a guide plate.
41 and a stepper motor 42 are provided. Manuscript table
The original document 19 set in 31 is pressed against the paper feed roller 35 by the pressure plate 40, separated one by one by the separation roller 36, and fed by the paper feed roller 35. The document 19 fed by the paper feed roller 35 is guided by the guide plate 41 while being fed by the feed roller.
It is sent to the reading unit 7 by 37 and brought into close contact with the glass plate 9 of the reading unit 7 by the platen roller 38. The reading unit 7 irradiates the original 19 with light from the light source 11 to read image information. At this time, the document 19 is fed by 1/4 line,
The image information of the document 19 is read by the reading means 5 line by line. The document 19 is further guided to the guide plate 41 and discharged to the document tray 32 by the discharge roller 39. The rollers 35, 36, 37, 38, 39 are driven by a stepper motor 42, and the stepper motor 42 is controlled by the control circuit 4.

As shown in FIG. 4, the control circuit 4 includes a video signal processing means 51, a data processing means 52, and a shading correction RAM 5
3, background detection unit 54, external RAM55 of data processing means 52, external ROM56, ROM57, CPU58, timer 5 of data processing means 52
9, equipped with RAM60, I / O61 and motor driver 62,
The control circuit 4 is connected to a host machine such as a host computer via an interface unit 63. The control circuit 4 constitutes a control means.

The video signal from the reading unit 5 is input to the video signal processing unit 51, and the reading unit 5 amplifies the image information photoelectrically converted by the line image sensor 16 by the amplifier 5a, and then the video information via the coupling capacitor 5b. The signal is output to the video signal processing means 51. Video signal processing means
Reference numeral 51 denotes conversion of an analog signal input from the reading means 5 into a 4-bit digital signal, generation of timing of the line image sensor 16, generation of main scanning timing and shading correction RAM 53, and detection of a background level together with a background detection unit 54. The shading distortion is corrected, and the shading correction is performed based on the reference white level data for shading correction stored in advance in the shading correction RAM 53, as described later.

As shown in FIG. 5, the data processing means 52 includes a density conversion section 71, an image data processing section 72, a register section 73, a buffer management section 74, a bus timing generator 75 and a clock generator 76. 52 includes
RO that stores the density conversion data, as shown in Fig. 4.
M56 and RAM55 for output data buffer are externally attached.

The density conversion unit 71 is a ROM address generator 81 for generating an address of the external ROM 56, and an ALU (Arithmetic and Logic Unit) 82 for subtracting two data obtained by accessing the ROM address generator 81, Have
Density conversion in the main scanning direction is performed.

The image data processing unit 72 presets the data density-converted by the density converting unit 71 or the 4-bit digital signal (ID _{7 to} ID ₄ ) A / D converted (analog / digital converted) by the video signal processing unit 51. A binary block 83 for comparing with a threshold value or dither, a multi-value block 84 for packing (PACK) and unpacking (UNPACK) multi-valued data
It also has a data selector 85 and generates data for writing to the external RAM 55.

The register unit 73 is a data register 86 that holds data from the external RAM 55, and a status register that indicates an internal state.
87, a parameter register 88 indicating a start address or an end address in sampling, a mode register 89 for storing the mode setting and a buffer 90, and the control circuit 4
It exchanges data with the system bus.

The buffer management unit 74 has a RAM address generator 91 that generates a read address and a write address to the external RAM 55, and a buffer management block 92 that manages the empty state of the external RAM 55, and writes to the external RAM 55. And read control.

The bus timing generator 75 establishes a handshake control line with an external system and performs DMA (direct memory access) transfer or 1-byte transfer.

The clock generator 76 uses the main clock signal (MC
Clocks having various kinds of phase delays (Various Clocks) are generated from an ELCK signal obtained by dividing K) by 1/4 and supplied to each unit 71 to 75.

In FIG. 4, a control program of the image scanner 1 is stored in the ROM 57, and the CPU 58 controls the operation of each part according to this program. The timer 59 generates a timing signal necessary for the operation of the image scanner 1, and the RAM 60 temporarily stores various data such as the data processed by the data processing means 52.

Signals from the ADF opening / closing sensor 101, the paper detection sensor 102, the home position sensor 103, and the density switching switch 104a of the operation unit 104 are input to the I / O 61, and the motor driver 62 and the motor driver 62 are input from the I / O 61. A control signal is output to the driver 105.

As shown in FIG. 2, the ADF opening / closing sensor 101 is a micro switch attached to a support plate 101a facing the main body 2 of the mechanical portion 33 of the ADF 3, and has an arm extending in the main body 2 direction.

The ADF open / close sensor 101 is turned on / off by opening / closing the ADF 3, and outputs this ON / OFF signal to the control circuit 4.

The paper detection sensor 102 is an optical sensor provided near the pressure plate 40 of the ADF 3 as shown in FIG.
It is detected whether or not the document 19 is set on the top.

As shown in FIG. 2, the home position sensor 103 is an optical sensor mounted inside the main body 2 and detects that the carriage 17a is at the home position.

The density switching switch 104a is provided on the operation panel 2a as shown in FIG. 1, and the read density is switched by the operation of the operator.

The motor driver 62 controls the drive of the drive motor 18 and the stepper motor 42 based on the control signal.

The motor driver 105 blinks the light source 11 based on the signal from the control circuit 4.

Further, as shown in FIG. 2, the image scanner 1 is provided with a manuscript support plate 111 between the opening 8 and the opening 10 on the upper part of the main body 2, and the manuscript support plate 111 is provided with a sixth plate.
As shown in the figure, a shading point SP and an origin mark GM are provided on the surface facing the guide plate 9.
The shading point SP is provided with white as a reference for shading correction, and it advances to the front side of the image scanner 1 by a predetermined distance (for example, 6.5 mm) X1 from the home position HP detected by the home position sensor 103. It is provided in the position. The origin mark GM is a predetermined distance (eg, 4m from the shading point SP).
m) It is provided at a position advanced to the front side of the image scanner 1 by X ₂ and is a reference position for mechanical dimensions. The origin mark GM is determined as the position of the front side end of the black mark BM provided in front of it over a predetermined distance. A position advanced by a predetermined distance (for example, 3 mm) X ₃ from the origin mark GM is a reading start position BS, that is, a scanning start position on the document table 6, and a predetermined distance from the origin mark GM toward the rear side (for example, a scan start position). , 9.5 mm) X ₄ is the reading position SR of the reading unit 7 at the position retracted.

The original document set on the document table 6 is mounted on the carriage 17a and the carriage 17b, and is mounted on the light source 11, the mirrors 12, 13, and 14.
Moves from the reading start position BS to the front side of the image scanner 1 and is scanned in the main scanning direction and the sub-main scanning direction. At this time, the main scanning direction is a direction in which the document is scanned from the left to the right when the document is viewed from the light source 11. Therefore, when the original is set on the original table 6 with the upper portion of the original aligned with the reading position SR, the reading means 5 scans the original top row from the left to the right as shown in FIG. Sub-scanning is performed toward the lower end row of the document.

On the other hand, the document 19 sent to the reading unit 7 by the ADF3
Is the same as the main scanning direction of the original set on the original table 6, that is, the main scanning is performed from the light source 11 in the left to right direction when the original 19 is viewed, and the first row to the last row of the fed original. The sub-scanning is sequentially performed toward.

The image information read by the reading means 5 is signal-processed by the control circuit 4 and then sent to a host machine (not shown) through the interface section 63 to be displayed on a display or the like.

 Next, the operation will be described.

Generally, when image information read by an image reading device such as an image scanner is displayed on a host machine such as a host computer and displayed as processing data, it is important how the image reading device scans a document. It becomes a problem. That is, for example, as shown by an arrow in FIG. 7, an original top line of the original is main-scanned from left to right, and sub-scanning is performed from the upper top line of the original to the lower end line. When data is sent to the host machine according to the scanning order, the host machine scans and displays an image on the display according to the scanning order of the image reading device. Therefore, when scanning is performed from the lower part of the document by the image reading device, a vertically inverted image is displayed on the display of the host machine. As a result, it is necessary for the host machine to know the scanning procedure of the image reading apparatus in advance and perform the data processing corresponding to it, or to set a certain limit on the setting of the original document on the image reading apparatus. Furthermore, the problem that corresponds to the document scanning procedure by this image reading device is the ADF.
When the ADF is installed, this also occurs when the scanning direction for the document when feeding and scanning the document with the ADF is different from the scanning direction for the document when the document is set on the platen and scanned. .

In a conventional image reading device, when a document is set on a document table, the document is set so that it is scanned from the upper first line of the document, and when the document is fed to the reading unit by ADF, the document is read from the upper first line of the document. The manuscript was being sent to be sent to.

That is, in the conventional image reading apparatus, the original is turned over and set on the original table of the ADF, the original is fed to the reading unit from the upper side of the original, and the upper first line of the original is scanned. The original from which the image information was read was discharged to the original tray attached to the rear side surface of the image reading apparatus. As a result, the document tray has a shape protruding to the side from the main body of the image reading device, and the installation area of the image reading device is large.

However, in the image scanner 1 of the present embodiment, the document tray 32 is arranged below the document table 31,
The document table 31 and the document tray 32 are arranged above the document table 6. Therefore, the image scanner 1
Can be downsized, and the installation area can be reduced.

The setting of a document on the image scanner 1 and the reading of image information are performed as follows.

The original is set on the original table 6 with the original surface facing the glass plate 9 while being pressed against the original pressing plate 111 at the upper end of the original. A light source is used to read the original placed on the original table 6.
The carriage 17a on which the 11 and the mirror 12 are mounted is set at the reading start position BS, and first, main scanning of the upper first line of the original is started. When the main scanning of the first line is completed, the carriage 17a moves one line in the lower direction of the document (the front direction of the image scanner 1) to perform the sub-scanning, and then the main scanning of the second line. The main scanning and the sub scanning are sequentially repeated to read the image information of the document. The image information read by the reading means 5 is sent as a video signal to the video signal processing means 51 of the control circuit 4, and the video signal processing means 51 converts it into a 4-bit digital signal, detects the background level, corrects shading distortion, etc. Is done. This shading correction is performed based on the reference white of the shading point SP applied to the document backing plate 111. Four
The image information converted into a bit digital signal is the density conversion unit.
It is sent to the image data processing unit 72 through 71 and compared with a predetermined threshold value to judge whether it is white or black (1 or 0). When eight pieces of white and black data are collected, they are written in the external RAM 55 as 1-byte data. At this time, the address managed by the buffer management unit 74 is added to the 1-byte data and written in the external RAM 55. The data written in the external RAM 55 is sequentially read out in the order in which
And is sent to the host machine via the interface unit 63. In the host machine, an image having the same image as the original is displayed on the display.

Next, when the original 19 is set on the ADF 3 and the image information is read by the reading unit 7, the original 19 is face-up and the original 19 is read.
Is placed on the original table 31 with the upper part of the mechanism section 33 side and separated by the separating roller 36 one by one while the sheet feeding roller 35
Is fed into the mechanism section 33 by. Therefore, the operator can easily confirm the contents of the original document 19 set on the original document table 31, and also can easily confirm the double feed and the misfeed. The document 19 fed into the mechanism section 33 is guided by the guide plate 34 and fed by the feed roller 37.
Documents sent to the reading unit 7 by the
19 is pressed against the glass plate 9 by the platen roller 38.
At this time, the carriage 17 equipped with the light source 11 and the mirror 12
a is in the reading device SR, and is in the state shown by the solid line in FIG.
Irradiate the original 19 with light from 1 and reflect the reflected light on the mirrors 12, 1
Line image sensor 16 with 3, 14 and collection level 15
Is condensed. The upper first line of the original 19 is first subjected to main scanning, and when this main scanning is completed, the stepper motor 42 drives the feed roller 37 and the platen roller 38 to feed the original 19 downward to the next row, Subscan. The main scanning and the sub-scanning are sequentially repeated to read the image information of the original, and the original 19 with the read image information is discharged onto the original tray 32. The image information read by the reading means 5 is signal-processed in the same manner as described above and written in the external RAM 55.

However, if the data written in the external RAM 55 is read out in the written order and sent to the host machine and the host machine directly displays the display, a so-called mirror image is displayed on the display. That is, the original 19 set on the original table 31 with the upper side thereof facing the mechanical section 33 is inverted inside the mechanical section 33, and the surface of the original 19 faces the glass plate 9 and the upper side of the original 19 is placed. Is sent to the reading unit 7. Therefore, manuscript 19 is
7 is scanned in the direction opposite to the main scanning direction shown in FIG. As a result, when the image information written in the external RAM 55 is read out in the writing order and sent to the host machine, the image on the left and right of the original is displayed on the display of the host machine.
A so-called mirror image is displayed.

Therefore, in the present embodiment, generation of a mirror image is prevented by performing reading from the external RAM 55 in the order opposite to the order of writing to the external RAM 55.

That is, when the document 19 is fed by the ADF 3 and the image information is read by the reading unit 7, the mode register 89 of the register unit 73 is used.
When the mirroring flag is set, the RAM address generator 91 of the buffer managing unit 74 adds an address of the order of writing and an order of reversal as the read address of the data from the external RAM 55. Therefore, the data is read from the external RAM 55 in 1-byte data units in the reverse order of the writing order. Furthermore, the 1-byte data output from the external RAM 55 is replaced by the upper and lower digits within the 1-byte in the image data processing unit 72, and the LSB (Lea
st Significant Bit) and MSB (Most Significant Bit)
And can be replaced. The data that has been subjected to the above mirror processing is
It is stacked in the RAM 60 and sent to the host machine via the interface unit 63. The host machine displays the sent data on the display in that order, but since the mirroring process has already been performed, the original is not displayed on the display.
The image of the same image as 19 is displayed. Therefore,
The host machine can always perform the same processing regardless of the scanning method used to scan the transmitted data.

Place such an ADF3 under the document table 31
It is assumed that the document table 31 and the document tray 32 are provided above the document table 6 in addition to the ADF3.
Since the data read by the reading means 5 is mirrored when the document is sent by, the image scanner 1 can be miniaturized without special processing of the data sent by the host machine. Therefore, the installation area can be reduced.

Further, since the reading unit 7 is located on the mechanism section 33 side of the document table 9, the document transport distance can be shortened, the document reading time can be shortened, and misalignment of the document can be prevented. Therefore, the reading accuracy can be improved.

Whether the document is set on the document table 31 of the ADF 3 or the document table 6 is determined by the ADF opening / closing sensor 1
01, and by the detection result of the paper detection sensor 102,
These sensors form the document set discriminating means of the present application. That is, when the paper detection sensor 102 detects the original 19 and the ADF opening / closing sensor 101 is turned on to detect that the original tray 32 also serving as the pressure plate is closed on the original table 6, the CPU 58 determines that It is determined that the document 19 is fed by the ADF3, and the operations of the stepper motor 42, the carriages 17a, 17b, etc. are controlled according to the program for feeding by the ADF recorded in the ROM 57, and at the same time, the data processing means 52 displays the document table. The data mirroring processing corresponding to the case where the original is set is executed.

On the other hand, when the paper detection sensor 102 does not detect the document 19 even when the ADF opening / closing sensor 101 is turned on, when the start command is input from the host machine, the CPU 58 scans the document set on the document table 6. Each operation of the drive motor 18, the carriages 17a, 17b, etc. is controlled according to the program, and the data processing means 52 is caused to execute the data processing corresponding to the case where the original is set on the original table.

That is, the data processing unit 52 constitutes a storage unit by the external RAM 55 and a reading unit by the buffer management unit 74, and detects the original 19 set on the original table 31 based on the determination result of the original set determination unit. The reading order of the image information (photoelectric conversion data) is reversed with respect to the original set on the original table 6, and the read data output is almost the same regardless of whether the original is set on the ADF 3 or the original table 6. As described above, the photoelectric conversion data from the reading unit 5 is data-processed.

Therefore, in the present embodiment, regardless of whether the document is set on the ADF 3 or the document table 6, the operator can easily scan the document without individually instructing which method to scan the document. The operability of the image scanner 1 can be improved.

In the above embodiment, the data mirroring process is performed by reading the data written in the external RAM 55 in the reverse order of the writing order, but the present invention is not limited to this. For example, at the time of writing to the external RAM 55, the highest address may be added to the earliest data, the smaller addresses may be sequentially added, the writing may be performed, and the data may be read from the smaller address to perform the mirroring process. Furthermore, the mirroring process may be performed by reversing the order of taking out the data from the line image sensor 16, that is, the scanning direction itself by the reading means 5.

In the above embodiment, the ADF opening / closing sensor 101 and the paper detection sensor 102 provided in the ADF 3 are used to determine whether the document on the document table 6 is scanned or the document 19 fed by the ADF 3 is scanned. It was based on the detection result of
A sensor that detects whether or not a document is set on the document table 6 may be further provided.

Further, although the above-described embodiment has been described with respect to the case where the image reading apparatus of the present invention is applied to the image scanner, the present invention is not limited to this, and may be a facsimile apparatus or the like.

(Effect) According to the present invention, when a document is set on the document table, the reading means is moved in the sub-scanning direction within the reading area larger than the document size to read and output the document image, and the document is set on the document table. When the reading is performed, the reading means is positioned in the reading area of the reading unit on the home position side, and the inverted document is conveyed in the sub-scanning direction and is sent to the reading unit to read the document image and move the document image in the main scanning direction. Since the data is mirror-processed and output, both set document reading and automatic feed reading can be performed.

At the time of this automatic feeding and reading, since the originals are inverted from the original table arranged above the original table and sent to the reading section and discharged to the original tray arranged between the original table and the original table, these originals are The table and the document tray are arranged above the document table, and the document can be set with the recording surface upward so that the document image can be easily confirmed. Therefore, although both the set document reading and the automatic feeding reading can be performed, the device can be downsized and the operation can be simplified.

[Brief description of drawings]

1 to 6 are views showing an embodiment of an image reading apparatus of the present invention. FIG. 1 is a perspective view of an image scanner to which the image reading apparatus is applied, and FIG. 2 is a side view of the image scanner. Sectional view, FIG. 3 is a partial perspective view of the image scanner, FIG. 4 is a block diagram of the image scanner, FIG. 5 is a block diagram of data processing means of the image scanner, and FIG. 6 is a part of the image scanner. It is an expanded sectional view. FIG. 7 is an operation explanatory view showing the scanning direction of the document. FIG. 8 is an operation explanatory view showing an operation of signal processing of the image sensor. 1 ... Image scanner, 2 ... Main body, 2a ... Operation panel, 3 ... ADF (automatic document feeding means), 4 ... Control circuit (control means), 5 ... Reading means, 6 ... Original plate, 7 ...
Reading unit, 8, 10 ... Aperture, 9 ... Glass plate, 11 ... Light source, 12, 13, 14 ... Mirror, 15 ... Condensing lens, 16 ...
Line image sensor, 17a, 17b ... Carriage, 18 ...
… Drive motor, 19 …… Original, 20 …… Guide plate, 21
…… Guide rod, 22 …… Wire, 23 …… Pulley, 31…
… Original table, 32 …… Original tray, 33 …… Mechanism, 34
...... Guide plate, 35 …… Paper feed roller, 36 …… Separation roller,
37 ... Feed roller, 38 ... Platen roller, 39 ... Discharge roller, 40 ... Pressure plate, 41 ... Guide plate, 42 ... Stepper motor, 51 ... Video signal processing means, 52 ... Data processing means, 53 ... Shading correction RAM, 54 ... Background detection unit, 55 ... External RAM (storage means), 56 ... External ROM, 57 ...
… ROM, 58 …… CPU, 59 …… Timer, 60 …… RAM, 61…
… I / O, 62 …… Motor driver, 63 …… Interface section, 74 …… Buffer management section (reading means), 101 …… ADF
Open / close sensor (original set determination means), 101a ... Support plate,
102 ... Paper detection sensor (original set determination means).

Claims (1)

(57) [Scope of utility model registration request] 1. A reading in which a reflected light of a light projected on a document from a light source is electrically scanned in a main scanning direction to photoelectrically convert a document image, and a movement from a home position to a sub scanning direction is possible. Means, a manuscript table on which a manuscript is set and has a reading area larger than the manuscript size, a manuscript table on which the manuscript is set and is arranged above the manuscript table, and a manuscript is discharged and below the manuscript table A document tray arranged above the table, a reading section having a reading area for a predetermined number of lines of the document and provided on the home position side of the document table, and set on the document table. The original document is reversed and is fed to the reading unit, and is discharged from the reading unit to the document tray. An original document feeding unit that determines whether the document is set on the document table or the document table. When it is determined that the document is set on the document table according to the determination result of the set determination device and the document set determination device, the reading device is moved in the sub-scanning direction within the reading area of the document table to read the document. When the original is controlled to read an image and it is determined that the original is set on the original table, the reading unit is positioned within the reading area of the reading unit and the original image of the original sent by the automatic original feeding unit is displayed. An image reading apparatus comprising: a control unit that controls reading so that a document image read by the reading unit is mirror-finished in a main scanning direction.