JPH0681217B2 - Image reader - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an image reading apparatus which reads an image for each area having a predetermined area.

[Prior art]

Conventionally, various devices for reading image information using a line sensor or a contact sensor have been reported.

By the way, when a document placed at an arbitrary position is read in close contact with the sensor, a method of fixing the reading device and moving the document at a constant speed to read the document has been conventionally performed by a facsimile or the like. However, in such a case, it is difficult to read a thick original such as a book, and there is a drawback that the apparatus becomes large and the cost becomes high, and it is difficult to realize a portable image reading apparatus. Therefore, a method of fixing the document and moving the reading device can be considered. In this case, a device for feeding the original is unnecessary, but when the reading device moves at an arbitrary speed and in an arbitrary direction, the image of
Problems such as double reading and omission of reading occur, and regulation of the moving speed and moving direction of the reading device is required. As a result, the size of the device is increased, which is unsuitable as a portable image reading device.

Further, when a portable image reading apparatus is configured, the size of the sensor cannot be increased, so that it is often impossible to read all the images of one document in one reading operation.

Therefore, the original image must be read in a plurality of times, but the original original image cannot be reproduced unless the positional relationship of the images in each reading operation is accurate.

〔Purpose〕

The present invention has been made in view of the above points, and makes it possible to read a document that is larger than the readable area of the reading unit, and to easily reproduce the image of the document that is divided and read. It is an object to provide an image reading device.

That is, the present invention is an image reading apparatus for reading an image of an original, in a state where the image reading apparatus is fixed on the original,
A scanning unit that reciprocates on the document to read an image of a region of a predetermined area of the document; and a reading unit that reads an image of a region of the document of a predetermined area by one scan by the scanning unit and outputs an image signal. A pulse generating means for generating a pulse in synchronism with the movement of the image reading apparatus on the document, a counting means for counting the pulses generated by the pulse generating means, and a count value for the counting means. , For each region of the same original document with a different predetermined area,
Address generating means for generating an address number for identifying each reading area; and control means for storing the image signal output from the reading means and the address number generated by the address generating means in the storage means in association with each other. And an image reading apparatus having the following.

〔Example〕

 An embodiment according to the present invention will be described below with reference to the drawings.

FIG. 1 shows a usage example of the apparatus of this embodiment. 2 to 3 are cross-sectional views of the present embodiment, 1 is a drive motor which is a drive source for scanning an optical system, 2 is a power supply battery which is a power source of this apparatus, and 3 is image data recording. Storage element and a control display unit for controlling display by various operations, 4 is a photoelectric conversion element for converting image information into an electric signal, and 5 is a lens for forming an optical path on the photoelectric conversion element 4. , 6a to 6d are reflection mirrors for guiding image information to the lens 5, and 7 is a LE for illuminating a document to be read.
D lamp, 8 is a slit for guiding image information to be read to the mirror 6a, 9 is a glass plate for pressing an original, 10 is an original to be read, 11 is a rotating roller for moving the apparatus on the original, 12, 13 Is a light source and a light receiving element of an encoder for counting the number of rotations of the roller 11, and 23 is an optical system 4-8.
Is a pulse encoder that counts the amount of movement, and 25 is a home position sensor of an optical system, which is detected by a photo interrupter.

Reference numeral 14 is a spring that restricts the rotation of the roller 11, 15 is a wire for moving the optical system, and 15-1 is a guide pulley for the wire 15.

FIG. 4 is an external view of this apparatus. 16 is a copy button, 17 is a movement stop lamp that indicates that the roller 11 has rotated a predetermined number of times, 18 is a liquid crystal display plate that displays the upper and lower parts of the document to be read, and 19 is A switch for switching the display of the liquid crystal display board 18,
20 is a memory input switch for designating the input of image information, 21 is a memory output switch for designating the output of image information, 22 is a switch for inputting / outputting and addressing the original address of each block, and 26 is an address It is an indicator.

In the above configuration, when image reading is performed, the apparatus is first installed on the original to be read. Memory input switch 20
When the copy button 16 is turned on in the OFF state, the LED lamp 7 for illuminating the original is turned on, and the plane mirror 6a and the slit 8 which are part of the optical system unitized with the LED lamp 7 move on the original. Then, the reflected light of the original from the LED lamp 7 is sent to the photoelectric conversion element 4 via the plane mirrors 6a, 6b, 6c, 6d of the optical system and the condenser lens 5, and the image is scanned. The display changeover switch 19 is operated to determine whether or not a desired image can be obtained.
Confirm by displaying on 18. Set the display selector switch 19 to TO
Use P to display the beginning of the manuscript, or BOTTOM to display the bottom of the manuscript. In this case, the signal detected by the photoelectric conversion element 4 is stored only in a predetermined width of the front end portion and the rear end portion of the document, and the portion between them is not stored, but this storage is in a state where the storage input switch 20 is ON. Will be erased. Next, when storing a document, after the reading area confirmation procedure described above, the memory input switch 20 is turned on and the copy button 16 is pressed to perform image detection as described above, and all image signals are stored in the storage element 3. Remember. If the operator determines that the reading area is sufficiently covered without checking the reading area, the memory input switch 20 may be turned on from the beginning to store the data in one scan. If the address input button 22 is set to the IN state before image reading, the stored image is given an address number and stored, and at the same time, the number is output to the address display 26. At the time of outputting the image signal stored by the address number stored at this time, rearrangement of the stored image and re-editing of the subdivided image can be performed, and the read area of this image reading apparatus is less than that of one time. It is possible to store even large documents. Further, as described above, when storing an original document having a reading area larger than one reading area, the reading device is moved in pressure contact with the original document, and the number of rotations of the roller 11 is counted by using the light source 12 and the light receiving element 13, and the reading is performed on the original document. The moving distance of the apparatus is detected, and when it moves by a predetermined amount, it is displayed by the moving end lamp 12 to prevent the stored images from overlapping and jumping, and the original document can be obtained by rearranging and reediting. In addition, by providing a motor for moving on the document, this device is self-propelled,
It is also possible to automatically stop after moving a predetermined amount in the vertical or horizontal direction.

In the image reading device, the mirror 6a, the slit 8,
Recording is performed by scanning the original with the light source 7, but it is also possible to arrange the light receiving element 4, the lens 5, the slit 8 and the light source 7 in this portion to scan the original. Further, the light receiving element 4 is
Although the line sensor is used in the above two examples, it is also possible to store the original by performing a single exposure without scanning the original by using a large area flat light receiving element.

FIG. 5 is a block diagram showing the operation sequence of the present apparatus, in which a control and storage unit is mainly composed of a control CPU 27 having a program storing ROM and RAM built therein. P ₀ ~
P ₉ is an input port of the CPU 27, and F _{0 to} F ₇ are output ports.
1 to 26 represent the same numbers in FIGS. 2 to 4. 27 is a CPU, 28 is a monostable multi-valve triggered by movement of the image reading device, 29 is a CCD drive clock generator for driving the CCD4, 30 is a gate for controlling the CCD drive clock, and 31 is from the CCD4. A / D converter for A / D converting the output, 32 is a signal processing circuit for storing the output of the A / D converter in memory, 33 is VRAM for storing image information, and 34 is image reading A moving clock circuit for generating a clock pulse while the device is moving.
And a light source 12 and a light receiving element 13. This block diagram will be described below with reference to the chart of FIG.

First, when the power is turned on, the optical system is returned to the home position, the counter and flags are cleared, and the LED7 and CCD4 are turned off.
Initialize to set (S1). Next, whether the record output switch 21 (SW21) is turned on, that is, the CPU2
It is determined whether or not there is an input at the input port P9 of 7 (S2). S
If W21 is ON, a routine for outputting the image information stored in the memory to the external device is executed (S3). SW21 is OFF
Then, it is determined whether or not a signal indicating the movement of the image reading device is input to the terminal P ₀ (S4). The output of the monostable multivibrator 28 connected to the moving clock circuit 34 for counting the rotation number of the rotating roller is connected to P ₀ .
This monostable multi is retriggerable and counts the distance even if you stop it while moving. The moving clock circuit 34 includes a light source 12 and a light receiving element 13, and generates a pulse as the image reading device moves. Therefore, if the image reading device moves, a signal indicating that the image reading device is moving is input to P ₀ . When a signal is input to P _0, it is determined whether there is a clock pulse from the mobile clock circuit 34 (S15). Since the moving clock is generated while moving, the moving distance counter is counted up every time the clock is generated (S16), and the moving distance is displayed on the LED of the address display device 26 (S17).
The movement ends when the image reading device moves for one reading width.
Turn on LED17 (S18, 19). Further, if the user moves more than necessary, a warning may be given.

After reading one block of image by the above operation,
Even if the image reading device is moved, since the moving distance is counted, it is possible to prevent double reading and omission of the image. Then, the sub-scanning direction of the image information read by the CCD4 (indicating the line of the original)
The VRAM counter indicating the position and the copy flag indicating that copying is in progress are reset, and the optical system is returned to the home position using the home position detection sensor 25 (S20). It should be noted that the slow moving speed can be supported by setting the time constant of the monostable multivibrator 28.

If the image reading device is not moving, the memory input switch 20
It is judged from terminal P ₅ whether (SW20) is ON (S5). If SW20 is OFF, the "pre-scan routine" described below is entered. It is judged from the terminal P ₆ whether the copy button 16 (SW16) is ON or not (S6). If SW16 is OFF, the process returns to S2. If it is ON, the movement end LED 17 is turned OFF and the distance counter is reset ( S7). The state of the display changeover switch (SW19) for designating an image tip or the trailing edge is determined from the terminal P ₈ (S8), moves the optical system when I show an image trailing edge (S9). If the tip of the image is shown, leave it in the home position. Move the optical system drive motor 1 to move the optical system.
After being turned on, the pulse of the pulse encoder 24 is input from the terminal P ₁₀ and counted to detect the movement amount, and when the predetermined movement amount is reached, the motor 1 is turned off. Further, the image reading LED 7 is turned on from the terminal F ₁ and the CCD drive clock 29 is controlled by the gate 30 by the output from the terminal F ₀ , whereby each pixel of the CCD 4 is read out as serial data. This data is A / D converted by the A / D conversion circuit 31,
Further, it is processed by the signal processing circuit 32 and read into the VRAM 33. The address of the VRAM 33 is the value of the VRAM counter 33 described above and the page counter described later, and the CCD input to the terminal P _7.
Calculated by the drive clock 29, output to the VRAM 33, and synchronized with the CCD drive clock 29 (S1
0,11). After inputting one line of data into the memory with CCD4,
The optical system is moved by one line by the same processing as described above (S12), and the image signal is read by the CCD4. After performing the above operation for n rows (S13), the image data for n rows is transferred to the memory of the LCD driver (S14) and post-processing (S20) is performed, and then S2.
Return to.

The above operation is the "prescanning routine", and the front and rear edges of the image are displayed on the LCD 18, so that the readable area of the image can be known.

Next, when the memory input switch 20 (SW20) is ON, the copy flag is referred to, the copy flag is OFF, and SW16 is o
If ff (S21,22), return to S2. Copy flag is off
Then, when SW16 is turned on, the movement end lamp 17 is turned off and the distance counter 26 (address counter) is reset (S2
3), the copy flag is turned on (S24), the state of the address I / O switch 22 (SW22) is judged from P4 (S25), and if it is the state of address IN, the edit block counter described later is incremented by one. After that (S26), the block counter value is input to the register A (S27). If SW22 is in OUT state, register A Enter (S28). Further, by inputting the block counter value at the beginning of the image information when the SW22 is in the IN state, the host computer or the like can easily edit the image information input for each block such as rearrangement. For example, it can be edited as shown in FIG. (1) is a read image, and (2) is an output image. Numbers 1-8 are block counters, 1-
When reading in the order of 8 block counters, each block can be rearranged by the host computer and output as in (2). It is also possible to incorporate an image of another manuscript. If SW22 is in the OUT state, 00 is recorded at the beginning of the image information, and by recognizing 00, it is identified that the image information does not require editing.

Next, the block address of the VRAM33 is calculated from the page counter value (S29), the value of the register A containing the block counter value is transferred to the memory (S30), and the address of the VRAM for storing the image data is stored. Is incremented by 1 (S31), and the block counter value is displayed on the address display 2
Display on 6 (S32).

When the copy flag is turned on, the following block image storage is executed. LED7 and CC as in the "pre-scan routine"
Turn on D4 and count up the VRAM address 1
After taking in the image data for one line (S33), turn the motor 1 to O
After N, the optical system is moved by one row (S34), and the VRAM counter indicating which line of the VRAM block is incremented by 1 (S35). Then, it is judged whether or not the content of the VRAM counter is within one block (S36), and if it exceeds one block, the page counter is incremented by one (S3
7) and post-process (S20). S2 if within 1 block
However, if the settings of the switches have not been changed at that time, the image capture by the CCD will continue immediately. However, if the switches are operated again or the image reading device is moved before the storage of the image of one block is completed, the stored image data is canceled. And again,
When passing S21, the copy flag has already been set, so jump to S33 and the address number etc. does not change.

In the above embodiment, a VR that stores image information in the image reading device
I had an AM, but if I move this VRAM to the host computer side and send the output from the image reading device to the host computer side by wire communication by code or wireless communication by electromagnetic waves, large amount of image information can be stored You can also

〔effect〕

As described above, according to the present invention, by counting the pulses generated in synchronization with the movement of the image reading apparatus, an address number for identifying each reading area is generated for each area of the same document having a different predetermined area. By storing the read image and the address number in the storage means in association with each other, the address number for identifying the area can be generated with a simple structure, and the area is larger than the readable area of the reading means. Even a document can be easily read, and the document read by dividing can be easily reproduced.

Further, by adding an address number, it is possible to edit in reading area units.

Further, the image of the original can be freely read without being restricted by the placement position of the original.

[Brief description of drawings]

FIG. 1 is a diagram showing an example of use of a portable image reading device, FIGS. 2 and 3 are vertical sectional views of the portable image reading device, and FIG. 4 is a perspective view of the entire portable image reading device. FIG. 7 is a circuit block diagram of the image reading device, FIG. 6 is a flowchart diagram showing an operation sequence of the image reading device, and FIG. 7 is a diagram showing an example of editing image information. In the figure, 3 is a control display unit, 4 is a photoelectric conversion element,
16 is a copy button, 18 is a liquid crystal display panel, 20 is a recording input switch, 23 is a pulse encoder, 26 is an address display, 27
Is a CPU and 33 is a VRAM.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Takeshi Honjo 3-30-2 Shimomaruko, Ota-ku, Tokyo Canon Inc. (72) Inventor Masataka Naito 3-30-2 Shimomaruko, Ota-ku, Tokyo Canon Incorporated (72) Inventor Masataka Yamada 3-30-2 Shimomaruko, Ota-ku, Tokyo Canon Inc. (72) Inventor Yukiko Iida 3-30-2 Shimomaruko, Ota-ku, Tokyo Canon Inc. ( 56) References JP-A-56-105574 (JP, A) JP-A-57-140064 (JP, A) JP-A-57-197671 (JP, A)

Claims (1)

[Claims] 1. An image reading apparatus for reading an image of an original, comprising scanning means for reciprocating on the original in order to read an image of an area of a predetermined area of the original while the image reading apparatus is fixed on the original. A reading unit that reads an image of an area of a predetermined area of a document by one scanning by the scanning unit and outputs an image signal, and a pulse generation that generates a pulse in synchronization with movement of the image reading apparatus on the document. Means, counting means for counting the pulses generated by the pulse generating means, and an address number for identifying each reading area for each of the areas of the same original having different predetermined areas according to the count value of the counting means. And the address signal generated by the reading means and the address number generated by the address generating means are stored in association with each other. Image reading apparatus characterized by having a control means for storing the stage.