JP3664597B2 - Image reading device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image reading apparatus, and more particularly to an image reading apparatus that reads and feeds a plurality of set originals while sequentially feeding the originals one page at a time.
[0002]
[Prior art]
Many apparatuses including an image reading apparatus such as a scanner apparatus, a copying machine, and a facsimile apparatus include an automatic document feeder (ADF) in order to improve an original reading speed.
[0003]
In order to improve the document reading speed, it is necessary to make the interval between the documents fed separately and conveyed as narrow as possible.
[0004]
[Problems to be solved by the invention]
However, if the interval between documents conveyed for high-speed document reading is too narrow, reading start position control for accurately reading each page of the document and shading correction data reading processing cannot be performed normally. There was a problem.
[0005]
The present invention has been made in view of such circumstances, and an object thereof is to provide an image reading apparatus capable of accurately reading document image information even when the interval between conveyed documents is narrowed.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the claims 1 The image reading apparatus described in 1), when detecting that the leading edge of the document to be read has passed a predetermined reading reference position while separating and feeding a plurality of set originals and sequentially transporting them one page at a time, The scanning is started by further conveying a predetermined distance from the position to the scan line, and when reading to the trailing edge of the document to be scanned, the trailing edge is transported to a predetermined stamping position. In an image reading apparatus that is repeatedly performed as a new document to be read and sequentially obtains image information for each of the plurality of set documents, it is detected whether the leading edge of the document has passed the predetermined reading reference position. A reading reference position detecting means; a stamp stamp position detecting means for detecting whether or not the trailing edge of the document to be read has been conveyed to the predetermined stamp stamp position; Limit position detecting means for detecting whether or not the predetermined read reference position has been reached and reached a predetermined limit position before the scan line, and the stamp stamp position detecting means has a predetermined stamp at the trailing edge of the document to be read When it is detected by the reading reference position detecting means that the leading edge of the next original of the original to be read has passed the predetermined reading reference position before detecting that it has been conveyed to the stamping position, the next reference After the leading edge of the document has passed the predetermined reading reference position, the limit until the stamp stamp position detecting means detects that the trailing edge of the document to be scanned has been conveyed to the predetermined stamp stamp position. When it is detected by the position detection means that the leading edge of the document next to the document to be read has reached the predetermined limit position, the predetermined document A stamp indicating that reading has been performed at the detected time point is not stamped on the read target document without performing a transport operation to the stamp stamp position, and the next original as a new read target document is And a reading start position assurance means for starting reading after transporting a distance corresponding to the scan line from the limit position to the scan line.
[0007]
Claim 2 The image reading apparatus according to claim 1 1 In the image reading apparatus according to the above, after the leading edge of the next document passes through the predetermined reading reference position, the stamp stamp position detecting unit conveys the trailing edge of the document to be scanned to the predetermined stamp stamp position. If it is detected by the limit position detection means that the leading edge of the next document to be read has reached the predetermined limit position, the stamp stamp position is shifted. Is further provided as means for outputting or / and holding as a history.
[0008]
Claim 3 The image reading apparatus described in 1), when detecting that the leading edge of the document to be read has passed a predetermined reading reference position while separating and feeding a plurality of set originals and sequentially transporting them one page at a time, The scanning is started by further conveying a predetermined distance from the position to the scan line, and when reading to the trailing edge of the document to be scanned, the trailing edge is transported to a predetermined stamping position. In an image reading apparatus that is repeatedly performed as a new document to be read and sequentially obtains image information for each of the plurality of set documents, it is detected whether the leading edge of the document has passed the predetermined reading reference position. A reading reference position detecting means; a stamp stamp position detecting means for detecting whether or not the trailing edge of the document to be read has been conveyed to the predetermined stamp stamp position; Limit position detecting means for detecting whether or not the predetermined read reference position has been reached and reached a predetermined limit position before the scan line, and the stamp stamp position detecting means has a predetermined stamp at the trailing edge of the document to be read When it is detected by the reading reference position detecting means that the leading edge of the next original of the original to be read has passed the predetermined reading reference position before detecting that it has been conveyed to the stamping position, the next reference After the leading edge of the document passes through the predetermined reading reference position and before the reading to the trailing edge of the document to be scanned is completed, the limit position detecting means sets the leading edge of the document next to the document to be scanned to the predetermined document. When it is detected that the limit position of the next document has been reached, the shading correction data for the next document is not read and the shading for the next document is not read. The data for the document to be read is used as the ding correction data, and the next document as a new document to be read is read after being conveyed by a distance corresponding to the scan line from the predetermined limit position. And a reading start position assurance means for starting.
[0009]
Claim 4 The image reading apparatus according to claim 1 3 In the image reading apparatus described in the item (1), after the leading edge of the next original passes through the predetermined reading reference position, the reading by the limit position detecting unit is completed before the reading to the trailing edge of the original to be read is completed. When it is detected that the leading edge of the next original of the target original has reached the predetermined limit position, the information processing apparatus further includes means for holding as an output or / and a history that the shading correction data cannot be read. It is characterized by that.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0012]
First, FIG. 1 shows a block configuration of a facsimile apparatus 1 as an image reading apparatus according to an embodiment of the present invention. In the embodiment described below, a case where the present invention is applied to a facsimile apparatus will be described. However, the present invention is not limited by the use form of image information obtained by reading a document. Needless to say, the present invention can be similarly applied to other apparatuses including an image reading apparatus such as an apparatus or a copying machine.
[0013]
In the figure, a facsimile apparatus 1 includes a scanner 2, a plotter 3, an operation display unit 4, an image memory 5, a parameter memory 6, a clock circuit 7, a PC-I / F 8, a character generator 9, a RAM 10, a ROM 11, a CPU 12, and an encoding. The decryption unit 13, the communication control unit 14, the modem 15, the network control unit 16, and the system bus 17 are configured.
[0014]
The scanner 2 is for obtaining image information by reading a document image at a predetermined reading line density such as 3.85 lines / mm, 7.7 lines / mm, and 15.4 lines / mm. The plotter 3 records and outputs the received image information according to the linear density, and records and outputs the image information read by the scanner 2 according to the linear density (copy operation).
[0015]
The operation display unit 4 is provided with a numeric keypad for designating a destination facsimile number, a transmission start key, a one-touch dial key, and other various keys, and is provided with a display such as a liquid crystal display device to notify the user. It displays the operating status of the power device and various messages. The image memory 5 temporarily stores image information read by the scanner 2 and image information transferred from the personal computer 30 via the PC-I / F 8 as a file for memory transmission, or receives received image information. The file is temporarily stored as a file until it is recorded by the plotter 3 or transferred to the personal computer 30. The parameter memory 6 is backed up by a backup circuit (not shown), and stores user parameters such as the system setting state and registered contents of the one-touch dial. The stored contents are retained even when the apparatus power is shut off. The clock circuit 7 is for measuring the current date and time and performing a timer operation.
[0016]
The PC-I / F 8 is an interface that is paired with an interface (not shown) on the personal computer (PC) 30 side, and serves as an interface for the facsimile apparatus 1 and the personal computer 30 to perform local communication. is there. The personal computer 30 makes a transmission request for image information to the facsimile apparatus 1 via the PC-I / F 8 under the control of the facsimile application, requests a recording output by the plotter 3 of the image information, The facsimile apparatus 1 is used by receiving transfer of received image information from 1 and image information read by the scanner 2.
[0017]
The character generator 9 stores a font table in which font data is associated with each character code such as alphabets, numbers, kana characters, symbols, and kanji, and the CPU 12 converts the character string into image information. Refer to the character generator 9. The RAM 10 is a random access memory used as a work area for the CPU 12. The ROM 11 is a read only memory in which a control program for the CPU 12 to control each part of the apparatus is stored. The CPU 12 controls each part of the apparatus while using the RAM 10 as a work area according to a control program written in the ROM 12.
[0018]
The encoding / decoding unit 13 encodes and compresses transmission image data with a predetermined encoding method such as an MH encoding method, an MR encoding method, or an MMR encoding method that is compatible with G3 facsimile, while receiving image data. Is decoded and expanded by a predetermined decoding method corresponding to the MH encoding method, the MR encoding method, the MMR encoding method, or the like. The communication control unit 14 controls the modem 15 and the network control unit 16 to control G3 facsimile communication. The modem 15 modulates data transmitted to the line via the network control unit 16 and demodulates a communication signal received from the line via the network control unit 16. The modem 15 also transmits a DTMF signal corresponding to the dial number. The network control unit 16 is connected to the line, and is controlled by the communication control unit 14 to close and release the DC loop of the line, detect line polarity reversal, detect line release, detect dial tone, busy tone, etc. Tone signal detection, ringing signal detection and other line connection control, and dial pulse generation. The system bus 17 is a signal line for the above units to exchange data.
[0019]
Next, the configuration of the scanner 2 will be described with reference to FIG.
[0020]
In the figure, the scanner 2 is provided with an ADF that secures a page interval by a linear velocity difference between the feed roller Rf and the reading roller pair R0, R1, and the feed roller Rf and the reading roller pair R0, R1 are: The linear velocity is set in advance, and the feed roller Rf is set to be slower than the reading roller pair R0 and R1. In this state, the first page of the plurality of stacked originals P is fed by the pickup roller Kp and sent to the reading roller pair R0 by the feed roller Rf, and the rear end of the first page of the original P is a reverse roller (separation). Part) After passing Rr, the next original is also fed out by the pickup roller Kp and is sent to the reading roller pair R0 by the feed roller Rf. A gap is generated between the original and the original. In recent years when high-speed reading is required, it is designed to shorten the space between pages as much as possible and improve the speed at the time of multi-page reading.
[0021]
In FIG. 2, a document width sensor S0 is a sensor that detects the width (A4, B5, B4, etc.) of the set document. The document sensor S1 is for detecting that the document P is set. The reference position sensor S2 sensor is a sensor for determining the leading edge position of the document, and detects whether or not the leading edge of the conveyed document has passed the position of the sensor S2. Normally, a step motor is used for document conveyance, and document position control is performed by managing the number of steps.
[0022]
Documents that are sequentially separated and fed one page at a time are sub-scanned on the scan line Ls as a document to be read. The scanner 2 obtains image information by reading from the leading edge to the trailing edge of a document to be read that passes on the scanning line Ls in units of main scanning lines. The lamp La is a light source for illuminating a document to be read. The white reference plate W is prior to the start of reading the document to be scanned. The This is for reading shading correction data for performing so-called shading correction processing that comprehensively corrects the sensitivity unevenness of the image sensor and the illumination of the lamp La. The reading of the shading correction data is basically This is performed each time prior to reading a document to be read. The original to be read that has passed through the scan line Ls is further conveyed by the roller R2, and if the read stamp function is enabled by setting, a stamp indicating that the reading has been completed is pressed by the stamp St, and further conveyed by the discharge roller pair R3. And discharged outside the device.
[0023]
Next, the basic operation of document conveyance control will be described. ADF document conveyance control is roughly divided into three types of operations: ADF pre-feed operation, reading operation, and paper discharge operation.
[0024]
The ADF pre-feed operation is an operation mode in which a document set on the ADF document table is transported to the front of the reading line. The document feeding is started, and after the leading edge of the document reaches the reference position sensor S2, a predetermined amount is set. Continuing the conveyance, the leading edge of the document is stopped at the reading standby position before the reading line. The ADF prefeed operation is executed not only for the first page but also for each page. However, if the document is already at the position where the reference position sensor S2 is ON when the ADF prefeed operation starts, the ADF prefeed operation is not executed.
[0025]
The reading operation is an operation of reading the image data while conveying the document conveyed in the ADF pre-feed operation at a speed corresponding to the linear density specified by the user. F When the original after the refeed operation is conveyed by a preset length, image reading is started, and a predetermined length is read, or after the reference position sensor S2 is turned OFF, it matches the size of the original to be read. After reading for a preset length, the sheet is further conveyed for a preset length and stopped. This stop position is a stamp stamp standby position. Accordingly, an operation for conveying the stamp to the stamping position is also included in the reading operation control.
[0026]
In the paper discharge operation, the motor is rotated in the forward rotation direction by a preset pulse to forcibly discharge the last page of the document. During multi-page reading, the document that has already been read is naturally discharged by the ADF pre-feed operation or reading operation, so this paper discharge operation is not performed during multi-page reading, but only when the last page is discharged. Let
[0027]
Next, a reading processing procedure in the facsimile apparatus 1 will be described with reference to FIGS.
[0028]
In these drawings, the facsimile apparatus 1 monitors whether or not a document is set on the scanner 2 and the document sensor S1 is turned on (No loop of determination 101). When the document sensor S1 is turned on (Yes in decision 101), it is monitored whether a not-shown [start] key on the operation display unit 4 instructing the start of reading is pressed (No loop in decision 102). When the [Start] key is pressed, the above-described ADF prefeed operation is performed until the reference position sensor S2 is turned on (No loop of processing 103 and determination 104).
[0029]
When the reference position sensor S2 is turned on, that is, when the leading edge of the document to be read has reached the position of the reference position sensor S2 (Yes in decision 104), the counter n is initialized to 0 (process 105), and the document is printed by one pulse. After feeding, the operation of incrementing the counter n is repeated until the counter n reaches the value A (No loop of processing 106, processing 107, and judgment 108). Here, the value A is the position before the scan line Ls from the position of the reference position sensor S2, as shown in FIGS. 10 to 13 showing the positional relationship between the document on the previous page and the document on the next page in the scanner unit. This means the distance in terms of the number of carrier pulses to the reading standby position.
[0030]
When the counter n reaches the value A, that is, when the leading edge of the document to be read reaches the reading standby position (Yes in decision 108), the shading correction data reading for reading the white reference plate W is performed by turning on the lamp La (processing). 109). The shading correction data obtained in this way is used for shading correction at the time of reading the original document to be read.
[0031]
After the process 109, the counter n is initialized to 0 (process 110), and the operation of feeding the document by one pulse and incrementing the counter n is repeated until the counter n reaches the value B (process 111, process 1112, No loop of decision 113). Here, the value B means a distance in terms of the number of carrier pulses from the reading standby position to the scan line Ls, as shown in FIGS.
[0032]
When the counter n reaches the value B, that is, when the leading edge of the document to be read reaches the position of the scan line Ls (Yes in determination 113), the above-described reading operation is performed until the reference position sensor S2 is turned off, that is, the reading target. The process is performed until the trailing edge of the document reaches the position of the reference position sensor S2 (No loop of processing 114 and determination 115).
[0033]
Then, the counter m is initialized to 0 (process 116), and the counter n is initialized to 0 (process 117). Then, the reference position sensor S2 is turned on, that is, the rear end of the document to be read is read. While monitoring whether the leading edge of the next original has reached the position of the reference position sensor S2 (No in decision 118), the original is conveyed by one pulse, the original to be read is read, and the counter n is incremented. Repeat until the counter n reaches the value C (No loop of processing 121, processing 122, processing 123, and judgment 124). Here, the value C means a distance in terms of the number of carrier pulses from the position of the reference position sensor S2 to the scan line Ls, as shown in FIGS.
[0034]
When the determination 124 is Yes, the trailing end of the reading target document reaches the scan line Ls, and reading of image information from the leading end to the trailing end of the reading target document is completed.
[0035]
If the judgment 124 is Yes, then the counter n is initialized to 0 (process 125), and the reference position sensor S2 is turned on, that is, the trailing edge of the document to be read is placed on the stamp waiting state shown in FIGS. While monitoring whether the leading edge of the next document has reached the position of the reference position sensor S2 until it is conveyed to the position (No in decision 126), the document is conveyed by one pulse and the counter n is incremented Is repeated until the counter n reaches the value D (No loop of processing 129, processing 130, and judgment 131). Here, the value D means the distance in terms of the number of transport pulses from the scan line Ls to the stamp standby position, as shown in FIGS.
[0036]
When the determination 131 is Yes, the trailing end of the document to be read reaches the stamp standby position, and a mark indicating that reading has been performed is stamped by the stamp St (process 132).
[0037]
Then, it is determined whether or not there is a document for the next page (decision 133). If there is no next page (No in determination 133), the paper discharge operation described above is performed (process 134), and the document on the last page is determined. Forcibly drain out of the device.
[0038]
If there is a document of the next page (Yes in decision 133), it is determined whether the value of the counter m is 0 (decision 135). If the value of the counter m is 0, that is, the decision 126 and the decision 118. In other words, the reference position sensor S2 is not turned on even during the reading of the trailing edge of the reading target document and during the conveyance of the reading target document to the stamp standby position. In other words, when the interval between the original to be read and the next original is sufficient, and the rear end of the original to be read Pp on the previous page reaches the stamp standby position as shown in FIG. If the leading edge of the document has not yet reached the position of the reference position sensor S2 (No in decision 135), the process returns to the process 103, and the document Pn on the next page is used as a new document to be read and the process from the ADF prefeed operation is started. Repeat the management.
[0039]
When the value of the counter m is not 0 in the determination 135, that is, when the determination 126 is Yes) and the determination 128 is No, or when the determination 118 is Yes and the determination 120 is No In other words, the reference position sensor S2 is turned ON because the interval between the reading target document and the next document is insufficient while the trailing end of the reading target document is being read or the reading target document is being conveyed to the stamp standby position. However, if the distance between the reading target document and the next document is not so narrow that the leading edge of the next document of the reading target document reaches the non-shading range shown in FIGS. 135), the white reference plate W is not obstructed by the original to be read or the next original, and the shading correction data can be read correctly. Reading shading correction data for (processing 136).
[0040]
Then, the counter n is initialized to 0 (process 137), and the operation of feeding the document by one pulse and incrementing the counter n is repeated until the counter n reaches the value (C−m) (process 138, process 139, No loop of decision 140). Here, as shown in FIG. 11, the value (Cm) indicates that the leading edge of the document Pn on the next page is the reference position sensor S2 when the trailing edge of the reading target document Pp of the previous page reaches the stamp standby position. This means a distance obtained by subtracting the distance (m) in terms of the number of transport pulses further transported from the position from the distance in terms of the number of transport pulses between the position of the reference position sensor S2 and the scan line Ls.
[0041]
When the determination 131 is Yes, the leading edge of the document Pn on the next page has reached the scan line Ls, and the process returns to the reading operation of the process 114 with the document Pn on the next page as a new document to be read. As shown in FIG. 11, when the trailing edge of the original Pp to be read on the previous page reaches the stamp standby position, the leading edge of the original Pn on the next page has been conveyed beyond the position of the reference position sensor S2. Even in this case, it is possible to correctly read the document Pn of the next page from the top.
[0042]
If the reference position sensor S2 is turned on in the decision 126, that is, the leading edge of the next document is the reference until the trailing edge of the document to be read is transported to the stamp standby position shown in FIGS. If the position of the position sensor S2 has been reached, the counter m is incremented (process 127), and whether the value of the counter m has reached E, that is, while reading the original to be read to the stamp standby position, Whether the interval between the target document and the next document is insufficient, the reference position sensor S2 is turned ON, and the leading edge of the next document to be read has reached the non-shading range shown in FIGS. If it has not reached the shading impossible range yet (No in judgment 128), the process proceeds to process 129 and the shading impossible range is reached. If this happens (Yes in decision 128), if the conveyance is continued as it is, the leading edge of the next document Pn will be within the non-shading range, and the white reference plate W will be blocked, and the next document will be blocked. Since shading correction for Pn cannot be performed, the process proceeds to process 141, and a mark indicating that reading has been performed is stamped on the rear end of the document to be read by the stamp St (process 141).
[0043]
However, since the stamp is stamped in the process 141 before the determination 131 is “Yes”, the stamp is performed at a position shifted from the normal stamp position when the trailing edge of the document to be read is at the stamp standby position. Therefore, the fact that the stamp position has shifted is displayed on the operation display unit 4 and the fact that the stamp position has shifted is stored in the parameter memory 6 as a history (process 142). As a result, the user can recognize that the document interval is narrowed due to the contamination of the transport system or the like in the continuous reading of a plurality of pages by the scanner 2.
[0044]
When the determination 128 is Yes, the conveyance is stopped so that the leading edge of the next document Pn does not enter the non-shading range, and the shading correction data can be read correctly. The shading correction data for reading is read (process 143).
[0045]
Then, the counter n is initialized to 0 (process 144), and the operation of feeding the document by one pulse and incrementing the counter n is repeated until the counter n reaches the value (CE) (process 145, process 146, No loop of decision 147). Here, as shown in FIG. 12, the value (CE) is the conveyance between the leading edge of the document Pn on the next page and the scan line Ls when the leading edge of the document Pn on the next page reaches the non-shading range. This means distance in terms of number of pulses.
[0046]
When the determination 147 is Yes, the leading edge of the next page of the document Pn has reached the scan line Ls, and the process returns to the reading operation of the process 114 with the next page of the document Pn as a new document to be read. Thus, as shown in FIG. 12, when the leading edge of the document Pn on the next page reaches the non-shading range, the document Pn on the next page is still transferred even if the document to be read Pp is still being transported to the stamp standby position. It becomes possible to read correctly from the beginning.
[0047]
In the determination 118, when the reference position sensor S2 is turned on, that is, when the leading edge of the next document reaches the position of the reference position sensor S2 while reading the trailing edge of the document to be read, The counter m is incremented (process 119), and whether the value of the counter m reaches E, that is, during the reading of the trailing edge of the reading target document, the interval between the reading target document and the next document is insufficient and the reference position When the sensor S2 is turned on, it is further determined whether or not the leading edge of the next document to be read has reached the non-shading range shown in FIGS. 10 to 13 (determination 120). If it has not been reached (No at decision 120), the process proceeds to processing 121. If it has reached the non-shading range (Yes at decision 120), it is temporarily read. If reading and conveyance of the document to be taken are continued, the next document Pn cannot be read correctly from the leading edge, and the process proceeds to processing 148, and a mark indicating that reading has been performed is stamped on the trailing edge of the document to be scanned by the stamp St ( Process 148).
[0048]
However, since the stamp is stamped in the process 148 before the determination 131 becomes Yes, the stamp is performed at a position shifted from the normal stamp position when the trailing edge of the document to be read is at the stamp standby position. Therefore, the fact that the stamp position has shifted is displayed on the operation display unit 4, and the fact that the stamp position has shifted is stored in the parameter memory 6 as a history (process 149). As a result, the user can recognize that the document interval is narrowed due to the contamination of the transport system or the like in the continuous reading of a plurality of pages by the scanner 2.
[0049]
When the determination 120 is Yes, the conveyance is stopped so that the leading edge of the next original Pn does not enter the non-shading range, but the reading target original Pp is in the non-shading range. It is impossible to read the correction data correctly. Therefore, the shading correction data for the previous page Pp is used as the shading correction data for the next original Pn (process 150).
[0050]
Then, the fact that the shading correction data cannot be read is displayed on the operation display unit 4, and the fact that the shading correction data cannot be read is stored in the parameter memory 6 as a history (process 151). As a result, the user can recognize that the interval between the originals is further narrowed due to the contamination of the conveyance system in the continuous reading of a plurality of pages by the scanner 2.
[0051]
Then, the counter n is initialized to 0 (process 152), and the operation of feeding the document by one pulse and incrementing the counter n is repeated until the counter n reaches the value (CE) (process 153, process 154, No loop of decision 155). Here, as shown in FIG. 13, the value (CE) is the conveyance between the leading edge of the document Pn on the next page and the scan line Ls when the leading edge of the document Pn on the next page reaches the non-shading range. This means distance in terms of number of pulses.
[0052]
When the determination 155 is Yes, the leading edge of the document Pn of the next page has reached the scan line Ls, and the process returns to the reading operation of the process 114 with the document Pn of the next page as a new document to be read. Thus, as shown in FIG. 13, when the leading edge of the document Pn on the next page reaches the non-shading range, the document Pn on the next page is correctly read from the top even though the trailing edge of the document Pn to be read is still being read. Is possible.
[0053]
As described above, according to the present embodiment, it is possible to minimize the document interval when continuously reading a plurality of documents, and it is possible to continuously read a plurality of documents at a high speed.
[0054]
【The invention's effect】
Claim 1 According to the invention, the next page reading start position is prioritized over the stamp stamp position by monitoring the document leading edge position during conveyance of the previous page, and the space between pages cannot be secured due to the performance degradation of the ADF separation unit. Even in such a case, an effect can be obtained in which the reading operation can be executed without causing an error.
[0055]
Claim 2 According to the invention according to the present invention, by notifying the user that the control for shifting the stamp stamp position has been executed, or by leaving it as a history, the separation performance of the ADF has deteriorated or an inappropriate document can be read. Can be notified, and the effect that it can be utilized as maintenance data of the ADF is obtained.
[0056]
Claim 3 According to the present invention, by using the shading correction data of the previous page as it is for the next page, it is possible to execute the reading operation without causing an error even when the space between pages cannot be secured due to the performance degradation of the ADF separation unit. The effect becomes.
[0057]
Claim 4 According to the invention according to the above, by notifying the user that the page is not subjected to shading correction control, or by leaving it as a history, the ADF separation performance has deteriorated, or an inappropriate document is It is possible to notify that the data has been read, and an effect that can be used as maintenance data for the ADF is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram of a facsimile apparatus as an image reading apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic diagram showing a configuration of a scanner unit of the facsimile apparatus according to the embodiment of the present invention.
FIG. 3 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention.
FIG. 4 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention together with FIG. 3;
FIG. 5 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention together with FIGS. 3 and 4;
6 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention together with FIGS. 3, 4 and 5; FIG.
7 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention, together with FIGS. 3, 4, 5, and 6. FIG.
FIG. 8 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention, together with FIGS. 3, 4, 5, 6 and 7;
9 is a flowchart showing a reading processing procedure in the facsimile apparatus according to the embodiment of the present invention, together with FIGS. 3, 4, 5, 6, 7 and 8. FIG.
FIG. 10 is a diagram showing a positional relationship and the like between a document on the previous page and a document on the next page in the scanner unit of the facsimile apparatus according to the embodiment of the present invention.
FIG. 11 is a view different from FIG. 10 showing the positional relationship between the document on the previous page and the document on the next page in the scanner unit of the facsimile apparatus according to the embodiment of the present invention.
12 is a view different from FIG. 10 or FIG. 11 showing the positional relationship between the document of the previous page and the document of the next page in the scanner unit of the facsimile apparatus according to the embodiment of the present invention.
13 is a diagram different from FIG. 10, FIG. 11 or FIG. 12 showing the positional relationship between the document on the previous page and the document on the next page in the scanner unit of the facsimile apparatus according to the embodiment of the present invention.
[Explanation of symbols]
1 Facsimile device
2 Scanner
3 Plotter
4 Operation display section
5 Image memory
6 Parameter memory
7 Clock circuit
8 PC-I / F
9 Character generator
10 RAM
11 ROM
12 CPU
13 Coding / decoding unit
14 Communication control unit
15 Modem
16 Network control unit
27 System bus
30 PC
La lamp
P manuscript
Pn Next manuscript
Pp Previous manuscript
R0, R1 reading roller pair
R2 roller
R3 discharge roller pair
Rf feed roller
Rr reverse roller
S0 Document width sensor
S1 Document sensor
S2 Reference position sensor
St stamp
W white reference plate

Claims (4)

When it is detected that the leading end of the original to be read has passed a predetermined reading reference position while separating and feeding the set originals one by one and sequentially conveying one page at a time, a predetermined distance from the reading reference position to the scan line Further, the reading operation is started, and reading is performed until the trailing edge of the document to be read is read and the trailing edge is conveyed to a predetermined stamp stamp position. In the image reading apparatus for sequentially obtaining image information for each of the set plurality of documents,
Reading reference position detecting means for detecting whether or not the leading edge of the document has passed the predetermined reading reference position;
Stamp stamp position detecting means for detecting whether or not the rear end of the document to be read has been conveyed to the predetermined stamp stamp position;
Limit position detecting means for detecting whether or not the document has passed the predetermined reading reference position and has reached a predetermined limit position before the scan line;
The leading edge of the document next to the document to be scanned has passed the predetermined scanning reference position before the stamp stamp position detecting means detects that the trailing edge of the document to be scanned has been conveyed to the predetermined stamp stamp position. Is detected by the reading reference position detecting means, after the leading edge of the next document has passed the predetermined reading reference position, the stamp stamp position detecting means detects the trailing edge of the reading target document. When it is detected by the limit position detecting means that the leading edge of the next document to be read has reached the predetermined limit position until it is detected that the sheet has been conveyed to the stamp stamp position,
A stamp indicating that the document to be read has been read at the time of the detection without performing a transport operation to the predetermined stamp stamping position is stamped on the document to be scanned with a stamp, and the document as a new document to be scanned An image reading apparatus comprising: a reading start position guarantee unit that starts reading a next original after a distance corresponding to a distance from the predetermined limit position to the scan line. After the leading edge of the next document passes through the predetermined reading reference position, the stamp stamp position detecting means detects until the trailing edge of the document to be scanned is conveyed to the predetermined stamp stamp position. When the limit position detecting means detects that the leading edge of the document next to the document to be read has reached the predetermined limit position, the fact that the stamp stamp position is shifted is output or / and stored as a history. The image reading apparatus according to claim 1 , further comprising means for performing the operation. When it is detected that the leading end of the original to be read has passed a predetermined reading reference position while separating and feeding the set originals one by one and sequentially conveying one page at a time, a predetermined distance from the reading reference position to the scan line Further, the reading operation is started, and reading is performed until the trailing edge of the document to be read is read and the trailing edge is conveyed to a predetermined stamp stamp position. In the image reading apparatus for sequentially obtaining image information for each of the set plurality of documents,
Reading reference position detecting means for detecting whether or not the leading edge of the document has passed the predetermined reading reference position;
Stamp stamp position detecting means for detecting whether or not the rear end of the document to be read has been conveyed to the predetermined stamp stamp position;
Limit position detecting means for detecting whether or not the document has passed the predetermined reading reference position and has reached a predetermined limit position before the scan line;
The leading edge of the document next to the document to be scanned has passed the predetermined scanning reference position before the stamp stamp position detecting means detects that the trailing edge of the document to be scanned has been conveyed to the predetermined stamp stamp position. Is detected by the reading reference position detecting means, the limit is reached after the leading edge of the next original passes through the predetermined reading reference position and before the reading to the trailing edge of the original to be read is completed. When it is detected by the position detection means that the leading edge of the document next to the document to be read has reached the predetermined limit position,
The shading correction data for the next document is used as the shading correction data for the next document without reading the shading correction data for the next document. An image reading apparatus comprising: a reading start position assurance unit that starts reading after transporting a distance corresponding to the scan line from the predetermined limit position. After the leading edge of the next original passes through the predetermined reading reference position, the leading edge of the next original of the original to be read is read by the limit position detecting means before the reading to the trailing edge of the original to be read is completed. And a means for holding as an output or / and a history that the shading correction data could not be read when it is detected that the predetermined limit position has been reached. The image reading apparatus according to 3 .

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