JP3702621B2 - Image reader / recorder - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image reading / recording apparatus that reads an image of a document and records the read image on a recording sheet.
[0002]
[Prior art]
In an image reading / recording apparatus such as a facsimile machine or a copying machine, a document to be read is automatically sent to a reading position one by one by an ADF (Auto Document Feeder) mechanism, and an image is read. The recording paper to be recorded is automatically sent to the recording position one by one, the read image is recorded, and the recording paper on which the image is recorded is discharged. In order to automatically carry the original and the recording paper, a plurality of sensors for detecting the original and the recording paper are provided in the original conveyance path and the recording paper conveyance path, respectively. Hereinafter, the operation of transporting the original and the recording paper will be briefly described focusing on the operation of the sensor.
[0003]
Two types of sensors (a first document sensor and a second document sensor) are provided in the document transport path in front of the reading position (upstream in the transport direction). The first document sensor is composed of a set of two sensors provided in the width direction of the document, and is provided in the vicinity of a position where one or a plurality of documents are placed. The size (for example, A4 width or B4 width) is detected. On the other hand, the second document sensor is provided between the installation position of the first document sensor and the reading position, and detects the start end and the end of the conveyed document.
[0004]
After the presence of the placed document and its size are detected by the first document sensor, when a document retraction command is issued, the separation roller for separating the documents one by one is rotated so that the document is Only one sheet is fed into the transport path. Then, the starting edge of the document that has been transported is detected by the second document sensor, and the second document sensor is turned on. Since the distance between the installation position of the second document sensor and the reading position is known in advance, the document reaches the reading position when the document is conveyed by a predetermined amount from the document start edge detection timing. The image reading process is started. Thereafter, the end of the document is detected by the second document sensor, the second document sensor is turned off, and when the reading process is continued for a predetermined document conveyance amount from the document end detection timing, one document This reading process ends.
[0005]
Two types of sensors (a first recording paper sensor and a second recording paper sensor) are provided on the recording paper conveyance path in front of the recording position (upstream in the conveyance direction), and behind the recording position (downstream in the conveyance direction). One type of sensor (third recording paper sensor) is provided. The first recording paper sensor is provided in the vicinity of the storage position of the recording paper, and detects the presence or absence of the recording paper to be recorded. The second recording paper sensor is provided between the installation position of the first recording paper sensor and the recording position, and detects the start and end of the conveyed recording paper. A third recording paper sensor provided on the discharge side detects the presence or absence of the recording paper to be discharged.
[0006]
After the presence of the stacked recording sheets is detected by the first recording sheet sensor, when a recording sheet retraction command is issued, one recording sheet is conveyed into the conveyance path. Then, the start edge of the recording paper that has been transported is detected by the second recording paper sensor, and the second recording paper sensor is turned on. Since the distance between the installation position of the second recording paper sensor and the recording position is known in advance, the recording paper reaches the recording position when the recording paper is conveyed by a predetermined amount from the recording paper start edge detection timing. The read image recording process is started at the arrival timing. After that, the end of the recording paper is detected by the second recording paper sensor, the second recording paper sensor is turned off, and the recording process is continued for a predetermined recording paper conveyance amount from the recording paper end detection timing. The recording process for one recording sheet is completed. The third recording paper sensor detects that the recording paper has been discharged. Note that the recording paper feed amount is counted by a recording paper counter.
[0007]
With the automatic conveyance system as described above, images of a plurality of originals of any size are read one by one, the read images of each original are recorded on a single recording sheet, and the recorded paper is discharged. Is done.
[0008]
[Problems to be solved by the invention]
By the way, when an image of one original is read, the read image may exceed the standard size (A4 size, B4 size, etc.) of the recording paper in the length direction. In such a case, the image reading / recording apparatus configured to store the read image data in the image memory can determine the length of the image data. The recording image is recorded separately on one recording paper, the read image is reduced and recorded on one recording paper, and the read image is not reduced, and the excess portion is discarded and only the portion that fits on one recording paper is recorded. It is possible to freely select the recording process.
[0009]
However, in an image reading / recording apparatus that does not have an image memory for storing read image data, the length of the image data cannot be determined, so that an appropriate recording process is performed when a document longer than a standard size is read. There is a problem that cannot be performed.
[0010]
The present invention has been made in view of such circumstances, and an image reading / recording apparatus capable of performing an appropriate recording process on a recording sheet when a document longer than a standard size is read even when the image memory is not used. The purpose is to provide.
[0011]
Another object of the present invention is to use an existing sensor provided in an automatic conveyance system for originals and recording paper, and to perform image reading that can appropriately cope with an original longer than a standard size without providing a new sensor. -To provide a recording device.
[0012]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided an image reading / recording device that reads an image of a conveyed document and records it on a plurality of recording papers that are sequentially conveyed. Means, a second means for detecting the end of the recording paper at the recording position, and if the first means detects a document when the second means detects the end of the recording paper, the next recording paper is recorded. And a means for conveying to a position.
[0013]
According to a second aspect of the present invention, there is provided an image reading / recording apparatus that reads an image of a conveyed document and records it on a plurality of recording sheets that are sequentially conveyed. Means, a second means for detecting the end of the recording paper at the recording position, and a time when the second means detects the end is within a predetermined time from a time when the first means no longer detects the document, And a means for conveying the next recording sheet to a recording position.
[0014]
An image reading / recording apparatus according to a third aspect of the present invention is the image reading / recording apparatus according to the first or second aspect, wherein the second means is a first sensor that is located upstream of the recording position and detects the end of the recording paper; A second sensor for measuring the transport amount, and when the measurement result of the second sensor from the timing when the first sensor detects the end of the recording paper reaches a predetermined value, the recording paper at the recording position The present invention is characterized in that the end is detected.
[0015]
In the image reading / recording apparatus according to the first aspect of the present invention (invention 1), when the second means (second recording paper sensor and recording paper counter) detects the end of the recording paper at the recording position, it comes before the reading position. When the presence of the original is detected by the first means (second original sensor) located at the position, that is, when the end of the original is not detected yet (the second original sensor is on), the original image has a predetermined size. Since it can be determined that the recording paper is longer than the recording paper and cannot be recorded on one recording paper, the next recording paper is conveyed to the recording position so that an image exceeding a predetermined size can be recorded.
[0016]
In the image reading / recording apparatus of the second invention (invention 2), the timing at which the end of the recording paper is detected at the recording position by the second means (second recording paper sensor and recording paper counter) is before the reading position. More than a predetermined time has elapsed since the time when the first means (second document sensor) located at the position no longer detects the presence of the document, that is, when the end of the document is detected (the second document sensor is turned off). If it is not, it can be determined that the original image is longer than the recording paper of a predetermined size and cannot be recorded on one recording paper, so the next recording paper is recorded at the recording position so that an image exceeding the predetermined size can be recorded. Transport to.
[0017]
By performing the control as described above, both the first invention and the second invention record the protruding portion on the next recording paper even when an image protruding from a predetermined size is read. As a result, the scanned image is reliably recorded without being discarded, and as a result, even if the configuration does not include an image memory, an appropriate recording process can be performed even for a document exceeding the standard size by using an existing sensor. Can be applied.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be specifically described with reference to the drawings showing embodiments thereof.
[0019]
FIG. 1 is a schematic diagram showing an image reading / recording apparatus of the present invention. In the figure, reference numeral 1 denotes a document transport system for transporting a document D to be read, and 2 denotes a recording paper transport system for transporting a recording paper P for recording a read image.
[0020]
In the document conveying system 1, a placing plate 11 for placing one or a plurality of documents D to be read, a separation roller 12 for separating the documents D one by one, and a separated document D are conveyed. Are provided with a conveying roller 13 and a reading unit 14 for reading an image of the conveyed document D. In addition, a first document sensor 15 and a second document sensor 16 are provided in front of the reading position where the reading unit 14 is installed (upstream in the transport direction). The first document sensor 15 is composed of a set of two sensors provided in the width direction of the document D, and is provided in the vicinity of the placing plate 11, and the presence and size of the document D (for example, A4 width) Or B4 width). On the other hand, the second document sensor 16 is provided between the installation position of the first document sensor 15 and the reading position, and detects the start and end of the document D being conveyed. The second document sensor 16 corresponds to the first means in the claims.
[0021]
The recording paper transporting system 2 transports the storage device 20 that stores the recording paper P, the pickup roller 21 that feeds the recording paper P one by one from the storage device 20, and the fed recording paper P. A conveying roller 22 for recording and a recording unit 23 for recording the read image on the conveyed recording paper P are provided. In addition, a first recording paper sensor 24 and a second recording paper sensor 25 are provided in front of the recording position, which is the installation position of the recording unit 23 (upstream in the transport direction), and behind the recording position (downstream in the transport direction). A third recording paper sensor 26 is provided. The first recording paper sensor 24 is provided in the vicinity of the storage position of the recording paper P, and detects the presence or absence of the recording paper P. The second recording paper sensor 25 is provided between the installation position and the recording position of the first recording paper sensor 24, and detects the start and end of the conveyed recording paper P. The third recording paper sensor 26 is provided on the discharge side and detects the presence or absence of a recorded recording paper P. Further, a counter 27 for counting the feeding amount of the recording paper P is provided. The second recording paper sensor 25 and the counter 27 correspond to the first sensor and the second sensor in the claims, respectively, and the second recording paper sensor 25 and the counter 27 correspond to the second means in the claims. Is configured.
[0022]
Reference numeral 3 denotes a CPU for controlling the conveying operation of the original D and the recording paper P, the image reading process, the read image recording process, and the like. The CPU 3 includes the first original sensor 15, the second original sensor 16, and the like. A first recording paper sensor 24, a second recording paper sensor 25, a third recording paper sensor 26, and a counter 27 are connected, and the detection results of these sensors and the counting results of the counter 27 are input. Further, the CPU 3 has a counter 31 for counting the number of lines after the second document sensor 16 detects the end of the document D. The CPU 3 controls a motor (not shown) for conveying the document D and the recording paper P, the reading unit 14 and the recording unit 23.
[0023]
Next, the conveying operation of the document D and the recording paper P, the reading process, and the recording process will be described. After the presence of the document D placed on the placement plate 11 and its size are detected by the first document sensor 15, when a retraction command for the document D is issued, one document D is placed on the separation roller 12. They are separated by rotation and fed into the transport path. Then, the second document sensor 16 detects the starting edge of the document D that has been transported, and the second document sensor 16 is turned on. Since the distance between the installation position of the second original sensor 16 and the reading position (the installation position of the reading unit 14) is known in advance, the original D is read when the original D is conveyed by a predetermined amount from the original start edge detection timing. The position reaches the position (above the reading unit 14), and reading processing of the image is started by the reading unit 14 at the arrival timing. Thereafter, the second document sensor 16 detects the end of the document D, and the second document sensor 16 is turned off. When the reading process is continued in the reading unit 14 by a predetermined conveyance amount of the document D from the document end detection timing, the reading process of one document D is completed.
[0024]
After the presence of the recording paper P stacked in the container 20 is detected by the first recording paper sensor 24, when a recording paper P retraction command is issued, one recording paper P is rotated by the rotation of the pickup roller 21. It is carried into the conveyance path. Then, the starting end of the recording paper P that has been transported is detected by the second recording paper sensor 25, and the second recording paper sensor 25 is turned on. Since the distance between the installation position of the second recording paper sensor 25 and the recording position (installation position of the recording unit 23) is known in advance, recording is performed when the recording paper P is conveyed by a predetermined amount from the recording paper start edge detection timing. The paper P reaches the recording position (above the recording unit 23), and the recording process of the read image is started by the recording unit 23 at the arrival timing. Thereafter, the end of the recording paper P is detected by the second recording paper sensor 25, and the second recording paper sensor 25 is turned off. When the recording process is continued in the recording unit 23 for a predetermined amount of conveyance of the recording sheet P from the recording sheet end detection timing, the recording process for one recording sheet P is completed. Then, the third recording paper sensor 26 detects that the recording paper P has been discharged. The feeding amount of the recording paper P is counted by the counter 27.
[0025]
By the automatic conveyance system as described above, images of a plurality of originals D of arbitrary size are read one by one, and the read images of the respective originals are recorded on a single recording paper P, respectively. Is discharged.
[0026]
Next, a diagram illustrating a processing procedure for the operation of the characteristic portion of the present invention that enables appropriate recording processing when an image read from the document D exceeds the size of the recording paper P in the length direction. This will be described with reference to the flowchart of FIG. 3A is a diagram showing the positional relationship between the first document sensor 15, the second document sensor 16 and the reading position in the document transport system 1, and FIG. 3B is a diagram in the recording paper transport system 2. FIG. FIG. 3 is a diagram illustrating a positional relationship between a first recording paper sensor 24, a second recording paper sensor 25, a third recording paper sensor 26, and recording positions.
[0027]
The count value X of the counter 31 built in the CPU 3 is initialized to 0 when the document D to be read starts to be conveyed, the leading edge of the document D is detected, and the second document sensor 16 is on. Set (step S1). The count value X is a count value of the number of lines since the second document sensor 16 is turned off. Then, a reading process and a recording process for one line of the document D are executed (step S2).
[0028]
Next, it is determined whether or not the end of the recording paper P is detected at the recording position (step S3). Specifically, when the counter 27 counts a predetermined number of feed amounts after the second recording paper sensor 25 is turned off, it is determined that the end of the recording paper P has reached the recording position, and otherwise Is determined that the end of the recording paper P has not yet reached the recording position. When the end of the recording paper P is not detected at the recording position (S3: NO), whether or not the second document sensor 16 is on, that is, whether or not the second document sensor 16 has detected the end of the document D. Is determined (step S4).
[0029]
If the second document sensor 16 is on, that is, if the second document sensor 16 has not detected the end of the document D (S4: YES), the process returns to S2 for the next one line. Read and record processing is executed. On the other hand, when the second document sensor 16 is off, that is, when the second document sensor 16 detects the end of the document D (S4: NO), the count value X of the counter 31 is incremented by one. After that (step S5), the process returns to S2, and the reading / recording process for the next one line is executed.
[0030]
When the end of the recording paper P is detected at the recording position, that is, when the counter 27 counts a predetermined number of feed amounts after the second recording paper sensor 25 is turned off (S3: YES), the second document It is determined whether or not the sensor 16 is on, that is, whether or not the second document sensor 16 has detected the end of the document D (step S6). When the second document sensor 16 is on, that is, when the second document sensor 16 does not detect the end of the document D (S6: YES), one document D image is one recording sheet. Since P exceeds P, the next recording paper P is conveyed to the recording position by the pickup roller 21 and the conveying roller 23 (step S7), and then the process returns to S2 to execute the reading / recording process for the next one line. To do.
[0031]
On the other hand, when the second document sensor 16 is off, that is, when the second document sensor 16 detects the end of the document D (S6: NO), the count value X of the counter 31 is not more than a predetermined value. Is determined (step S8). If the value is equal to or less than the predetermined value (S8: YES), the image of one original D exceeds the recording paper P by a predetermined amount or more, so the next recording paper P is loaded by the pickup roller 21 and the transport roller 23. After transporting to the recording position (step S7), the process returns to S2, and the reading / recording process for the next one line is executed. On the other hand, when the count value X is larger than the predetermined value (S8: NO), the image of one document D does not fit in one sheet of recording paper P, but the excess portion is very small. The recording process for the page ends. The predetermined value to be compared with the count value X is appropriately set based on the distance between the second document sensor 16 and the reading unit 14 and the length of the lower end of the document that does not cause a problem even if it is not recorded on the recording paper P.
[0032]
In the flowchart shown in FIG. 2, the flow of S3 → S6 → S7 corresponds to the first invention, and the flow of S3 → S6 → S8 → S7 corresponds to the second invention.
[0033]
【The invention's effect】
As described above, in the image reading / recording apparatus according to the present invention, even if the image memory is not used, a new sensor can be obtained only by using an existing sensor provided in an automatic conveyance system for originals and recording paper. It is possible to perform an appropriate recording process when a document longer than the standard size is read.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an image reading / recording apparatus of the present invention.
FIG. 2 is a flowchart showing a processing procedure in the image reading / recording apparatus of the present invention.
FIG. 3 shows the positional relationship between the first document sensor, the second document sensor, and the reading position in the document conveyance system in the image reading / recording apparatus of the present invention, and the first recording paper sensor and the second recording in the recording paper conveyance system. It is a figure which shows the positional relationship of a paper sensor, a 3rd recording paper sensor, and a recording position.
[Explanation of symbols]
1 Document transport system 2 Recording paper transport system 3 CPU
14 Reading unit
15 First document sensor
16 Second document sensor
23 Recording section
24 First recording paper sensor
25 Second recording paper sensor
26 3rd recording paper sensor
27 counter

Claims (3)

In an apparatus for reading an image of a conveyed document and recording it on a plurality of recording papers that are sequentially conveyed, a first means for detecting the presence or absence of the document on the upstream side of conveyance of the reading position, and an end of the recording paper at the recording position A second means for detecting; and a means for conveying the next recording sheet to a recording position when the first means detects the original when the second means detects the end of the recording sheet. Image reading / recording device. In an apparatus for reading an image of a conveyed document and recording it on a plurality of recording papers that are sequentially conveyed, a first means for detecting the presence or absence of the document on the upstream side of conveyance of the reading position, and an end of the recording paper at the recording position Second means for detecting, and means for transporting the next recording sheet to a recording position when the second means detects the end point within a predetermined time from when the first means no longer detects the document. An image reading / recording apparatus comprising: The second means includes a first sensor that is located upstream of the recording position in the conveyance and detects the end of the recording paper, and a second sensor that measures the conveyance amount of the recording paper, and the first sensor records 3. The image reading / recording according to claim 1, wherein the end of the recording paper at the recording position is detected when a measurement result of the second sensor from a timing when the end of the paper is detected reaches a predetermined value. apparatus.

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