JP3804551B2 - Image reading device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image reading apparatus that optically reads an image drawn on a document, and in particular, an image reading apparatus that supports a so-called CVT (Constant Velocity Transfer) system that performs image streaming reading from a document moving at a constant speed. About.
[0002]
[Prior art]
In recent years, some image reading apparatuses used in copiers, scanner apparatuses, and the like are compatible with CVT image reading. In the CVT method, the scanning optical system is fixed at a predetermined position, and an original document to be read is moved at a constant speed by using an automatic document feeder (ADF), etc. Reading is to be performed. Therefore, if CVT image reading is performed, for example, it is possible to flow and read an image while continuously moving a plurality of originals at a high speed, which greatly improves image reading productivity (reading efficiency). Easy to.
[0003]
In addition, as is often seen in some image reading devices that can read color images, for example, ACS (automatic color selection) for automatically identifying a color / monochrome document, or the color density of the document itself. Some are capable of handling advanced image reading such as gradation correction (background removal) according to (background density). In such an image reading apparatus, normally, a document to be read is preliminarily scanned, document information (color / monochrome determination, background density, etc.) is detected from the result, and the detection result is preliminarily scanned. By reflecting this in the result of the main scan that follows, high-quality image reading is realized.
[0004]
[Problems to be solved by the invention]
However, when an advanced image reading such as ACS or background removal is realized in a CVT image reading apparatus, the following difficulties will occur. In the CVT type image reading apparatus, an image is read while moving the document at a constant speed, and the read document is discharged onto a discharge tray. The image cannot be read many times. Therefore, the CVT image reading apparatus cannot perform image reading reflecting document information.
[0005]
With respect to this point, it is also conceivable that the user of the image reading device can read the image twice on the same side of the same document by resetting the document once ejected. However, in such a case, the user is forced to take a lot of time and effort, and the advantage of the CVT method of improving the reading efficiency is offset. An ADF for realizing CVT image reading generally has a function of reversing the front and back of a document. However, since this function enables both-side scanning of a document, By simply using this function, it is not possible to read an image twice on the same side of the same document. For example, as disclosed in Japanese Patent Application Laid-Open No. 9-281775, an image that can be read twice on the same side of the same document in the reverse direction without discharging the document that has passed the image reading position is disclosed. A mechanism has been proposed in which the image reading is performed again. However, in such a mechanism, the document transport path must be linear, and it is necessary to linearly arrange the document discharge tray and the space for sending back the document, resulting in an increase in the area occupied by the image reading apparatus. Will cause the problem.
[0006]
Therefore, the present invention can perform optimum image reading according to a document to be read without causing a decrease in reading efficiency or an increase in occupied area even when CVT image reading is performed. It is an object of the present invention to provide an image reading apparatus that can be used.
[0007]
[Means for Solving the Problems]
  The present invention is an image reading apparatus devised to achieve the above object, and optically reads an image drawn on a document to be read from the document to be read. A document conveying means for moving the document at a constant speed on a predetermined image reading position, and a document reversing means for reversing the front and back of the document that has passed through the image reading position and passing it over the image reading position again., A transport destination selecting means for switching whether the transport destination of the document that has passed through the image reading position is the document reversing means or a discharge tray from which the document after image reading is discharged, the transport destination selecting means, A document discharge path connecting to the discharge tray, and a bypass path for discharging the document sent to the document reversing means to the document discharge path without passing over the image reading position again.When a mode that requires preliminary scanning is selected, the image is read a plurality of times on the same surface of the same document through a plurality of document movements by the document conveying unit and a document reversal by the document reversing unit. Is configured to doIn addition, if the document that has passed the image reading position is once sent to the document reversing unit by the transport destination selecting unit, and the document received by the document reversing unit is not required to be scanned after the preliminary scan, the document Is discharged from the document reversing means to the discharge tray through the bypass path and the document discharge path.It is characterized by this.
[0008]
  An image reading apparatus according to the present invention optically reads an image drawn on a document to be read from the document to be read, and reads the document to be read on a predetermined image reading position. Document conveying means that moves at a constant speed, document reversing means that reverses the front and back of the document that has passed through the image reading position, and then passes the image reading position again, and conveyance of the document that has passed through the image reading position A transport destination selection means for switching between the document reversing means and a discharge tray for discharging the document after image reading, and the document sent to the document reversing means again pass over the image reading position. And a document discharge path means for discharging directly from the document reversing means to the discharge tray, and when a mode that requires preliminary scanning is selected, a plurality of times The document is moved by the document conveying unit and the document is reversed by the document reversing unit, and the image is read a plurality of times on the same surface of the same document, and the document that has passed through the image reading position is temporarily stored. When the transport destination selection unit sends the document to the document reversing unit and the original received by the document reversing unit does not require a main scan following the preliminary scan, the document is transferred from the document reversing unit to the document discharge path unit. It is configured to discharge to the discharge tray.
[0009]
  An image reading apparatus according to the present invention optically reads an image drawn on a document to be read from the document to be read, and reads the document to be read on a predetermined image reading position. Document conveying means that moves at a constant speed, document reversing means that reverses the front and back of the document that has passed through the image reading position, and then passes the image reading position again, and conveyance of the document that has passed through the image reading position A transport destination selecting means for switching whether the destination is the document reversing means or a discharge tray from which the document after image reading is discharged, and a document discharge path connecting the transport destination selecting means and the discharge tray A document transport path for transporting a document on the document discharge path to the document reversing unit without discharging the document to the discharge tray, and a mode requiring a preliminary scan is selected A plurality of times of document movement by the document conveying means and document reversing by the document reversing means, and a plurality of times of image reading on the same surface of the same document, and passing through the image reading position. Once the transport destination selection means sends the original to the original discharge path, and when the transport destination selection means sends the original, the original is temporarily stopped on the original discharge path, and the original on the original discharge path is followed by preliminary scanning. When the main scan is required, the original is sent from the original discharge path to the original reversing means via the original transport path. On the other hand, when the main scan is not required, the pause state of the original is released. It is characterized in that the sheet is discharged to the discharge tray as it is.
[0010]
  According to the image reading apparatus having the above configuration, when a mode that requires preliminary scanning is selected, document movement and document reversal are performed a plurality of times. For example, the image reading position passes on the document surface side (preliminary scan). It is possible to reverse the document → pass the image reading position on the back side of the document (dummy scan) → reverse the document → pass the image reading position on the front side of the document (main scan) → discharge. That is, since the image reading can be performed a plurality of times on the same surface of the same document, it is possible to perform a preliminary scan and a main scan in which the result of the preliminary scan is reflected on the same document.
  In addition, after the preliminary scan, when the main scan following the preliminary scan is not required, the document sent to the document reversing unit is discharged to the discharge tray via the bypass path and the document discharge path, or the document sent to the document reversing unit. Is discharged to the discharge tray through the document discharge path means, or the document paused on the document discharge path is released from the paused state and discharged to the discharge tray as it is, so that the document is not passed through the image reading position. Can be expected to improve the reading productivity.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The image reading apparatus according to the present invention will be described below with reference to the drawings. The image reading apparatus described in this embodiment is used in, for example, a copying machine, a scanner apparatus, or a facsimile apparatus, and optically reads an image drawn on a document from a sheet-like document to be read. It is.
[0012]
[Schematic configuration of image reading apparatus]
Here, first, a schematic configuration of the image reading apparatus will be described. FIG. 1 is a cross-sectional view illustrating an example of a schematic configuration of an image reading apparatus according to the present invention, and FIG. 2 is a block diagram illustrating an example of a circuit configuration included in the image reading apparatus.
[0013]
As shown in FIG. 1, an image reading apparatus 10 described here includes a first carriage 12 (hereinafter referred to as “CRG”) 12 functioning as a scanning optical system, and a second CRG 13 below a platen glass 11. And a lens 14 and a CCD (Charge Coupled Device) sensor 15. When the irradiation light from the illumination lamp 12a of the first CRG 12 is reflected by the original to be read, the optical axis directions of the reflected light are changed in the first mirror 12b of the first CRG 12 and the second mirror 13a of the second CRG 13. Then, after being folded back by the third mirror 13b, the lens 14 condenses the light at a predetermined focal position, and the CCD sensor 15 receives the reflected light after the light is condensed. As a result, the image reading apparatus 10 reads an optical image from a document to be read. Although the first CRG 12 and the second CRG 13 can move along the platen glass 11 in conjunction with each other depending on the image reading method (see arrow A in the figure), the image reading corresponding to the CVT method is possible. In this case, each is assumed to be stationary at a predetermined position (see point B in the figure). Therefore, in the case of image reading by the CVT method, irradiation of illumination light or the like to the original as described above is performed at a predetermined image reading position B.
[0014]
Further, the image reading apparatus 10 includes a processing circuit group for performing predetermined signal processing or the like on an output signal that is a result of optical image reading by the CCD sensor 15. Specifically, as shown in FIG. 2, a reading circuit 16 that performs signal processing such as A / D conversion on the output signal from the CCD sensor 15, and original information about the original that is the result of reading. A detection circuit 17 that detects (color / monochrome determination, background density, etc.) and an image processing circuit 18 that performs image processing on the result of image reading while following parameters set based on the detection result of the detection circuit 17 It is configured to output data after image processing by the image processing circuit 18 to an external device 19 (for example, an output device such as a printer or a storage device such as a file server) 19. Note that the details of the processing in each of these circuits 16 to 19 are substantially the same as those of the conventional circuit, and therefore the description thereof is omitted here.
[0015]
On the other hand, in FIG. 1, an ADF 20 is disposed above the platen glass 11 so as to cover the platen glass 11 so as to be freely opened and closed. The ADF 20 is for moving a document to be read at a constant speed on a predetermined image reading position B, thereby enabling image reading corresponding to the CVT method. For this purpose, the ADF 20 includes a paper feed tray 21 on which a document to be read is stacked, a discharge tray 22 on which a document after image reading is discharged, a document transport unit 23 including a combination of a document guide path and transport rollers. The document transport means 23 transports the documents set on the sheet feed tray 21 one by one from the sheet feed tray 21 to the discharge tray 22 via a predetermined image reading position B. Yes.
[0016]
Also, the ADF 20 described here is a document reversing unit for reversing the front and back of the document that has passed the image reading position B and allowing it to pass again on the image reading position B so as to enable image reading on both sides of the document. 24. The document reversing means 24 is a so-called loop path, and includes an inverter unit 24a that temporarily holds a document to be reversed, and an inverter entry path 24b for sending the document that has passed the image reading position B to the inverter unit 24a. , And an inverter discharge path 24c for causing the document transport means 23 to transport the document held in the inverter unit 24a again.
[0017]
It should be noted that whether the document that has passed the image reading position B is directly discharged to the discharge tray 22 or reversed by the document reversing unit 24 can be selected as appropriate. That is, in the ADF 20, the document that has passed the image reading position B is discharged onto the discharge tray 22 through the document discharge path 23a that connects the image reading position B to the discharge tray 22, or through the inverter entry path 24b. It is possible to select whether to send it to the section 24a and to reverse the front and back. However, as the transport destination selection means for performing this selection, a known technique such as rail switching using the operation of the solenoid may be used, and thus detailed description thereof is omitted here. The document reversing means 24 also has a bypass path 24d for directly discharging the document held by the inverter unit 24a to the document discharge path 23a. The document can be discharged to the discharge tray 22 without passing through the printer.
[0018]
[Example of processing operation in image reading apparatus]
Next, a processing operation example in the image reading apparatus 10 configured as described above will be described. Here, an image reading operation using the CVT method will be described as an example, particularly when a mode that requires document detection or range designation by preliminary scanning is selected. The case where a mode that requires preliminary scanning is selected corresponds to the case where a mode such as ACS, background removal, automatic contrast correction, preview, or image extraction is selected. In addition, these mode selections are performed by a user operation on a user interface unit (operation panel or the like) provided in the image reading device 10 or a host device connected to the image reading device 10 (for example, a scanner device serving as an image reading device and a network connection). In response to an instruction from a computer device).
[0019]
When a mode that requires preliminary scanning is selected, in the image reading apparatus 10, the document conveying means 23 of the ADF 20 feeds the document one by one from the paper feed tray 21 and passes it over the image reading position B. Is not discharged to the discharge tray 22, but the document reversing unit 24 is used to repeat the document reversal and the movement of the document on the image reading position B several times. Specifically, after one surface of the original (hereinafter referred to as “front surface”) is passed over the image reading position B with the surface facing the scanning optical system, the original is discharged to the discharge tray 22. Without being sent to the document reversing means 24, the front and back sides are reversed, and then the document is passed over the image reading position B with the back side of the document facing the scanning optical system. The document is again passed over the image reading position B with the surface of the document facing the scanning optical system, and then the document is discharged to the discharge tray 22. Therefore, the image reading position B passes on the front side of the document (preliminary scan) → the document is reversed → the image reading position B passes on the back side of the document (dummy scan) → the document is reversed → the image reading position B passes on the front side of the document (main scan) → Thus, the image can be read out twice on the same side of the same document.
[0020]
As described above, the image reading apparatus 10 according to the present embodiment can perform image reading twice such as preliminary scanning and main scanning on the same side of the same document even when performing CVT image reading. As a result, it is possible to perform image reading reflecting document information of a document to be read. In addition, even in that case, the user is not required to take a lot of time and effort and does not require a large occupied area. Therefore, according to the image reading apparatus 10 of the present embodiment, it can be said that optimal image reading according to the original to be read can be realized without causing a reduction in reading efficiency or an increase in the occupied area.
[0021]
There are three possible procedures for moving and reversing a document several times to enable such image reading as described below. The details of these three procedures will be described below as first to third processing operation examples.
[0022]
[First processing operation example]
Here, it is assumed that the ACS mode is selected as a mode that requires preliminary scanning, and a case where single-sided scanning / double-sided scanning is performed on a color document / monochrome document will be described separately. FIG. 3 is an explanatory diagram showing the procedure of the first processing operation example. In the figure, “unit cycle” indicates a cycle (a period required for reading an image of one original) in a mode in which only one side of a monochrome original is read in a mode that does not require a preliminary scan.
[0023]
In addition, for the image processing circuit 18 that performs image processing on the result of image reading, it is assumed that parameters suitable for processing a color document or a monochrome document are set in advance as default values. This parameter may be any parameter that is suitable for processing of either a color document or a monochrome document. Here, a description is given assuming that a parameter suitable for the processing of a monochrome document is set as a default value.
[0024]
When the ACS mode is selected, the image reading apparatus 10 passes the document over the image reading position B with the surface of the document facing the scanning optical system as described above, and then the document is reversed. Send to 24. Then, data output for either a black and white image or a color image and the necessity of preliminary scanning are performed based on a single image reading result for the surface. The data output at this time is from the reading circuit 16 to the image processing circuit 18, and corresponds to the parameter presetting in the image processing circuit 18. For example, if parameters suitable for monochrome document processing are set, data output for a monochrome image is performed. Further, whether or not the preliminary scan is necessary is determined according to the parameter presetting in the image processing circuit 18. For example, when a parameter suitable for monochrome document processing is set, if it is detected from the image reading result that the document is a monochrome document, a parameter suitable for monochrome document processing has already been set in the image processing circuit 18. Therefore, it is determined that it is not necessary to read the image twice such as the preliminary scan and the main scan because the parameter change is unnecessary and the data output for the monochrome image is performed at the same time.
[0025]
Therefore, when the reading target is only one side of a black and white document, it is determined that the preliminary scan is unnecessary by detection in the first unit cycle and reading of the black and white image (hereinafter referred to as “BW reading”). At the same time, the data for the black and white image is directly processed by the image processing circuit 18. Thereafter, in order to discharge the original that has been sent to the original reversing means 24 and is waiting for the determination, the front and back sides of the original are reversed in the next unit cycle, and the original image is not read in the next unit cycle. Then, the original is passed over the image reading position B (dummy scan), and then the original is sent to the original reversing means 24 again. Then, in the next unit cycle, the document is discharged from the bypass path 24d to the discharge tray 22 without passing over the image reading position B. Here, the document after dummy scanning is sent directly to the document reversing means 24 without being directly discharged to the discharge tray 22 in order to align the front and back directions of the document when discharged onto the discharge tray 22 with other cases. is there. In the unit cycle after the dummy scan, since the document is discharged through the bypass path 24d, detection of the next new document and BW reading can be started.
[0026]
On the other hand, when the object to be read is only one side of a color document, it is determined that a preliminary scan is necessary from the results of detection and BW reading in the first unit cycle. The detection at this time corresponds to the preliminary scan, and the black-and-white image data obtained at this time is canceled (cancelled) because it cannot be used as it is. Thereafter, in each subsequent unit cycle, the front / back inversion of the original, the dummy scan, and the front / back inversion are sequentially performed, and the color image that is the main scan is read on the surface of the original (hereinafter referred to as “CL reading”). At this time, the parameter has already been changed for the image processing circuit 18 so as to be suitable for processing of a color document based on the detection result of the detection circuit 17 during the preliminary scan. Therefore, the data about the color image obtained during the main scan is processed by the image processing circuit 18 after the parameter change. When the main scan is completed, the document is discharged onto the discharge tray 22 through the document discharge path 23a in the next unit cycle. The discharge at this time is already performed through the document discharge path 23a as it is without passing through the document reversing means 24 because the front / back inversion has already been repeated twice. Even in the unit cycle after the main scan, it is possible to start detection and BW reading for the next new document.
[0027]
Further, when the reading object is both sides of a black and white document, the document surface detection and BW reading → reverse front and back are sequentially performed in each unit cycle as in the case of the above-described single-sided black and white document. However, in the case of double-sided scanning, since this is instructed, for example, by a user operation, what is performed in the subsequent unit cycle is not the dummy scan but the detection of the back side of the document and the BW reading. At this time, since it is determined that the preliminary scan is unnecessary for any of the surfaces, the data about the black and white image obtained at the same time as the detection is processed by the image processing circuit 18 as it is. Thereafter, as in the case of a single-sided black and white original, the original is once sent to the original reversing means 24 and discharged to the discharge tray 22 via the bypass path 24d so that the processing of the next original starts. It becomes possible.
[0028]
On the other hand, when the object to be scanned is both sides of a color document, the document surface detection and BW reading → reverse-side reverse → document back surface detection and BW reading are sequentially performed in each unit cycle. Since it is determined that the preliminary scan is necessary, in each subsequent unit cycle, the front / reverse reversal → the document surface CL reading → the front / reverse reversal → the document back surface CL reading is sequentially performed. Then, the data about the color image obtained at the time of reading each CL is processed by the image processing circuit 18 after the parameter change. After that, similarly to the case of reading both sides of a black and white document, the paper is reversed and discharged (the processing of the next document is started).
[0029]
Also, if the original is to be scanned on both sides of a document, but a black and white image is drawn on the front side and a color image is drawn on the back side, the front side of the document is detected and BW scanning → front and back in each unit cycle. Reverse → Detect the back side of the document and BW scan → Reverse the front and back → Dummy scan on the front side of the document (BW scanning of the front side of the document may be performed here) → Reverse the front and back → CL scan on the back side of the original → Process start).
[0030]
On the other hand, if the object to be read is on both sides of the document, a color image is drawn on the front side and a black and white case is drawn on the back side. For example, if data output can be performed in the order of back side to front side, document surface detection and BW reading in each unit cycle → front and back inversion → document back side detection and BW reading → front and back inversion → document surface CL reading → discharge onto the discharge tray 22 (start of processing of the next original) is sequentially performed. However, when it is necessary to output data in the order of front side → back side, document surface detection and BW reading in each unit cycle → front / reverse inversion → document back side detection and BW reading → front / reverse inversion → CL on the document surface Reading, front / back reversal, BW scanning on the back side of the document, front / back reversal discharge (start of processing of the next document) is sequentially performed.
[0031]
Here, the case where BW reading and CL reading can be performed in the same cycle has been described as an example, but it is needless to say that it is not necessarily the same. FIG. 4 is an explanatory diagram showing a procedure of a processing operation example when BW reading and CL reading are not in the same cycle. As shown in the figure, for example, even in the case of CL reading = 2 × BW reading, it is conceivable to perform the processing operation in exactly the same procedure as described above.
[0032]
As described above, according to the procedure described in the first processing operation example, if the reading target is one side / both sides of a color original / monochrome original, the same side of the same original is pre-scanned as necessary. In addition, since it is possible to perform image reading twice such as main scanning, it is possible to realize optimum image reading according to a document to be read.
[0033]
Moreover, once an image is read for a document passing over the image reading position B, for example, a monochrome image is displayed regardless of whether the document is a monochrome image or a color image. Perform data output. When a black and white image is drawn on the document, the result of the data output can be used even if a mode that requires preliminary scanning is selected, so that preliminary scanning is unnecessary. Therefore, the original is discharged without passing the original on the image reading position B again. Therefore, for example, if the reading target is a black and white document, even if a mode that requires preliminary scanning is selected, it is possible to suppress the reading productivity of the black and white image from being reduced as much as possible. Specifically, for example, when reading a single side of a black and white document, the reading productivity is reduced to 1/3 compared to the case where a mode that does not require a preliminary scan is selected (end of one side of a document in one unit cycle). (If there is no data output for a black and white image, it is reduced to 1/5). In other words, by outputting data for a black and white image from a single image reading result, even when a mode that requires a preliminary scan is selected, it is possible to speed up image reading for the black and white image. . Needless to say, when data output for a color image is performed, it is possible to speed up image reading for the color image.
[0034]
In addition, since data is output for either a black-and-white image or a color image from a single image reading result, the main scan following the preliminary scan is omitted even when a mode that requires the preliminary scan is selected. This also makes it possible to speed up image reading. In addition, when the main scan following the preliminary scan is unnecessary, the original is discharged from the bypass path 24d to the discharge tray 22 without passing the original over the image reading position B again. In addition to improving the reading productivity, the front and back directions of the documents discharged onto the discharge tray 22 are aligned, which is very convenient for the user. It becomes.
[0035]
[Second processing operation example]
Next, a second processing operation example will be described. FIG. 5 is a document discharge path diagram in the second processing operation example. In the processing operation example described here, the ADF 20 is provided in the inverter unit 24a without passing the document held in the inverter unit 24a over the image reading position B and without passing through the bypass path 24d. A discharge path mechanism (not shown) can directly discharge the inverter 24a to the discharge tray 22 (see arrow C in the figure). Note that the discharge path mechanism provided in the inverter unit 24a may use a known technique such as shutter opening / closing using the operation of a solenoid or rotation direction control of the transport roller, and therefore detailed description thereof is omitted here.
[0036]
Here again, as in the case of the first processing operation example, it is assumed that the ACS mode is selected as a mode that requires preliminary scanning, and single-sided scanning / double-sided scanning is performed on a color document / monochrome document. This will be explained separately. Further, the point of performing data output for black and white images and determining whether or not preliminary scanning is necessary from the image reading result is the same as in the case of the first processing operation example. FIG. 6 is an explanatory diagram illustrating a procedure of the second processing operation example.
[0037]
As shown in the figure, when the reading target is only one side of a black and white original, it is determined that the preliminary scan is unnecessary from the detection in the first unit cycle and the result of the BW reading, and the black and white is also determined. Data about the image is directly processed by the image processing circuit 18. Then, the document that has been sent to the document reversing means 24 and is waiting for the determination is discharged. However, since the document can be discharged directly from the discharge path mechanism provided in the inverter unit 24a to the discharge tray 22, The front and back direction of the document can be aligned with other cases without performing the reverse of the document and the dummy scan. Accordingly, in the unit cycle after detection and BW reading, it is possible to perform document discharge using the discharge path mechanism (hereinafter referred to as “inverter discharge”) and to start detection and BW reading for the next new document. Become.
[0038]
On the other hand, when the reading target is only one side of the color original, it is determined that the preliminary scan is necessary based on the result of detection and BW reading in the first unit cycle. In each unit cycle, front / back reversal → dummy scan → front / back reversal → CL reading of the document surface is sequentially performed. Then, the data about the color image obtained at the time of CL reading is processed by the image processing circuit 18 after the parameter change. Thereafter, since the front / reverse reversal has already been repeated twice, the document is discharged without reversing the front / back (this may be the inverter discharge of the document sent to the document reversing means 24), and the process for the next document is performed. It can be started.
[0039]
When the reading target is both sides of the document, the processing in each unit cycle is performed for both the black and white document and the color document in the same procedure as in the first processing operation example.
[0040]
As described above, according to the procedure described in the second processing operation example, it is possible to realize optimum image reading according to the document to be read, just as in the case of the first processing operation example. In addition, since data output for a black and white image (or color image) is performed from a single image reading result, it is possible to speed up image reading.
[0041]
Furthermore, since the document can be directly discharged from the inverter unit 24a to the discharge tray 22 by the discharge path mechanism provided in the inverter unit 24a, even if the mode that requires the preliminary scan is selected, Further improvement in image reading productivity can be expected. Specifically, for example, when scanning a single side of a black and white document, the main scan following the preliminary scan is unnecessary, so by performing the inverter discharge, the front and back directions of the document discharged onto the discharge tray 22 are aligned. The processing of the next original can be started in the next unit cycle of reading. That is, for example, in the case of single-sided reading of a black and white document, it is possible to avoid a decrease in reading productivity when a mode that does not require preliminary scanning is selected (one-sided document single-sided end). it can. This is very suitable for reading a monochrome image where productivity (rapidity) is particularly important.
[0042]
[Third processing operation example]
Next, a third processing operation example will be described. FIG. 7 is a document discharge path diagram in the third processing operation example. In the processing operation example described here, the ADF 20 temporarily stops the document conveyed from the image reading position B to the document discharge path 23a at a predetermined position on the document discharge path 23a (see point D in the figure). At the same time, it is assumed that the temporarily stopped document is conveyed in the reverse direction, sent to the inverter unit 24a via the bypass path 24d, and temporarily held by the inverter unit 24a. The means for temporarily stopping the document on the document discharge path 23a may be a known technique such as a position detection sensor of the document or a rotation direction control of the conveying roller, and thus detailed description thereof is omitted here. .
[0043]
Here, as in the case of the first or second processing operation example, it is assumed that the ACS mode is selected as a mode that requires preliminary scanning, and single-sided scanning / double-sided scanning is performed on a color document / monochrome document. Will be described separately for each case. Further, the data output for the black and white image and the necessity of preliminary scanning are determined from the image reading result, as in the case of the first or second processing operation example. FIG. 8 is an explanatory diagram showing the procedure of the third processing operation example.
[0044]
As shown in the figure, when the reading target is only one side of a black and white original, it is determined that the preliminary scan is unnecessary from the detection in the first unit cycle and the result of the BW reading, and the black and white is also determined. Data about the image is directly processed by the image processing circuit 18. At this time, the document that has passed over the image reading position B is not sent to the document reversing means 24 as in the case of the first or second processing operation example, but is sent to the document discharge path 23a. It is in a paused state on 23a. For this reason, if the reading target is only one side of a black and white document, the main scan subsequent to the preliminary scan is unnecessary, and the paused document is discharged. However, the temporarily stopped position is on the document discharge path 23a. Therefore, it is possible to discharge the original to the discharge tray 22 while aligning the front / back direction of the original with other cases only by restarting the original conveying operation. Therefore, in the unit cycle after detection and BW reading, it is possible to resume the original conveying operation as it is, to discharge the original, and to start detection and BW reading for the next new original.
[0045]
On the other hand, when the reading target is only one side of a color document, since it is determined that a preliminary scan is necessary based on the detection in the first unit cycle and the result of BW reading, The original document temporarily stopped on the original discharge path 23a in the unit cycle is conveyed in the reverse direction, and is sent to the inverter unit 24a via the bypass path 24d. Then, in each unit cycle thereafter, the front and back are reversed, and CL reading of the document surface is sequentially performed. At this time, the front and back sides of the original are reversed once by the conveyance from the original discharge path 23a to the inverter unit 24a, so that the dummy scan as in the first or second processing operation example is not required. Data about the color image obtained at the time of CL reading is processed by the image processing circuit 18 after the parameter change. Thereafter, the document is discharged without reversing the front and back, and the processing for the next document can be started.
[0046]
When the reading target is both sides of the document, the processing in each unit cycle is performed for both the black and white document and the color document in the same procedure as in the first processing operation example.
[0047]
As described above, even by the procedure described in the third processing operation example, the optimum image reading corresponding to the original to be read can be realized in the same manner as in the first or second processing operation example. In addition, since data output for a black and white image (or color image) is performed from a single image reading result, image reading can be speeded up.
[0048]
Further, the document that has passed over the image reading position B is temporarily stopped on the document discharge path 23a, and when the main scan following the preliminary scan is required, the document is returned to the inverter unit 24a via the bypass path 24d. On the other hand, when the main scan is not required, the original pause state is canceled and the document is discharged as it is to the discharge tray 22, so that a mode that requires a preliminary scan is selected. However, further improvement in image reading productivity can be expected. Specifically, for example, when scanning a single-sided black and white document, it is possible to start processing of the next document in the next unit cycle of BW scanning. Therefore, when a mode that does not require preliminary scanning is selected (one unit) It is possible to avoid a reduction in reading productivity with respect to the end of one side of a document in a cycle. Also, for example, when scanning a single-sided color document, the reading productivity only needs to be reduced to ¼ compared to when a mode that does not require preliminary scanning is selected (one-sided document single-sided end). Further improvement of productivity can be expected as compared with the case of the first or second processing operation example.
[0049]
In the first to third processing operation examples described above, it is necessary to perform processing for determining whether or not preliminary scanning is necessary, driving control of the conveyance roller, and the like. These processing are included in the image reading apparatus 10. It is assumed that a CPU (Central Processing Unit) (not shown) executes a program stored in a ROM (Read Only Memory) (not shown). Therefore, the image reading apparatus 10 may perform any one of the first to third processing operation examples, and the user can arbitrarily select any one of the processing operation examples. It may be the one.
[0050]
[Other Embodiments]
In the embodiment described above, when a mode that requires preliminary scanning is selected, even when CVT image reading is performed by performing document movement and document reversal several times, The image reading apparatus 10 that can perform optimum image reading according to a document to be read has been described. Next, an image reading apparatus that can perform optimum image reading according to a document by another configuration. explain.
[0051]
FIG. 9 is a block diagram showing another example of the circuit configuration provided in the image reading apparatus according to the present invention. As illustrated, the image reading apparatus described here includes an image memory 25 provided between the detection circuit 17 and the image processing circuit 18 in addition to the reading circuit 16, the detection circuit 17, and the image processing circuit 18. I have. The image memory 25 is for storing image data that is a result of image reading by the CCD sensor 15, and is composed of, for example, a first-in first-out (FIFO) type semiconductor memory.
[0052]
In the image reading apparatus having such a configuration, since the image memory 25 is provided between the detection circuit 17 and the image processing circuit 18, image data as a result of image reading is stored in the image memory 25. Is possible. Therefore, even if the image is read only once, the detection of the document information by the detection circuit 17 and the image processing by the image processing circuit 18 reflecting the detection result can be performed on the result of the image reading. .
[0053]
FIG. 10 is a timing chart illustrating an example of an image reading processing operation in the image reading apparatus having the above-described configuration. For example, when a mode that requires preliminary scanning is selected, in the image reading apparatus, the document conveying means 23 of the ADF 20 feeds the document one by one from the paper feed tray 21 and passes it over the image reading position B. It is discharged as it is to the discharge tray 22. Therefore, the reading circuit 16 processes the output signal from the CCD sensor 15 for each unit cycle.
[0054]
Similarly, the detection circuit 17 also detects document information about a document to be read for each unit cycle. However, since the image memory 25 is provided between the detection circuit 17 and the image processing circuit 18 at this time, when the CCD sensor 15 reads an image, the image memory 25 is an image that is a result of the image reading. While accumulating data, the detection circuit 17 detects document information.
[0055]
Therefore, after the parameters for the image processing circuit 18 are set based on the detection result of the detection circuit 17, the image data is read from the image memory 25 at a timing delayed by one unit cycle, and the image processing for the image data is performed. The processing circuit 18 can do what it does. That is, image data as a result of image reading is temporarily stored in the image memory 25, and then the image data is read out from the image memory 25 at a predetermined timing, thereby performing image reading multiple times on the same surface of the same document. The effect equivalent to is obtained.
[0056]
Even with the image reading apparatus configured as described above, when performing CVT image reading, it is possible to perform image reading reflecting document information of a document to be read, and the productivity of image reading may be completely reduced. Absent. That is, it can be said that it is possible to realize optimum image reading according to the original without lowering the reading efficiency or increasing the occupied area.
[0057]
【The invention's effect】
  As described above, according to the image reading apparatus of the present invention, even when CVT image reading is performed, when a mode that requires preliminary scanning is selected, the document movement and the document are performed multiple times. ReverseAs it passes,Multiple image readings can be performed on the same side of the same document. Therefore, it is possible to perform optimal image reading according to the original to be read without causing a reduction in reading efficiency or an increase in the occupied area, and as a result, high-quality image reading can be realized.
  In addition, even if a mode that requires a preliminary scan is selected, if the main scan following the preliminary scan can be omitted, the document can be discharged without passing over the image reading position. The speed of image reading can be increased, and the improvement of image reading productivity can be expected.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an example of a schematic configuration of an image reading apparatus according to the present invention.
FIG. 2 is a block diagram illustrating an example of a circuit configuration included in the image reading apparatus of FIG.
3 is an explanatory diagram showing a procedure of a first processing operation example in the image reading apparatus of FIG. 1; FIG.
FIG. 4 is an explanatory diagram showing a procedure when BW reading and CL reading are not in the same cycle in the first processing operation example;
5 is a drawing path diagram of a document in a second processing operation example in the image reading apparatus of FIG. 1. FIG.
6 is an explanatory diagram showing a procedure of a second processing operation example in the image reading apparatus of FIG. 1; FIG.
7 is a drawing path diagram of a document in a third processing operation example in the image reading apparatus of FIG. 1; FIG.
FIG. 8 is an explanatory diagram showing a procedure of a third processing operation example in the image reading apparatus of FIG. 1;
FIG. 9 is a block diagram illustrating another example of a circuit configuration included in the image reading apparatus according to the present invention.
10 is a timing chart illustrating an example of an image reading processing operation in the image reading apparatus of FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Image reading device, 15 ... CCD sensor, 16 ... Reading circuit, 17 ... Detection circuit, 18 ... Image processing circuit, 20 ... ADF, 22 ... Discharge tray, 23 ... Document conveying means, 23a ... Document discharge path, 24 ... Document reversing means, 24a ... inverter section, 24d ... bypass path, 25 ... image memory, B ... image reading position

Claims (4)

An image reading device that optically reads an image drawn on a document to be read from the document,
A document conveying means for moving the document to be read at a constant speed on a predetermined image reading position;
A document reversing means for passing the image reading position by inverting the front and back of the document that has passed through again the image reading position above,
A transport destination selection means for switching whether the transport destination of the document that has passed through the image reading position is the document reversing means or a discharge tray from which the document after image reading is discharged;
A document discharge path connecting the transport destination selection means and the discharge tray;
A bypass path for discharging the document sent to the document reversing means to the document discharge path without passing again over the image reading position ,
When a mode that requires a preliminary scan is selected, a plurality of times of image reading are performed on the same surface of the same document through a plurality of times of document movement by the document conveying unit and document reversal by the document reversing unit. Rutotomoni is configured,
When the document that has passed the image reading position is once sent by the transport destination selection unit to the document reversing unit, and the document received by the document reversing unit does not require a main scan following a preliminary scan, the document is converted into the document. An image reading apparatus configured to discharge from a reversing unit to the discharge tray through the bypass path and the document discharge path . An image reading apparatus that optically reads an image drawn on a document to be read from the document,
Document conveying means for moving the document to be read at a constant speed on a predetermined image reading position;
A document reversing means for reversing the front and back of the document that has passed through the image reading position and passing it over the image reading position;
A transport destination selecting means for switching whether the transport destination of the document that has passed through the image reading position is the document reversing means or a discharge tray from which the document after image reading is discharged;
A document discharge path means for discharging the document sent to the document reversing means directly from the document reversing means to the discharge tray without passing again over the image reading position;
When a mode that requires preliminary scanning is selected, a plurality of times of image reading are performed on the same surface of the same document through a plurality of times of document movement by the document conveying unit and document reversal by the document reversing unit. And
When the document that has passed the image reading position is once sent out by the transport destination selecting unit to the document reversing unit, and the document received by the document reversing unit does not require a main scan following a preliminary scan, the document is converted into the document. The sheet is discharged from the reversing unit to the discharge tray through the document discharge path unit.
An image reading apparatus. An image reading apparatus that optically reads an image drawn on a document to be read from the document,
A document conveying means for moving the document to be read at a constant speed on a predetermined image reading position;
A document reversing means for reversing the front and back of the document that has passed through the image reading position and passing it over the image reading position;
A transport destination selecting means for switching whether the transport destination of the document that has passed through the image reading position is the document reversing means or a discharge tray from which the document after image reading is discharged;
A document discharge path connecting the transport destination selection means and the discharge tray;
A document conveyance path for conveying the document on the document discharge path to the document reversing means without discharging the document to the discharge tray,
When a mode that requires pre-scanning is selected, the document conveying means performs multiple times. The document is moved and the document is reversed by the document reversing means, and the same surface of the same document is read a plurality of times.
The document that has passed the image reading position is once sent by the transport destination selection unit to the document discharge path, and when the transport destination selection unit sends the document, the document is temporarily stopped on the document discharge path, When a main scan subsequent to the preliminary scan is required for the document, the document is sent from the document discharge path to the document reversing unit via the document transport path. It was configured to release the stopped state and discharge directly to the discharge tray.
An image reading apparatus. From a single image reading result for a document passing over the image reading position, performing data output for either a black and white image or a color image, and determining whether or not a preliminary scan is necessary,
Based on the result of the necessity determination, it is determined whether or not the document is again passed over the image reading position, and the data output is performed when the document is discharged without passing over the image reading position. Configured to use the result of
The image reading apparatus according to claim 1, 2, or 3.

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