JP4110900B2 - 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 of a document.
[0002]
[Prior art]
Image reading apparatuses are widely used in image forming apparatuses such as scanner apparatuses, copying machines, and facsimile machines. In an image reading apparatus, an image of a document set on a platen glass platen is read and scanned in the main scanning direction by an image sensor such as a CCD (Charge Coupled Device) image sensor, and a scanning body called a carriage There is one that employs a method of scanning in the sub-scanning direction by moving the.
[0003]
In general, in an image reading apparatus, correction processing called black level correction and correction processing called white level correction (or light amount fluctuation correction) are performed on image data read from a document. The black level correction is to adjust the output level (black level) of the device when the black portion of the document is read. The white level correction is the output level (white level) of the device when the white portion of the document is read. Is to adjust. Corresponding correction data (hereinafter, black level correction data) is used for black level correction, and correction data (hereinafter, white level correction data) corresponding to this is also used for white level correction.
[0004]
The black level correction data is collected using black image data obtained when the white reference plate is read with the lamp turned off, and the white level correction data is read by reading the white reference plate with the lamp turned on. It is collected using white image data obtained at the time. The white reference plate is a white plate having a uniform reflectance in the main scanning direction.
[0005]
In the conventional image reading apparatus, in order to prevent fluctuations in output with time, the above-described collection of black level correction data and white level correction data is performed every time an original image is read. Yes. Data collection at that time is performed in the order of black level correction data → white level correction data before the start of image reading.
[0006]
[Problems to be solved by the invention]
Here, in the case of collecting black level correction data in a conventional image reading apparatus, when black image data is captured by reading the white reference plate with the lamp turned off, and white level correction data is collected. The white image data is captured by reading the white reference plate with the lamp turned on. On the other hand, the home position (standby position) of the scanning body is set to a position slightly advanced (for example, about 20 mm) from the reading start position of the original image in the sub-scanning direction within the original image reading range. Is located outside the original image reading range in the sub-scanning direction (usually under the original abutment guide).
[0007]
Therefore, in the conventional image reading apparatus, first, before starting the image reading, the scanning body is moved from the home position to below the white reference plate so as not to be affected by external light, and the lamp is turned off there. After collecting the black level correction data, the lamp is turned on to collect the white level correction data. In addition, immediately after the lamp is lit, the rising light amount fluctuation is large, so that white image data is captured after waiting for a time until the light amount of the lamp is stabilized (hereinafter, lamp light amount stabilization time). For this reason, it takes a long time (hereinafter referred to as “document image reading start time”) from when an instruction to start reading an original image is issued (for example, after the reading start button is pressed) until actual reading of the original image starts. There was a bug.
[0008]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and an object of the present invention is to read a document reading start time in order to sequentially collect black level correction data and white level correction data before starting image reading. An object of the present invention is to provide an image reading apparatus capable of shortening the above.
[0009]
[Means for Solving the Problems]
  According to another aspect of the present invention, there is provided an image reading apparatus using an original conveying unit that conveys an original along a conveying route that passes through an image reading position, and a scanning body that is mounted with a lamp and supported so as to be movable in the sub-scanning direction. As a reading mode for reading an image of a document, the scanning body is stopped below the reading position, and the document conveying means is moving while passing the reading position. An image reading unit having a moving document reading mode for reading an image of a document and a stopped document reading mode for reading an image of a stopped document set on a document table by moving the scanning body in a sub-scanning direction; A black level correction data collecting means for collecting black level correction data, and the black level correction data collecting means is instructed to start reading a document. In the sub-scanning direction, the scanning body is set within the original image reading range of the original table when collecting the black level correction data from when the image reading means starts reading the original image. When the movement starts from the home position toward the bottom of the white reference plate and the reading mode is the moving document reading mode, the lamp is turned off during the movement of the scanning body toward the bottom of the white reference plate. The black level correction data is collected using black image data read in the read state, and when the reading mode is the stopped document reading mode, the scanning body has arrived under the white reference plate At the time, the black level correction data is collected using black image data obtained by reading the white reference plate with the lamp turned off.
[0010]
  The image reading apparatus according to claim 2 is the image reading apparatus according to claim 1, wherein the lamp is turned on before the reading of the original image is started and after the black level correction data is collected. White level correction data collection means for collecting white level correction data using white image data obtained by reading a reference plate is provided.
[0011]
  According to a third aspect of the present invention, there is provided the image reading apparatus according to the first aspect, further comprising a control unit that controls the lamp, and the control unit is configured to perform the operation when the reading mode is the moving document reading mode. Control is performed so that the lamp is lit after collection of black level correction data and before the scanning body reaches below the white reference plate.
[0012]
  The image reading apparatus according to claim 4, wherein, in the image reading apparatus according to claim 3, when the reading mode is the moving document reading mode, the control unit is configured to scan the scanning toward the lower side of the white reference plate. While the body is moving, the remaining time until the scanning body reaches below the white reference plate is monitored, and the lamp is turned on at the timing when the remaining time coincides with the lamp light amount stabilization time or at a timing before that time. It is characterized by controlling as follows.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
FIG. 1 is a schematic diagram showing a configuration example of an image reading apparatus to which the present invention is applied. In the illustrated image reading apparatus 1, a platen glass 3 serving as a document table is attached to an upper portion of the apparatus main body 2, and a document abutting guide (document positioning member) 4 and a white reference plate 5 are provided on the platen glass 3. It is attached.
[0015]
The platen glass 3 is made of a transparent and flat glass plate, and is attached in a state of being fitted into a rectangular opening formed in the upper part of the apparatus main body 2. A document pressing cover (not shown) for pressing the document set on the platen glass 3 from above is attached to the upper part of the apparatus main body 2 so as to be freely opened and closed. The document pressing cover is opened and closed by the user, and is integrally provided with a document pressing cushion member on the lower surface side thereof. The cushion member is, for example, a sponge-like member, and a white thin sheet is attached to the pressing surface that actually presses the document.
[0016]
The document abutting guide 4 is provided for positioning the document set on the platen glass 3 and is attached to the platen glass 3 together with the white reference plate 5. In this attached state, the step between the platen glass 3 and the document abutting guide 4 is substantially about 1 mm. As shown in FIG. 2, the document abutting guide 4 has a first document abutting guide 4A along the main scanning direction (vertical direction in the figure; X direction) and a sub-scanning direction (left and right direction in the figure; Y direction). The second document abutting guide 4B is arranged in an L shape as a whole. When the image reading apparatus is viewed in plan, the main scanning direction X and the sub-scanning direction Y are perpendicular to each other.
[0017]
The first document abutting guide 4A regulates the position of the document in the sub-scanning direction Y, and the second document abutting guide 4B regulates the position of the document in the main scanning direction X. Therefore, when setting a document on the platen glass 3, one side of the document that is perpendicular to each other is abutted against the first abutting guide 4A, while the other side of the document is abutted to the second document abutting guide 4B. The document is positioned on the platen glass 3 by the abutment.
[0018]
The white reference plate 5 is a long plate mainly used for collecting white reference data, and is arranged in parallel with the main scanning direction X in a state of being covered with the first document abutting guide 4A. The white reference plate 5 has a white read reference surface having a uniform reflectance in the longitudinal direction (main scanning direction X), and is arranged in a state where the read reference surface is in surface contact with the platen glass 3. Has been. A document abutting position by the first document abutting guide 4A is a document image reading start position Ps in the sub-scanning direction Y. On the other hand, the white reference plate 5 is disposed at a position outside the document image reading range that is shifted in one direction (left direction in the figure) from the reading start position Ps in the sub-scanning direction Y. The document image reading range refers to an effective range when the image reading unit 6 reads an image of a document set on the platen glass 3. Generally, when the document pressing cover is opened and the apparatus main body 2 is viewed in plan, the range where the platen glass 3 is exposed except for the portion where the document abutting guide 4 is attached is the document image reading range.
[0019]
On the other hand, an image reading unit 6 that optically reads an image of a document is provided inside the apparatus main body 2. The image reading unit 6 is mainly composed of an optical scanning system 7, an imaging lens 8 and a CCD image sensor 9. The optical scanning system 7 includes a full-rate carriage 10 serving as a scanning body and a half-rate carriage 11. A lamp 12, a reflector 13 and a first mirror 14 are mounted on the full rate carriage 10, and a second mirror 15 and a third mirror 16 are mounted on the half rate carriage 11.
[0020]
The lamp 12 and the reflector 13 irradiate a line-shaped light along the main scanning direction X toward an irradiation object on the platen glass 3 (such as a document set on the platen glass 3 or a white reference plate 5). The reflected light from the irradiation object is sequentially reflected by the first mirror 14, the second mirror 15, and the third mirror 16 as indicated by arrows in the figure. The imaging lens 8 forms an image of the light reflected by the third mirror 16 on the light receiving surface of the CCD image sensor 9 at a predetermined magnification. The CCD image sensor 9 serves as a reading sensor for reading an image of a document, and generates an analog image signal corresponding to reflected light from the document.
[0021]
The full rate carriage 10 and the half rate carriage 11 are supported so as to be movable in the sub-scanning direction Y along the platen glass 3 by a guide mechanism (guide rail, etc.) and a power transmission mechanism (eg, wire, pulley, etc.) not shown. ing. The carriages 10 and 11 are configured to move in the sub-scanning direction Y using a common carriage motor (for example, a pulse motor) as a drive source. The home position Ph of the full-rate carriage 10 in the sub-scanning direction Y is a position slightly advanced (for example, about 20 mm) from one side of the document abutting guide 4 (4A) that becomes the document image reading start position Ps. Is set to When moving in the sub-scanning direction Y, the half-rate carriage 11 moves with a movement amount (moving speed) that is ½ that of the full-rate carriage 10, and thus the carriages 10 and 11 move to any position in the sub-scanning direction Y. Even in this state, the optical path length from the document surface on the platen glass 3 to the light receiving surface of the CCD image sensor 9 is always kept constant.
[0022]
FIG. 3 is a block diagram illustrating a configuration example of a control system of the image reading apparatus according to the embodiment of the present invention. In FIG. 3, the CCD image sensor 9 is driven by a CCD drive unit (driver) 17. Analog image data is output from the CCD image sensor 9. The analog image data is supplied to the analog circuit unit 18. The analog circuit unit 18 includes a sample hold circuit, a gain control circuit, an offset control circuit, an A / D (analog / digital) conversion circuit, and the like. The analog circuit unit 18 generates digital image data converted by the A / D conversion circuit.
[0023]
The black level correction unit 19 performs black level correction processing using black level correction data. More specifically, in the black level correction unit 19, the output level of the black image data of the image data that has been offset adjusted by the offset adjustment circuit of the analog circuit unit 18 finally matches the black level (zero) of the apparatus. Thus, a so-called subtraction process for subtracting the offset adjustment is performed. The subtraction value used in the subtraction process becomes black level correction data. The black level correction data (subtraction value) used in the black level correction process is given to the black level correction unit 19 from the controller 22 described later.
[0024]
The white level correction unit 20 is incorporated as one functional unit of the shading correction circuit, and performs white level correction processing using white level correction data. More specifically, the white level correction unit 20 is appropriate so that the output level of the white image data among the image data corrected by the black level correction unit 19 does not vary due to the influence of the light amount fluctuation of the lamp 12 or the like. Perform processing to match the white level. When adjusting the level, the white reference data obtained by reading the white reference plate at the time of power-on of the device and the light quantity reference value at that time are held in the shading correction circuit, and the white reference plate is read before starting the image reading. The ratio (light quantity fluctuation ratio) between the measured light quantity value and the above-mentioned light quantity reference value is integrated into the white reference data. The light quantity measurement value used for this level adjustment becomes white level correction data. White level correction data (light quantity measurement value) used in the white level correction processing is given from the controller 22 described later to the white level correction unit 20.
[0025]
The image data capturing unit 21 captures image data generated from the analog circuit unit 18 and image data generated from the black level correction unit 19 at predetermined timings. The image data capturing unit 21 captures the image data (black image data) generated from the analog circuit unit 18 when collecting black level correction data, and the black level when collecting white level correction data. The image data (white image data) generated from the correction unit 19 is captured. The image data captured by the image data capturing unit 21 is supplied to the controller 22.
[0026]
The controller 22 includes, for example, a CPU (Central Processing Unit), a ROM (Read-Only Memory), a RAM (Random Access Memory), and the like, and performs various processes according to a control program given in advance. The controller 22 is connected to the CCD drive unit 17, the analog circuit unit 18, the black level correction unit 19, the white level correction unit 20, and the like described above via an address bus, a data bus, a read / write signal line, and the like (thick lines in the figure). The image data capturing unit 21 is mutually connected.
[0027]
Further, the lamp 12 and the carriage motor 23 are connected to the controller 22 as one of the controlled objects. As described above, the carriage motor 23 serves as a common drive source for moving the carriages 10 and 11 in the sub-scanning direction. Further, a registration sensor 24, a cover opening / closing sensor 25, and an operation panel 26 are connected to the controller 22 as one of control information input means.
[0028]
The registration sensor 24 is for detecting the position of the full-rate carriage 10 in the sub-scanning direction Y when the carriages 10 and 11 are moved in the sub-scanning direction Y by driving the carriage motor 23. The registration sensor 24 detects the passage of the full-rate carriage 10 at one place (for example, in the vicinity of the home position Ph) or a plurality of places within the movement range of the full-rate carriage 10 and supplies this detection signal to the controller 22. In contrast, the controller 22 detects the position of the full rate carriage 10 in the sub-scanning direction Y based on the detection signal from the registration sensor 24, and controls the driving of the carriage motor 23 based on the detection result. Yes.
[0029]
The cover open / close sensor 25 detects the open / close state of the document pressing cover described above. A sensor sensing part (for example, a rod-like actuator part) of the cover opening / closing sensor 25 is arranged in a state of protruding upward from the platen glass 3 by a predetermined dimension. When the document pressing cover is closed, the cover is detected by being pressed by the document pressing cover. There are two cover open / closed states that can be detected by the cover open / close sensor 25: a state in which the document pressing cover is open (open state) and a state in which the document pressing cover is completely closed (closed state). The closing state can be detected.
[0030]
The operation panel 26 is a user interface (UI) for a user using the image reading apparatus 1 to perform various operations. The operation panel 26 includes a read start button (in the case of a copying machine or the like, a copy start button) for instructing the start of reading of a document image, together with various setting / operation buttons (or switches) for setting a read magnification. Start button).
[0031]
Next, the processing operation of the image reading apparatus 1 based on the control process of the controller 22 will be described.
[0032]
FIG. 4 is a flowchart showing the processing operation of the apparatus according to the first embodiment of the present invention. First, when the user sets an original on the platen glass 3 and presses the reading start button on the operation panel 26, the controller 22 receives the instruction and directs the full rate carriage 10 under the white reference plate 5 by driving the carriage motor 23. Starts to move (step S1). The movement start position of the full rate carriage 10 at this time is the home position Ph. At the home position Ph, the size of the document in the main scanning direction is detected using image data for one line read by turning on the lamp 12 instantaneously.
[0033]
Next, it is determined whether or not the elapsed time (lamp extinguishing time) after the lamp 12 is extinguished is 30 ms (ms; millisecond) or more (step S2). The reason for confirming the lamp extinguishing time here is to avoid the influence of afterglow after extinguishing. If it is determined in step S2 that the lamp turn-off time has passed 30 ms or longer, black level correction data is collected at that time (step S3). Collection of black level correction data is mainly performed by capturing black image data and averaging the captured black image data. Of these, the black image data is captured by the image data capturing unit 21, and the black image data averaging process is performed by the controller 22.
[0034]
At that time, the condition when the image data capturing unit 21 captures the black image data will be described in detail. First, the reading range in the main scanning direction X that can be read by the CCD image sensor 9 with the full-rate carriage 10 stopped at an arbitrary position (for example, the home position Ph) in the sub-scanning direction Y is the platen glass 3 reading range. Except for the part where the document abutment guide 4 (4A, 4B) is attached, the platen glass 3 covers almost the entire length range in the main scanning direction (short direction) X. However, the reading range in the main scanning direction that can be substantially read by the CCD image sensor 9 is deeper than the document abutting position by the document abutting guide 4B in consideration of the dimensional tolerance and assembly tolerance of the component parts ( It is set in such a way that it enters the document abutting guide 4B side). That is, the reading range in the main scanning direction X that can be read by the CCD image sensor 9 is set to a range in which a predetermined reading margin is added to the reading range of the document image on the platen glass 3.
[0035]
Therefore, at the time of actual reading, the image of the reading margin area Me (see FIG. 2) can be read on the platen glass 3 together with the original image. Since the document abutting guide 4B exists in the reading margin area Me, the back side of the document abutting guide 4B is read in the reading margin area Me. However, when the lamp 12 is turned off, the external light is blocked by the document abutting guide 4B. Therefore, the image data obtained when the reading margin area Me is read is in a state where the lamp is turned off as in the prior art. This is equivalent to the image data obtained when the white reference plate is read, that is, the black image data.
[0036]
Therefore, in the first embodiment, during the movement of the full rate carriage 10 toward the lower side of the white reference plate 5, images of a plurality of lines along the main scanning direction X are sequentially read, and a plurality of lines obtained thereby are read. Among the image data, the image data read in the reading margin area Me under the document abutting guide 4B is captured as black image data. The black image data for a plurality of lines thus captured by the image data capturing unit 21 is supplied to the controller 22.
[0037]
On the other hand, the controller 22 calculates average data per pixel using the black image data for a plurality of lines given from the image data capturing unit 21. This average data is obtained by dividing the accumulated value of the black image data for a plurality of lines by the number of lines read and the number of read pixels in the read margin area Me. The average data thus calculated by the controller 22 is given to the black level correction unit 19 as black level correction data. Such black level correction data collection processing is performed while the full-rate carriage 10 is moving toward the bottom of the white reference plate 5.
[0038]
Thereafter, in the controller 22, the remaining until the full-rate carriage 10 reaches below the white reference plate 5 based on the detection signal from the registration sensor 24 and the elapsed time from the start of carriage movement (for example, a measured value by a timer). The time is monitored (step S4). When the remaining time reaches 30 ms, the lamp 12 is turned on (step S5). The time of “30 ms” described here is set in advance according to the time from when the lamp 13 is turned on until the light quantity of the lamp 13 is stabilized (lamp light quantity stabilization time). Depending on the characteristics, it may be set shorter or longer than 30 ms.
[0039]
Thereafter, the controller 22 determines whether or not the full-rate carriage 10 has reached below the white reference plate 5 based on the detection signal from the registration sensor 24 (step S6). Level correction data is collected (step S7). The collection of white level correction data is mainly performed by capturing white image data and averaging the captured white image data. Of these, white image data is captured by the image data capturing unit 21, and white image data averaging processing is performed by the controller 22.
[0040]
In collecting the white level correction data, first, a full-line carriage 10 is stopped under the white reference plate 5 and a one-line image along the main scanning direction X (the reference surface to be read of the white reference plate 5). ) And the one-line white image data obtained thereby is captured by the image data capturing unit 21. The white image data captured at this time is image data corrected by the black level correction unit 19 using the black level correction data collected in the previous step S3. One line of white image data captured in this way is supplied from the image data capturing unit 21 to the controller 22.
[0041]
On the other hand, the controller 22 calculates average data for the central 100 pixels in the pixel row of the CCD image sensor 9, for example, using one line of white image data given from the image data capturing unit 21. This average data is obtained by dividing the cumulative value of pixel data for the central 100 pixels by the number of pixels (100). The average data thus calculated by the controller 22 is given to the white level correction unit 20 as white level correction data. When the white level correction data collection processing is completed, the full-rate carriage 10 is moved from the bottom of the white reference plate 5 to the original reading area (left side in FIG. 1) by driving the carriage motor 23 to read the original image. (Step S8). In this case, an image of a stopped document set (positioned) on the platen glass (document table) 3 is read by moving the full rate carriage 10 and the herb rate carriage 11 in the sub-scanning direction Y.
[0042]
In the processing operation of the apparatus according to the first embodiment described above, the full-rate carriage 10 is started to move toward the bottom of the white reference plate 5 and the full-rate carriage is directed to the bottom of the white reference plate 5 before image reading is started. In order to collect black level correction data using black image data read while the lamp 12 is turned off during the movement of 10, the black level after moving the full-rate carriage below the white reference plate as in the prior art. Compared with the case of collecting correction data, the original image reading start time can be shortened substantially by the time required for collecting black level correction data.
[0043]
Further, since the reading margin area Me outside the original image reading area in the main scanning direction X is to be read and the image data read in the reading margin area Me is taken in as black image data, the original pressing cover is temporarily opened. Even in this state, it is possible to capture black image data without being affected by external light during the movement of the full-rate carriage 10.
[0044]
Further, when the white level correction data is collected, the lamp 12 is lit before the full rate carriage 10 reaches below the white reference plate 5 prior to this. At the same time as reaching below (moving stopped), the white level correction data collection process can be started. Thereby, it is possible to further shorten the document image reading start time.
[0045]
After the black level correction data is collected, the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 is monitored, and the lamp 12 is turned on at the timing when the remaining time coincides with the lamp light amount stabilization time. Since the lamp is lit, the light quantity of the lamp 12 is always stable when the full-rate carriage 10 reaches under the white reference plate 5. For this reason, it is possible to reliably prevent variations in white image data due to fluctuations in the amount of light. This effect can be obtained even when the lamp 12 is lit at a timing before the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 coincides with the lamp light quantity stabilization time (30 ms in this example).
[0046]
FIG. 5 is a flowchart showing the processing operation of the apparatus according to the second embodiment of the present invention. First, when the user sets an original on the platen glass 3 and presses the reading start button on the operation panel 26, the controller 22 receives the instruction and directs the full rate carriage 10 under the white reference plate 5 by driving the carriage motor 23. After the start of movement (step S11), it is determined whether or not the elapsed time after the lamp 12 is turned off (lamp turn-off time) is 30 ms or longer (step S12). The processing so far is the same as the processing in steps S1 and S2 in the first embodiment.
[0047]
Subsequently, the controller 22 detects the open / close state of the document pressing cover based on the detection signal from the cover open / close sensor 25 when the lamp turn-off time has elapsed for 30 ms or longer (step S13). The cover open / closed state detection process may be performed before (immediately before) the movement of the full-rate carriage 10 is started. If the document pressing cover is in the closed state, the process proceeds to step S14. If the document pressing cover is in the open state, the process proceeds to step S20.
[0048]
In step S14, black level correction data is collected. In the black level correction data collection process in step S14, the entire platen glass 3 is covered with the document pressing cover, so that the outside light is reliably blocked. In this case, since it is not necessary to consider the influence of external light, the image data read in the area within the original image reading range in the main scanning direction X is directly captured by the image data capturing unit 21 as black image data. In step S14, black image data for a plurality of lines is captured as the full-rate carriage 10 moves. Then, average data per pixel is calculated by the controller 22 using the black image data for a plurality of lines, and the average data is collected as black level correction data.
[0049]
At this time, it is desirable that the black image data is captured within the pressing surface (white sheet surface) of the cushion member of the document pressing cover in the closed state. This is because, when the document pressing cover is in the closed state, the pressing surface of the cushion member is in close contact with the surface of the platen glass 3, so that the black image data can be stably captured, whereas the pressing surface of the cushion member is This is because the black image data cannot be properly captured in the gap portion formed between the document abutment guide 4 (4A, 4B) and the cushion member in the main scanning direction or sub-scanning direction Y. is there.
[0050]
Thereafter, the processes of steps S15 to S19 are performed in the same manner as the processes of steps S4 to S8 in the first embodiment. That is, in step S15, the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 is monitored as in step S4. In step S16, the lamp 12 is turned on as in step S5. In step S17, as in step S6, it is determined whether or not the full-rate carriage 10 has reached below the white reference plate 5 based on the detection signal from the registration sensor 24. In step S18, as in step S7, white Collect level correction data. In step S19, the original image is read as in step S8.
[0051]
On the other hand, in step S20, based on the detection signal from the registration sensor 24, it is determined whether or not the full-rate carriage 10 has reached the lower side of the white reference plate 5. Data is collected (step S21). In this case, each line image data when the white reference plate 5 is read over a plurality of lines with the lamp 12 turned off is captured as black image data. Then, average data per pixel calculated using the black image data for the plurality of lines is collected as black level correction data.
[0052]
Thereafter, the lamp 12 is turned on, and it is determined whether or not the elapsed time from lighting has reached 30 ms (lamp light quantity stabilization time) (steps S22 and S23). Data is collected (step S18), and then the original image is read (step S19).
[0053]
Incidentally, in the white level correction data collection process in step S18, the white image data corrected using the black level correction data collected in step S14 or the black level correction data collected in step S21. The white image data corrected by using the image data is captured by the image data capturing unit 21.
[0054]
In the processing operation of the apparatus according to the second embodiment described above, the open / close state of the document pressing cover is detected after the full-rate carriage 10 starts moving (or before the movement starts), and the document pressing cover is closed during this detection. In this case, since the black image data is read while the full-rate carriage 10 is moved below the white reference plate 5, the black image data is read after the full-rate carriage is moved below the white reference plate as in the prior art. Compared to the case, the document image reading start time can be shortened. Further, since the external light is blocked by the document pressing cover when the black image data is captured while the carriage is moving, the black image data can be captured without being affected by the external light.
[0055]
When the document pressing cover is open, after the level correction data is collected in step S14, before the full rate carriage 10 reaches below the white reference plate 5 (before it is determined Yes in step S17), the lamp 12 Since the full-rate carriage 10 reaches below the white reference plate 5 (stops moving), the white level correction data collection process can be started. Thereby, it is possible to further shorten the document image reading start time.
[0056]
After the black level correction data is collected, the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 is monitored in step S15, and the remaining time coincides with the lamp light amount stabilization time ( Since the lamp 12 is turned on at the timing determined as Yes in step S15), the light quantity of the lamp 12 is always in a stable state when the full rate carriage 10 arrives under the white reference plate 5. For this reason, it is possible to reliably prevent variations in white image data due to fluctuations in the amount of light. This effect can be obtained even when the lamp 12 is lit at a timing before the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 coincides with the lamp light quantity stabilization time (30 ms in this example).
[0057]
FIG. 6 is a schematic diagram showing another configuration example of the image reading apparatus to which the present invention is applied. In the description of the configuration of the image reading apparatus shown in FIG. 6, the same components as those of the apparatus shown in FIG.
[0058]
In the illustrated image reading apparatus 1, a document pressing cover 27 is provided on an upper portion of the apparatus main body 2 so as to be openable and closable. A document conveying device (auto document feeder; ADF) is integrated with the document pressing cover (document pressing member) 27. ) 28 is mounted. The document conveying device 28 automatically conveys the document 30 set on the document tray 29 to an image reading position to be described later. The conveyed document 30 is discharged to a discharge tray portion 31 using the upper surface portion of the document pressing cover 27. A document pressing cushion member (not shown) is provided on the lower surface of the document pressing cover 27. The cushion member is as described above.
[0059]
The document conveying device 28 includes a document detection sensor 32 that detects the presence or absence of the document 30 on the document tray 29, and an openable / closable gate member against which the leading end of the document 30 abuts when the document 30 is set on the document tray 29. 33 and a feeding roll 34 for feeding the originals (original bundles) 30 set on the original tray 29 in order from the highest level (lowest level depending on the apparatus configuration), and the originals 30 fed by the feeding roll 34 are separated one by one. The feed roll pair 35 to be sent out, a plurality of transport roll pairs 36 for feeding the original 30 sent by the feed roll pair 35 along a predetermined transport route, and the advancing direction of the original 30 at an appropriate position on the transport route are switched. The switching gate 37 is provided.
[0060]
In the document conveying device 28 having the above-described configuration, the document 30 set on the document tray 29 is fed by the feeding roll 34 and then separated and fed one by one by the feeding roll pair 35. The document 30 sent out in this way is sequentially delivered to each pair of transport rolls 36 and is transported according to switching of the traveling direction by the switching gate 37. At this time, when an image recorded on one side of the original 30 is read, the original 30 is conveyed in the order of arrow (1) → (2) → (3) → (4) and discharged to the discharge tray section 31. Become. Further, when reading images recorded on both sides of the document 30, it is necessary to reverse the document surface in the middle of conveyance and to return the reversed document surface to the original state. It is conveyed in the order of 2 ▼ → ▲ 3 ▼ → ▲ 5 ▼ → ▲ 1 ▼ → ▲ 2 ▼ → ▲ 3 ▼ → ▲ 4 ▼ → ▲ 6 ▼ → ▲ 7 ▼ and discharged to the discharge tray 31.
[0061]
On the other hand, a platen glass 38 for image reading is attached to the upper part of the apparatus main body 2 separately from the platen glass 3 on the side opposite to the platen glass 3 with the document abutting guide 4 interposed therebetween. The platen glass 38 is for reading an image of the document 30 conveyed by the document conveying device 28, and is constituted by a transparent glass plate. When the image of the document 30 is read using the document conveying device 28, the image reading position is set at the substantially central portion of the platen glass 38 in the sub-scanning direction Y, and the document conveying device 28 passes through this reading position. Will be transported.
[0062]
The image reading apparatus having the above configuration includes two modes as reading modes when the image reading unit 6 reads an image of a document. One is a mode for reading an image of a moving document 30 passing on the platen glass 38 by the document conveying device 28 in a state where the full-rate carriage 10 is stopped under the platen glass 38 serving as an image reading position (hereinafter referred to as a mode). The other is to move the full-rate carriage 10 and the half-rate carriage 11 in the sub-scanning direction Y on an image of a stopped document (not shown) set on the platen glass 3. Is a reading mode (hereinafter referred to as a stopped document reading mode).
[0063]
In the moving original reading mode, the original image is read and scanned (flow-reading) in the sub-scanning direction Y according to the movement of the original. In the stopped original reading mode, the original image is transferred to the carriages 10 and 11. As a result of this movement, scanning is performed in the sub-scanning direction Y. A document image reading method based on the moving document reading mode is also referred to as a CVT (Constant Velocity Transport) method. When this moving document reading mode is applied, since a plurality of documents 30 are sequentially conveyed to the reading position (on the platen glass 38) and images can be continuously read, the processing speed can be greatly improved. .
[0064]
In the configuration of the control system when the image reading apparatus 1 shown in FIG. 6 is used, the detection signal of the presence / absence of a document by the document detection sensor 32 is input to the controller 22, and the rest is shown in FIG. It will be the same as shown.
[0065]
Next, processing operations of the apparatus performed according to the control process of the controller 22 when the image reading apparatus 1 shown in FIG. 6 is used will be described.
[0066]
FIG. 7 is a flowchart showing the processing operation of the apparatus according to the third embodiment of the present invention. First, when the user sets the document 30 on the document tray 29 and presses the reading start button on the operation panel 26, the controller 22 receives this and the carriage 22 moves the full rate carriage 10 under the white reference plate 5. The movement is started (step S31). The movement start position of the full rate carriage 10 at this time is the home position. Incidentally, in FIG. 6, the full-rate carriage 10 is stopped at the home position.
[0067]
Here, the reading mode applied in the image reading unit 6 is switched by the controller 22 based on the detection signal of the document detection sensor 32 when the user presses the reading start button of the operation panel 26. Specifically, when the user presses the reading start button, when it is determined that there is a document on the document tray 29 based on a detection signal input from the document detection sensor 32, the moving document reading mode is applied and the document tray 29 is applied. When it is determined that there is no original, the stop original reading mode is applied. When the stop document reading mode is applied, the size of the document in the main scanning direction is detected using image data for one line read by reading the lamp 12 instantaneously at the home position of the full-rate carriage 10.
[0068]
Next, it is determined whether or not the elapsed time after the lamp 12 is turned off (lamp off time) is 30 ms or longer (step S32). If it is determined that 30 ms or longer has passed, the image reading unit 6 reads the original image. It is determined whether or not the moving document reading mode is applied as the reading mode (step S33). The subsequent black level correction data collection method is switched in accordance with the determination result in step S33.
[0069]
That is, if it is determined in step S33 that the moving document reading mode is applied, the process proceeds to step S34, and if it is determined that the moving document reading mode is not applied (in other words, the stopped document reading mode is applied). If it is determined that), the process proceeds to step S40. Incidentally, the processes of steps S34 to S39 are performed in substantially the same manner as the processes of steps S14 to S19 in the second embodiment. That is, in step S34, black level correction data is collected as in step S14, and in step S35, the remaining time until the full rate carriage 10 reaches below the white reference plate 5 is monitored as in step S15. In step S36, the lamp 12 is turned on in the same manner as in step S16, and in step S37, it is determined whether or not the full rate carriage 10 has reached below the white reference plate 4 in the same manner as in step S17. In step S38, white level correction data is collected in the same manner as in step S18, and in step S39, an original image reading operation is performed in the same manner as in step S19. However, in step S19, the original image is read in accordance with the stopped original reading mode, whereas in step S39, the original image is read in accordance with the moving original reading mode.
[0070]
On the other hand, the processes of steps S40 to S43 are performed in the same manner as the processes of steps S20 to S23 in the second embodiment. That is, in step S40, it is determined whether or not the full rate carriage 10 has reached the lower side of the white reference plate 5 based on the detection signal from the registration sensor 24 as in step S20. Collect level correction data. In step S42, the lamp 12 is turned on similarly to step S22, and in step S43, it is determined whether the elapsed time from lamp lighting has reached 30 ms (lamp light quantity stabilization time) as in step S23. If the process proceeds from step S43 to steps S38 and S39, white level correction data is collected in step S38 in the same manner as in step S18, and then in step S39 in the same manner as in step S19, the original image is read in accordance with the stop original reading mode. Read.
[0071]
In the processing operation of the apparatus according to the third embodiment described above, the black level correction data collection method is switched according to the reading mode (moving document reading mode, stop document reading mode) applied by the image reading unit 6. The black level correction data can be collected by a method suitable for the reading mode at that time. In addition, when the actually applied reading mode is the moving document reading mode, the black image data is read while the full rate carriage 10 is moving toward the lower side of the white reference plate 5, so that a full rate carriage is used as in the conventional case. Compared with the case where the black image data is read after moving under the white reference plate, the original image reading start time can be shortened.
[0072]
Further, since the moving document reading mode is applied on the assumption that the document pressing cover 27 is in the closed state, even when the full-rate carriage 10 is moving, the document pressing cover 27 causes external light to be emitted when black image data is captured. Blocked. Therefore, it is possible to capture black image data without being affected by external light.
[0073]
Furthermore, when the moving document reading mode is applied, after the black level correction data is collected in step S34, before the full rate carriage 10 reaches below the white reference plate 5 (before it is determined Yes in step S37). Since the lamp 12 is lit at the same time, the white level correction data collection process can be started at the same time when the full-rate carriage 10 reaches below the white reference plate 5 (stops movement). Thereby, it is possible to further shorten the document image reading start time.
[0074]
After the black level correction data is collected, the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 is monitored in step S35, and the remaining time coincides with the lamp light amount stabilization time ( Since the lamp 12 is turned on at the timing determined as Yes in step S35), the light quantity of the lamp 12 is always in a stable state when the full-rate carriage 10 arrives under the white reference plate 5. For this reason, it is possible to reliably prevent variations in white image data due to fluctuations in the amount of light. This effect can be obtained even when the lamp 12 is lit at a timing before the remaining time until the full-rate carriage 10 reaches below the white reference plate 5 coincides with the lamp light quantity stabilization time (30 ms in this example).
[0075]
The processing operation shown in FIG. 5 can also be applied as the processing operation of the image reading apparatus provided with the document conveying device. When the reading mode applied by the image reading unit 6 is the stopped document reading mode (when determined No in step S33), the same processing as that in steps S3 to S8 of the processing operation shown in FIG. 4 is applied. It is also possible to do.
[0076]
Further, the image reading apparatus including the document conveying device has a white reference separately in an area outside the document image reading range in the main scanning direction (reading margin area) at the image reading position set on the document conveying route. It is also conceivable to employ a configuration in which a plate is provided and white level correction data is collected using the white reference data obtained when the white reference plate is read. When such a configuration is adopted, the movement of the scanning body (full-rate carriage) toward the lower side of the white reference plate and the movement of the scanning body toward the lower side of the image reading position are substantially the same operations. Will mean.
[0077]
【The invention's effect】
  According to the image reading apparatus of the present invention, compared to the case where the black level correction data is collected after the scanning body is moved below the white reference plate as in the prior art, the original image reading start time is shortened. be able to.
[Brief description of the drawings]
FIG. 1 is a schematic diagram illustrating a configuration example of an image reading apparatus to which the present invention is applied.
FIG. 2 is a partial plan view of the image reading apparatus shown in FIG.
FIG. 3 is a block diagram illustrating a configuration example of a control system of the image reading apparatus according to the embodiment of the present invention.
FIG. 4 is a flowchart showing a processing operation of the apparatus according to the first embodiment of the present invention.
FIG. 5 is a flowchart showing a processing operation of the apparatus according to the second embodiment of the present invention.
FIG. 6 is a schematic diagram illustrating another configuration example of an image reading apparatus to which the present invention is applied.
FIG. 7 is a flowchart showing a processing operation of the apparatus according to the third embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image reading device, 3 ... Platen glass (original table), 4 ... Original abutting guide, 5 ... White reference board, 9 ... CCD image sensor, 10 ... Full-rate carriage (scanning body), 12 ... Lamp, 19 ... Black Level correction unit, 20 ... white level correction unit, 21 ... image data capturing unit, 22 ... controller, 23 ... carriage motor, 24 ... registration sensor, 25 ... cover open / close sensor, 26 ... operation panel, 27 ... document pressing member, 28 ... Document feeder, 30 ... original, 38 ... platen glass

Claims (4)

An original conveying means for conveying an original on a conveying route passing through an image reading position;
An image of a document is read using a scanning body mounted with a lamp and supported so as to be movable in the sub-scanning direction, and the scanning body is placed under the reading position as a reading mode when reading the image of the document. In the stopped state, the moving document reading mode for reading the image of the moving document passing through the reading position by the document conveying means and the image of the stopped document set on the document table are displayed on the scanning body. Image reading means having a stopped document reading mode for reading by moving in the sub-scanning direction;
A black level correction data collecting means for collecting black level correction data;
The black level correction data collection means collects the black level correction data from when the start of reading of the original is instructed until the image reading means starts reading of the original image. When the scanning body starts moving from the home position set within the original image reading range of the original table toward the lower side of the white reference plate, and the reading mode is the moving original reading mode, the white reference The black level correction data is collected using black image data when the scanning body is moved under the plate while the lamp is turned off, and the reading mode is the stop original reading mode. When the scanning body arrives under the white reference plate, the black image data obtained by reading the white reference plate with the lamp turned off is used. Collecting the black level correction data
An image reading apparatus. After harvesting before a and data the black level correction to start reading of the document image, and collecting the white level correction data using the white image data when lit the lamp read the white reference plate The image reading apparatus according to claim 1, further comprising white level correction data collection means. Control means for controlling the lamp,
Wherein if the reading mode is the moving original reading mode, such that the after black level correction for data collection and that the scanning body to light the lamp before reaching the bottom of the white reference plate The image reading apparatus according to claim 1, wherein the image reading apparatus is controlled as follows . When the scanning mode is the moving document reading mode, the control unit is configured to wait until the scanning body reaches below the white reference plate during the movement of the scanning body toward the bottom of the white reference plate. 4. The image reading apparatus according to claim 3 , wherein the remaining time is monitored, and control is performed so that the lamp is lit at a timing at which the remaining time coincides with a lamp light amount stabilization time or at a timing before that.

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