JP4026957B2 - Image reading apparatus, image reading method, and storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image reading apparatus, an image reading method, and a storage medium, and more specifically, an image reading apparatus, an image reading method, and an image reading apparatus suitable for application to a film scanner that reads an image of a transparent original such as a developed photographic film. The present invention relates to a storage medium.
[0002]
[Prior art]
Conventionally, there is a film image reading device (film scanner) that reads an image of a transparent original such as a developed photographic film. The configuration of a conventional film image reading apparatus (film scanner) will be described with reference to FIGS. FIG. 21 is a block diagram showing the configuration of the main part of the film scanner according to the conventional example, FIG. 22 is a perspective view of the main part of the film scanner according to the conventional example, and FIG. 23 is the circuit configuration of the film scanner according to the conventional example. FIG.
[0003]
In the figure, reference numeral 101 denotes a film carriage used as a document table, and reference numeral 102 denotes a developed film, which is fixed on the film carriage 101. 103 is a lamp serving as a light source, 104 is a mirror, 105 is a lens, and 106 is a line sensor composed of a CCD (charge coupled device) or the like. Light from the lamp 103 passes through the film 102 and is reflected by the mirror 104. An image is formed on the line sensor 106 by the lens 105.
[0004]
Reference numeral 107 denotes a motor for moving the film carriage 101 in the scanning direction (arrow direction in FIGS. 21 and 22), 108 denotes a sensor for detecting the position of the film carriage 101, and 109 denotes the lamp 103 to the line sensor 106. , 110 is a control circuit, 111 is a lens holder for holding the lens 105, 112 is an outer case of the film scanner, and 113 is an input / output terminal. The lamp 103, the line sensor 106, the motor 107, the sensor 108, and the input / output terminal 113 are electrically connected to the control circuit 110.
[0005]
Further, as shown in FIG. 23, the control circuit 110 includes a film scanner control circuit 114, a sensor control circuit 115, a motor control circuit 116, an image information processing circuit 117, a lamp control circuit 118, a line sensor control circuit 119, a film density. A detection circuit 120 and a motor drive speed determination circuit 121 are included.
[0006]
Next, an image information reading method of the film 102 in the film scanner according to the conventional example having the above configuration will be described. First, when a film reading operation command is input from the outside through the input / output terminal 113, the position of the film carriage 101 is detected by the sensor 108 and the sensor control circuit 115, and this information is transmitted to the film scanner control circuit 114. Next, in order to make the film carriage 101 stand by at a predetermined standby position, the motor 107 is driven by the motor control circuit 116 to move the film carriage 101 to the standby position.
[0007]
Next, the density of the film 102 is detected by the film density detection circuit 120 by a known method, and the driving speed of the motor 107 for scanning is determined by the motor driving speed determination circuit 121 based on this information. Next, the lamp 103 is turned on by the lamp control circuit 118, and the scanning operation is performed by rotating the motor 107 at the previously determined driving speed. During this scanning, image information is transmitted from the line sensor 106 to the image information processing circuit 117 through the line sensor control circuit 119. When this scanning operation is completed, the lamp control circuit 118 extinguishes the lamp 103 and simultaneously the image information processing circuit 117 performs image information processing. Then, image information is output from the input / output terminal 113, and the film image reading operation of the film scanner ends.
[0008]
In recent years, not only scanning with visible light as described above, but also scanning with infrared light to detect dust and wrinkles on the film, and image information of scanning with visible light Japanese Patent Publication No. 06-78992 proposes a film scanner that can superimpose and correct detected dust and wrinkles by image processing to provide an image free of dust and wrinkles.
[0009]
[Problems to be solved by the invention]
However, the above-described prior art has the following drawbacks. That is, when scanning a film image with visible light and scanning a film image with infrared light to detect dust on the film and film wrinkles, the film carriage and the line sensor are moved back and forth relatively two times. It is necessary to scan a film image. That is, in order to obtain a film image in which dust and wrinkles are corrected, there is a drawback that the conventional technique requires a longer scan time than when the dust and wrinkles are not corrected.
[0012]
  BookThe invention does not perform image processing for correcting the range of dust and wrinkles in the image information of the film when scanning a film having almost no dust and wrinkles or when it is not necessary to correct dust and wrinkles in the output image. To provide an image reading apparatus, an image reading method, and a storage medium capable of reducing the time required for image information processing for obtaining image information of a film by visible lightEyesTarget.
[0019]
[Means for Solving the Problems]
  In order to achieve the above object, an image reading apparatus according to claim 1, wherein visible light is applied to a transparent document.1st light emitting part which irradiatesas well asFor the transparent documentIrradiate invisible lightHaving a second light emitting partLight emitting means and the visible light emitted from the light emitting meansUsedImage of the transparent documentAnd reading from the light emitting meansUsing invisible lightTheImage of the transparent documentofreadingCommonly used forAn image reading unit; and a control unit that controls the light emitting unit and the image reading unit. When the image reading unit reads an image of the transparent document, the image reading unit uses the visible light to read the image. Fine scan for acquiring image information of a transparent document, rough scan for acquiring approximate image information of the transparent document by the image reading unit using the visible light to determine scan conditions in the fine scan, And a first operation mode for performing invisible light scanning for acquiring image information of the transparent document by the image reading means using the invisible light, and using the visible light without performing the invisible light scanning. Select either the second scan mode for rough scan or fine scanThe control means controls turning on / off of the first light emitting part and the second light emitting part of the light emitting means, the transparent document is a developed photographic film, and the invisible light is red Outside lightIt is characterized by that.
[0030]
  In order to achieve the above object, the claims2The image reading method described is visible light1st light emission part which emits lightAnd invisible lightIt has the 2nd light emission part which light-emits.By light emitting meansLight on a transparent documentA light emitting step for irradiating, and the visible light emitted from the light emitting means;UsedTransparent documentReading of the image and the light emitted from the light emitting meansUsing invisible lightThe image of the transparent original is read by an image reading means commonly used for reading the image of the transparent original.A reading step for reading, and a control step for controlling the light emitting means and the image reading means, wherein the control step uses the visible light when reading the image of the transparent document in the reading step. Fine scan for acquiring image information of the transparent document by a reading unit, and for acquiring approximate image information of the transparent document by the image reading unit using the visible light in order to determine scan conditions in the fine scan A first operation mode in which invisible light scanning is performed for acquiring image information of the transparent document by the image reading unit using the invisible light, and the visible light scanning is not performed and the visible light scanning is performed. Select one of the second operation mode for performing rough scan and fine scan using light Select step thatAnd a light emission control step for controlling turning on / off of the first light emitting portion and the second light emitting portion of the light emitting means, wherein the transparent document is a developed photographic film, and the invisible light is red Outside lightIt is characterized by that.
[0036]
  In order to achieve the above object, the claims3The described storage medium is a computer-readable storage medium storing a program for executing an image reading method for reading an image, and the program isYesSight1st light emission part which emits lightAnd invisible lightIt has the 2nd light emission part which light-emits.By light emitting meansLight on a transparent documentLight emitting module to be irradiated and the visible light irradiated from the light emitting meansReading the image of the transparent original using the light source and the light emitted from the light emitting meansUsing invisible lightTheImage of the transparent documentCommonly used for readingBy image reading meansThe transparent original imageA reading module; and a control module that controls the light emitting unit and the image reading unit. The control module uses the visible light when the reading module reads an image of the transparent document. Fine scan for acquiring image information of the transparent document by a reading unit, and for acquiring approximate image information of the transparent document by the image reading unit using the visible light in order to determine scan conditions in the fine scan A first operation mode in which invisible light scanning is performed for acquiring image information of the transparent document by the image reading unit using the invisible light, and the visible light scanning is not performed and the visible light scanning is performed. Select one of the second operation mode for rough scan and fine scan using light Select modules toAnd a light emission control module for controlling turning on / off of the first light emitting portion and the second light emitting portion of the light emitting means, the transparent document is a developed photographic film, and the invisible light is red Outside lightIt is characterized by that.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0038]
[1] First embodiment
FIG. 1 is a configuration diagram showing the configuration of the main part of a film scanner according to the first embodiment of the present invention, and FIG. 2 is a perspective view of the main part of the film scanner according to the first embodiment of the present invention seen through. It is. The film scanner according to the first embodiment of the present invention includes a film carriage 1, a lamp 3, a mirror 4, a lens 5, a line sensor 6, a motor 7, a sensor 8, a filter 10, a filter motor 11, a control circuit 12, The lens holder 13, the outer case 14, the input / output terminal 15, the density sensor 16, and the filter sensor 17 are provided.
[0039]
The configuration of each part will be described in detail. The film carriage 1 is used as a document table, and the developed film 2 is fixed on the film carriage 1. The lamp 3 serves as a light source for visible light and infrared light, and has emission characteristics from the visible light wavelength region to the infrared wavelength. The line sensor 6 is constituted by a CCD (charge coupled device) or the like. Light from the lamp 3 passes through the film 2, is reflected by the mirror 4, and forms an image on the line sensor 6 by the lens 5. Further, the line sensor 6 has three light receiving regions, an R light receiving portion, a G light receiving portion, and a B light receiving portion, and has sensitivity to red, green, and blue light wavelengths, respectively, and also R light receiving. At least one of the portion, the G light receiving portion, and the B light receiving portion is sensitive to infrared light.
[0040]
The motor 7 moves the film carriage 1 in the scanning direction (the arrow direction in FIGS. 1 and 2). The sensor 8 detects the position of the film carriage 1. In the figure, 9 indicates the optical axis from the lamp 3 to the line sensor 6. The filter 10 is for cutting infrared light, and is held on the optical axis 9 so as to freely enter and exit. The filter motor 11 moves the filter 10. The control circuit 12 has the configuration shown in FIG. 3, and executes the processing shown in the flowcharts of FIGS. The lens holder 13 holds the lens 5. The outer case 14 accommodates each part of the film scanner. A device is connected to the input / output terminal 15. The density sensor 16 detects the film density. The filter sensor 17 detects the position of the filter 10. The lamp 3, the line sensor 6, the motor 7, the sensor 8, the filter motor 11, the input / output terminal 15, the concentration sensor 16, and the filter sensor 17 are electrically connected to the control circuit 12.
[0041]
FIG. 3 is a block diagram showing a circuit configuration of the film scanner according to the first embodiment of the present invention. The film scanner control circuit 12 according to the first embodiment of the present invention includes a film scanner control circuit 18, a sensor control circuit 19, a motor control circuit 20, an image information processing circuit 21, a lamp control circuit 22, and an image information storage circuit. 23, a line sensor control circuit 24, a film density detection circuit 25, a motor drive speed determination circuit 26, a filter motor control circuit 27, a filter sensor control circuit 28, and a density sensor control circuit 29.
[0042]
Explaining the function of each of the above parts, the film scanner control circuit 18 comprehensively controls each of the circuits 19 to 29. The sensor control circuit 19 detects the position of the film carriage 1 based on the detection signal of the sensor 8. The motor control circuit 20 drives and controls the motor 7 to move the film carriage 1 in the scanning direction. The image information processing circuit 21 performs image information processing for correcting dust and wrinkle ranges in the image information on the film 2. The lamp control circuit 22 controls turning on / off of the lamp 3. The image information storage circuit 23 stores dust and soot range information on the film 2.
[0043]
The line sensor control circuit 24 controls the line sensor 6 and captures image information from the line sensor 6. The film density detection circuit 25 detects the film density based on the detection signal of the density sensor 16. The motor drive speed determination circuit 26 determines the drive speed of the motor 7. The filter motor control circuit 27 drives and controls the filter motor 11 to move the filter 10. The filter sensor control circuit 28 detects the position of the filter 10 based on the detection signal of the filter sensor 17. The density sensor control circuit 29 controls the density sensor 16.
[0044]
Correspondence between each component in the claims and each part of the film scanner according to the first embodiment of the present invention and second and third embodiments described later is as follows. That is, the light detection means corresponds to the line sensors 6, 36, 66, the light emission means corresponds to the lamps 3, 33, and the lamp unit 63, the control means corresponds to the control circuits 12, 41, 72, and the light shielding means is the filter. 10 corresponds to the physical element 40.
[0045]
Next, an image reading method of the film 2 in the film scanner according to the first embodiment of the present invention configured as described above will be described with reference to FIGS. 4 and 5 are flowcharts for controlling the operation of the film scanner according to the first embodiment of the present invention.
[0046]
First, when a film reading operation command is input from the outside through the input / output terminal 15, the position of the film carriage 1 is detected by the sensor 8 and the sensor control circuit 19, and this information is transmitted to the film scanner control circuit 18. Next, in order to make the film carriage 1 stand by at a predetermined standby position, the motor 7 is driven by the motor control circuit 20 to move the film carriage 1 to the standby position. At the same time, the position of the filter 10 is detected by the filter sensor 17 and the filter sensor control circuit 28, and this information is transmitted to the film scanner control circuit 18. Next, in order to retract the filter 10 from the optical axis 9, the filter motor control circuit 27 drives the filter motor 11 to move the filter 10 to the retracted position (step S401).
[0047]
Next, the density of the film 2 is detected by the density sensor 16 and the film density detection circuit 25 (step S402), and the driving speed of the motor 7 for scanning is determined by the motor driving speed determination circuit 26 based on this information (step S402). Step S403). Next, the lamp 3 is turned on by the lamp control circuit 22 (step S404), the motor 7 is rotated in a predetermined direction by the motor control circuit 20 at the previously determined driving speed, and the image information of the film 2 by infrared light. A scanning operation is performed to obtain (Step S405).
[0048]
During this scan, the image information is transmitted from the line sensor 6 to the image information processing circuit 21 through the line sensor control circuit 24, and the infrared light is transmitted, that is, infrared light is transmitted from most other areas on the film 2. By detecting a region on the film 2 where the transmittance of the film is different from the predetermined value or more, a range of dust and wrinkles on the film 2 is detected (step S406). Next, the dust and soot range information is transmitted to and stored in the image information storage circuit 23 (step S407).
[0049]
When the scanning operation for obtaining the image information of the film 2 by infrared light, that is, the range information of dust and wrinkles is completed, the position of the filter 10 is detected by the filter sensor 17 and the filter sensor control circuit 28. The filter motor control circuit 28 drives the filter motor 11 to a position covering the light beam centered on the optical axis 9, and moves the filter 10 to the cover position (step S408). Next, the motor control circuit 20 rotates the motor 7 in the reverse direction at the previously determined driving speed, and a scanning operation for obtaining image information of the film 2 by visible light is performed (step S409). During this scanning, image information is transmitted from the line sensor 6 to the image information processing circuit 21 through the line sensor control circuit 24.
[0050]
When this scanning operation is completed, the lamp 3 is extinguished by the lamp control circuit 22, and at the same time, the range information of dust and soot is transmitted from the image information storage circuit 23 to the image information processing circuit 21, where film by visible light is used. Image information processing for correcting the range of dust and wrinkles in the image information 2 is performed (step S410). Then, image information is output from the input / output terminal 15 (step S411), and the film image reading operation of the film scanner ends.
[0051]
Here, in the above-described first embodiment of the present invention, the range information of dust and wrinkles on the film 2 and the image information of the film 2 by visible light are separately output from the input / output terminal 15, and the input / output terminal Image information processing for correcting the range of dust and wrinkles in the image information of the film 2 by visible light may be performed by a device (not shown) connected to the screen 15.
[0052]
In the first embodiment of the present invention, the scan operation for obtaining the image information of the film 2 by visible light is performed prior to the scan operation for obtaining the image information of the film 2 by infrared light. Also good. However, in this case, the image information of the film 2 by visible light is stored in the image information storage circuit 23.
[0053]
In the first embodiment of the present invention, the scanning operation for infrared light, that is, the scanning operation for obtaining the range information of dust and wrinkles is not performed, and the scanning for the image information of the film 2 by visible light is performed. An operation mode for performing only the operation may be provided so that this operation mode can be selected. In this way, when scanning a film having almost no dust and wrinkles, or when it is not necessary to correct dust and wrinkles in the output image, image information for correcting the dust and wrinkle range of the image information on the film 2 The effect that the time concerning the image information processing for obtaining the image information of the film 2 by visible light can be shortened without performing the processing is obtained.
[0054]
As described above, according to the film scanner according to the first embodiment of the present invention, the transmitted light from the lamp 3 having the light emission characteristics from the visible light wavelength region to the infrared wavelength and the film 2 is imaged. Line sensor 6, a filter 10 that is arranged on the light incident side of line sensor 6 and is held on and off optical axis 9 and cuts infrared light, and image information of film 2 by infrared light Scan operation to obtain, detection of dust and wrinkle range on film 2, scan operation to obtain image information of film 2 by visible light, correction of dust and wrinkle range of film 2 image information by visible light, etc. Therefore, the following effects can be obtained.
[0055]
In the above configuration, the image information by visible light is read by the movement of the film 2 which is a transparent document and the line sensor 6 to one of the reciprocating movements, and the image information by infrared light is read by the movement of the reciprocating movements to the other. Since reading is performed, it is not necessary to separately perform the relative reciprocating motion of the film 2 and the line sensor 6 for reading image information by visible light and the reciprocating motion for reading image information by infrared light. In addition, there is an effect that it is possible to provide a film image reading apparatus capable of performing a scanning operation with infrared light for obtaining a film image free from dust and wrinkles in a shorter time than with a simple configuration.
[0056]
In addition, an operation mode in which image information is not read by infrared light when reading image information on the film 2 is provided, and this operation mode can be selected to scan or output a film having almost no dust or wrinkles. When image dust and wrinkle correction is not required, image processing for obtaining film image information by visible light is performed without performing image processing to correct the dust and wrinkle range of film image information. There is an effect that this time can be shortened.
[0057]
[2] Second embodiment
FIG. 6 is a block diagram showing the configuration of the main part of the film scanner according to the second embodiment of the present invention, and FIG. 7 is a perspective view of the main part of the film scanner according to the second embodiment of the present invention seen through. It is. The film scanner according to the second embodiment of the present invention includes a film carriage 31, a lamp 33, a mirror 34, a lens 35, a line sensor 36, a motor 37, a sensor 38, a physical property element 40, a control circuit 41, a lens holder 42, An exterior case 43 and an input / output terminal 44 are provided.
[0058]
In detail, the film carriage 31 is used as a document table, and the developed film 32 is fixed on the film carriage 31. The lamp 33 serves as a light source for visible light and infrared light, and has emission characteristics from the visible light wavelength region to the infrared wavelength. The line sensor 36 is constituted by a CCD (charge coupled device) or the like. The light from the lamp 33 passes through the film 32, is reflected by the mirror 34, and is imaged on the line sensor 36 by the lens 35. The line sensor 36 has three light receiving regions, an R light receiving portion, a G light receiving portion, and a B light receiving portion, and has sensitivity to red, green, and blue light wavelengths. At least one of the portion, the G light receiving portion, and the B light receiving portion is sensitive to infrared light.
[0059]
The motor 37 moves the film carriage 31 in the scanning direction (arrow direction in FIGS. 6 and 7). The sensor 38 detects the position of the film carriage 31. In the figure, reference numeral 39 denotes an optical axis from the lamp 33 to the line sensor 36. The physical element 40 is a physical element such as electrochromy (EC) that can electrically control the transmittance of visible light and infrared light. The control circuit 41 has the configuration of FIG. 8 and executes the processing shown in the flowcharts of FIGS. 9 and 10. The lens holder 42 holds the lens 35. The outer case 43 accommodates each part of the film scanner. A device is connected to the input / output terminal 44. The lamp 33, the line sensor 36, the motor 37, the sensor 38, the physical property element 40, and the input / output terminal 44 are electrically connected to the control circuit 41.
[0060]
FIG. 8 is a block diagram showing a circuit configuration of a film scanner according to the second embodiment of the present invention. The film scanner control circuit 41 according to the second embodiment of the present invention includes a film scanner control circuit 45, a sensor control circuit 46, a motor control circuit 47, an image information processing circuit 48, a lamp control circuit 49, and an image information storage circuit. 50, a line sensor control circuit 51, a film density detection circuit 52, a motor drive speed determination circuit 53, and a physical element control circuit 54.
[0061]
Explaining the function of each of the above parts, the film scanner control circuit 45 comprehensively controls each of the circuits 46 to 54. The sensor control circuit 46 detects the position of the film carriage 31 based on the detection signal of the sensor 38. The motor control circuit 47 drives and controls the motor 37 to move the film carriage 31 in the scanning direction. The image information processing circuit 48 performs image information processing for correcting dust and wrinkle ranges in the image information on the film 32.
[0062]
The lamp control circuit 49 controls turning on / off of the lamp 33. The image information storage circuit 50 stores dust and soot range information on the film 32. The line sensor control circuit 51 controls the line sensor 36 and captures image information from the line sensor 36. The film density detection circuit 52 detects the film density. The motor drive speed determination circuit 53 determines the drive speed of the motor 37. The physical element control circuit 54 controls the physical element 40.
[0063]
Next, an image reading method of the film 32 in the film scanner according to the second embodiment of the present invention configured as described above will be described with reference to FIGS. 9 and 10 are flowcharts for controlling the operation of the film scanner according to the second embodiment of the present invention, and FIGS. 11 and 12 are infrared light transmissions of the physical property element according to the second embodiment of the present invention. FIG. 13 is an explanatory diagram showing the spectral transmission characteristics in the infrared light non-transmission state of the physical property element according to the second embodiment of the present invention.
[0064]
First, when a film reading operation command is input from the outside through the input / output terminal 44, the position of the film carriage 31 is detected by the sensor 38 and the sensor control circuit 46, and this information is transmitted to the film scanner control circuit 45. Next, in order to make the film carriage 31 stand by at a predetermined standby position, the motor 37 is driven by the motor control circuit 47 to move the film carriage 31 to the standby position. At the same time, the physical element control circuit 54 sets the spectral transmission characteristics of the physical element 40 to the infrared light transmission state as shown in FIGS. 11 and 12 (step S901).
[0065]
Next, the lamp 33 is turned on by the lamp control circuit 49 (step S902), and the motor 37 is rotated in a predetermined direction by the motor control circuit 47 in order to scan the image range of the film 32 in the film surface direction at a predetermined speed. Then, a scanning operation for obtaining image information of the film 32 by infrared light is performed (step S903).
[0066]
During this scan, image information is transmitted from the line sensor 36 through the line sensor control circuit 51 to the image information processing circuit 48, and infrared light is transmitted, that is, infrared light is transmitted from most other regions on the film 32. By detecting the area on the film 32 where the transmittance of the film is different from the predetermined value or more, the range of dust and soot on the film 32 is detected (step S904). Next, the dust and soot range information is transmitted to and stored in the image information storage circuit 50 (step S905).
[0067]
When the scanning operation for obtaining the image information of the film 32 by infrared light, that is, the range information of dust and wrinkles is completed, the physical element control circuit 54 shows the spectral transmission characteristics of the physical element 40 as shown in FIG. The infrared light opaque state is set (step S906). Next, the motor 37 is rotated in the reverse direction by the motor control circuit 47 at a predetermined driving speed, and a rough scan operation for obtaining image information of the film 32 by visible light is performed (step S907). During this rough scan, the image information is transmitted from the line sensor 36 to the image information processing circuit 48 through the line sensor control circuit 51, and based on this information, the light transmittance of the film 32, that is, the film density is determined by the film density detection circuit 52. It is detected (step S908).
[0068]
When the film carriage 31 is returned to its standby position and the rough scan operation is completed, the motor drive speed determination circuit 53 uses a motor for fine scan so that an image with an appropriate amount of light can be obtained based on the detected film density of the entire film. A driving speed is determined (step S909). Next, a fine scan operation is performed by rotating the motor 37 in a predetermined direction by the motor control circuit 47 at the determined motor driving speed (step S910). During the fine scan, image information is transmitted from the line sensor 36 to the image information processing circuit 48 through the line sensor control circuit 51.
[0069]
Then, the image reading operation for fine scanning is completed, the motor 37 is rotated in the reverse direction by the motor control circuit 47 at a predetermined driving speed, and the film carriage 31 is returned to its standby position (step S911). When the scanning operation is completed, the lamp control circuit 49 extinguishes the lamp 33, and at the same time, the image information storage circuit 50 transmits dust and soot range information to the image information processing circuit 48, where fine scanning (visible light) The image information processing for correcting the range of dust and wrinkles in the image information of the film 32 is performed (step S912). Then, image information is output from the input / output terminal 44 (step S913), and the film image reading operation of the film scanner ends.
[0070]
Here, in the above-described second embodiment of the present invention, the range information of dust and wrinkles on the film 32 and the image information of the film 32 by visible light are separately output from the input / output terminal 44 and input / output. Image information processing for correcting the range of dust and wrinkles in the image information on the film 32 by visible light may be performed by a device (not shown) connected to the terminal 44.
[0071]
In the second embodiment of the present invention, after a scanning operation for obtaining image information of the film 32 by infrared light is performed by moving the film carriage 31 in one direction, the returning operation ( The rough scan operation is performed by the movement of the film carriage 31 in the reverse direction), and this is the return operation after the rough scan operation is performed by the movement of the film carriage 31 in one direction (the movement of the film carriage 31). A scanning operation for obtaining image information of the film 32 by infrared light may be performed by movement in the reverse direction. However, in this case, the image information of the film 32 by visible light is stored in the image information storage circuit 50.
[0072]
In the second embodiment of the present invention, the scanning operation for obtaining the image information of the film 32 by infrared light is not performed by the reciprocating operation of the film carriage 31 during the rough scanning, but during the fine scanning operation. The film carriage 31 may be reciprocated. At this time, either the scan operation for obtaining image information of the film 32 by infrared light or the fine scan operation may be performed first. However, when the fine scan operation is performed first, the image information of the film 32 by visible light is stored in the image information storage circuit 50.
[0073]
In the second embodiment of the present invention, there is provided an operation mode in which only the scan operation for the image information of the film 32 by visible light is performed without performing the scan operation by infrared light, and this operation mode is selected. You may be able to do it. In this way, when scanning a film having almost no dust and wrinkles or when it is not necessary to correct dust and wrinkles in the output image, image information for correcting the dust and wrinkle range of the image information on the film 32 is corrected. The effect that the time concerning the image information processing for obtaining the image information of the film 32 by visible light can be shortened without performing the processing is obtained.
[0074]
As described above, according to the film scanner according to the second embodiment of the present invention, the lamp 33 having a light emission characteristic from the visible light wavelength region to the infrared wavelength and the transmitted light from the film 32 are imaged. Line sensor 36, physical element 40 that is disposed on the light incident side of line sensor 36 and that can electrically control the transmittance of visible light and infrared light, and infrared of the spectral transmission characteristics of physical element 40 Setting to light transmission state / infrared light non-transmission state, scanning operation for obtaining image information of film 32 by infrared light, detection of dust and wrinkle range on film 32, image information of film 32 by visible light Rough scan operation to obtain image information, fine scan operation to obtain image information on the film 32 with visible light with a specified image quality, and image information on the film 32 with fine scan (visible light) Since a control circuit 41 for performing a correction or the like in the range of or flaw, the effect as described below.
[0075]
In the above configuration, the image information of the film 32 which is a transparent document is read by rough scanning using visible light to obtain approximate image information of the film 32 and visible light for obtaining image information of the film 32 with a specified image quality. Three scans are performed: the fine scan by, and the infrared light scan that reads the image information of the film 32 by infrared light. Therefore, the infrared light for obtaining a film image free from dust and wrinkles in a shorter time than conventional. It is possible to provide a film image reading apparatus capable of performing a scanning operation with a simple configuration.
[0076]
In addition, an operation mode is provided in which image information is not read by infrared light when reading image information on the film 32, and this operation mode can be selected to scan or output a film having almost no dust or wrinkles. When image dust and wrinkle correction is not required, image processing for obtaining film image information by visible light is performed without performing image processing to correct the dust and wrinkle range of film image information. There is an effect that this time can be shortened.
[0077]
[3] Third embodiment
FIG. 14 is a configuration diagram showing the configuration of the main part of the film scanner according to the third embodiment of the present invention, and FIG. 15 is a perspective view of the main part of the film scanner according to the third embodiment of the present invention seen through. FIG. 19 is an explanatory diagram showing the emission spectrum intensity distribution of the visible light emitting part of the lamp unit according to the third embodiment of the present invention, and FIG. 20 shows the red color of the lamp unit according to the third embodiment of the present invention. It is explanatory drawing which shows the emission spectrum intensity distribution of an external light light emission part. The film scanner according to the third embodiment of the present invention includes a film carriage 61, a lamp unit 63, a mirror 64, a lens 65, a line sensor 66, a motor 67, a sensor 68, a control circuit 72, a lens holder 73, and an outer case 74. The input / output terminal 75 and the density sensor 76 are provided.
[0078]
In detail, the film carriage 61 is used as a document table, and the developed film 62 is fixed on the film carriage 61. The lamp unit 63 includes a visible light emitting unit 63a having an emission spectrum intensity distribution as shown in FIG. 19 and an infrared light emitting unit 63b having an emission spectrum intensity distribution as shown in FIG. The line sensor 66 is constituted by a CCD (charge coupled device) or the like. Light from the lamp unit 63 passes through the film 62, is reflected by the mirror 64, and forms an image on the line sensor 66 by the lens 65. The line sensor 66 has three light receiving regions, an R light receiving portion, a G light receiving portion, and a B light receiving portion, and has sensitivity to red, green, and blue light wavelengths, respectively. At least one of the portion, the G light receiving portion, and the B light receiving portion is sensitive to infrared light.
[0079]
The motor 67 moves the film carriage 61 in the scanning direction (arrow direction in FIGS. 14 and 15). The sensor 68 detects the position of the film carriage 61. In the figure, reference numeral 69 denotes an optical axis from the lamp unit 63 to the line sensor 66. The control circuit 72 has the configuration shown in FIG. 16, and executes the processing shown in the flowcharts of FIGS. The lens holder 73 holds the lens 65. The outer case 74 accommodates each part of the film scanner. A device is connected to the input / output terminal 75. The density sensor 76 detects the film density. The lamp unit 63, the line sensor 66, the motor 67, the sensor 68, the input / output terminal 75, and the density sensor 76 are electrically connected to the control circuit 72.
[0080]
FIG. 16 is a block diagram showing a circuit configuration of a film scanner according to the third embodiment of the present invention. The film scanner control circuit 72 according to the third embodiment of the present invention includes a film scanner control circuit 77, a sensor control circuit 78, a motor control circuit 79, an image information processing circuit 80, a lamp unit control circuit 81, and an image information storage. The circuit 82, the line sensor control circuit 83, the film density detection circuit 84, the motor drive speed determination circuit 85, and the density sensor control circuit 86 are configured.
[0081]
Explaining the function of each of the above parts, the film scanner control circuit 77 comprehensively controls the circuits 78 to 86. The sensor control circuit 78 detects the position of the film carriage 61 based on the detection signal of the sensor 68. The motor control circuit 79 drives and controls the motor 67 to move the film carriage 61 in the scanning direction. The image information processing circuit 80 performs image information processing for correcting the range of dust and wrinkles in the image information on the film 62.
[0082]
The lamp unit control circuit 81 controls turning on / off of the lamp unit 63. The image information storage circuit 82 stores dust and soot range information on the film 62. The line sensor control circuit 83 controls the line sensor 66 and captures image information from the line sensor 66. The film density detection circuit 84 detects the film density. The motor drive speed determination circuit 85 determines the drive speed of the motor 67. The density sensor control circuit 86 controls the density sensor 76.
[0083]
Next, an image reading method of the film 62 in the film scanner according to the third embodiment of the present invention configured as described above will be described with reference to FIGS. 17 and 18 are flowcharts for controlling the operation of the film scanner according to the third embodiment of the present invention.
[0084]
First, when a film reading operation command is input from the outside through the input / output terminal 75, the position of the film carriage 61 is detected by the sensor 68 and the sensor control circuit 78, and this information is transmitted to the film scanner control circuit 77. Next, to make the film carriage 61 stand by at a predetermined standby position, the motor 67 is driven by the motor control circuit 79 to move the film carriage 61 to the standby position (step S1701).
[0085]
Next, the density of the film 62 is detected by the density sensor 76 and the film density detection circuit 84 (step S1702), and the driving speed of the motor 67 for scanning is determined by the motor driving speed determination circuit 85 based on this information (step S1702). Step S1703). Next, the infrared light emitting unit 63b of the lamp unit 63 is turned on by the lamp unit control circuit 81 (step S1704), the motor 67 is rotated in a predetermined direction by the motor control circuit 79 at the previously determined driving speed, A scanning operation for obtaining image information of the film 62 by infrared light is performed (step S1705).
[0086]
During this scan, image information is transmitted from the line sensor 66 to the image information processing circuit 80 through the line sensor control circuit 83, and the infrared light is transmitted, that is, infrared light is transmitted from most other regions on the film 62. By detecting a region on the film 62 where the transmittance of the film is different from the predetermined value or more, a range of dust and soot on the film 62 is detected (step S1706). Next, the range information of the dust and the soot is transmitted to and stored in the image information storage circuit 82 (step S1707).
[0087]
When the scanning operation for obtaining the image information of the film 62 by infrared light, that is, the range information of dust and wrinkles, is finished, the infrared light emitting portion 63b of the lamp unit 63 is extinguished by the lamp unit control circuit 81, Next, the visible light emitter 63a of the lamp unit 63 is turned on by the lamp unit control circuit 81 (step S1708). Next, the motor control circuit 79 rotates the motor 67 in the reverse direction at the previously determined driving speed, and a scanning operation is performed to obtain image information of the film 62 by visible light (step S1709). During this scanning, image information is transmitted from the line sensor 66 to the image information processing circuit 80 through the line sensor control circuit 83.
[0088]
When this scanning operation is completed, the visible light emitting part 63a of the lamp unit 63 is extinguished by the lamp unit control circuit 81, and at the same time, dust and soot range information is transmitted from the image information storage circuit 82 to the image information processing circuit 80. Then, image information processing for correcting dust and wrinkle ranges in the image information of the film 63 by visible light is performed (step S1710). Then, image information is output from the input / output terminal 75 (step S1711), and the film image reading operation of the film scanner ends.
[0089]
Here, in the third embodiment of the present invention described above, as in the other embodiments, the range information of dust and wrinkles on the film 62 and the image information of the film 62 by visible light are input / output separately. Image information that is output from the terminal 75 and that corrects the dust or wrinkle range of the image information on the film 62 by visible light may be performed by a device (not shown) connected to the input / output terminal 44.
[0090]
In the third embodiment of the present invention, a scan operation for obtaining image information of the film 62 using visible light is performed prior to a scan operation for obtaining image information of the film 62 using infrared light. Also good. However, in this case, the image information of the film 62 by visible light is stored in the image information storage circuit 82.
[0091]
In the third embodiment of the present invention, there is provided an operation mode in which only the scan operation for image information of the film 62 by visible light is performed without performing the scan operation by infrared light, and this operation mode is selected. You may be able to do it. In this way, when scanning a film having almost no dust or wrinkles or when it is not necessary to correct dust or wrinkles in the output image, image information for correcting the dust and wrinkle range of the image information on the film 62 is corrected. The effect that the time concerning the image information processing for obtaining the image information of the film 62 by visible light can be shortened without performing processing is obtained.
[0092]
As described above, according to the film scanner according to the third embodiment of the present invention, the transmitted light from the lamp unit 63 including the visible light emitting unit 63a and the infrared light emitting unit 63b and the film 62 is transmitted. The line sensor 66 on which the light is imaged, the on / off of the visible light emitting part 63a and the infrared light emitting part 63b of the lamp unit 63, the scanning operation for obtaining the image information of the film 62 by infrared light, the film A control circuit 72 that executes detection of dust and wrinkle ranges on 62, scanning operation for obtaining image information of the film 62 by visible light, correction of dust and wrinkle ranges of image information of the film 63 by visible light, and the like Therefore, the following effects can be obtained.
[0093]
In the above configuration, after performing the scanning operation for obtaining the image information of the film 62 by infrared light by turning on the infrared light emitting unit 63b of the lamp unit 63, the visible light emitting unit 63a of the lamp unit 63 is obtained. Since the scanning operation for obtaining the image information of the film 62 by visible light is performed by turning on, the scanning operation by infrared light for obtaining a film image free from dust and wrinkles in a shorter time than conventional. There is an effect that it is possible to provide a film image reading apparatus capable of performing the above with a simple configuration.
[0094]
In addition, an operation mode is provided in which image information is not read by infrared light when reading image information on the film 62, and this operation mode can be selected to scan or output a film having almost no dust or wrinkles. When image dust and wrinkle correction is not required, image processing for obtaining film image information by visible light is performed without performing image processing to correct the dust and wrinkle range of film image information. There is an effect that this time can be shortened.
[0095]
The present invention may be applied to a system composed of a plurality of devices or an apparatus composed of a single device. A storage medium storing software program codes for realizing the functions of the above-described embodiments is supplied to the system or apparatus, and the computer (or CPU or MPU) of the system or apparatus stores the program code stored in the storage medium. Needless to say, this can also be achieved by executing read.
[0096]
In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiments, and the storage medium storing the program code constitutes the present invention.
[0097]
As a storage medium for supplying the program code, for example, a floppy disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used.
[0098]
Further, by executing the program code read out by the computer, not only the functions of the above-described embodiments are realized, but also the OS operating on the computer based on the instruction of the program code performs the actual processing. Needless to say, a case where the function of the above-described embodiment is realized by performing part or all of the processing is also included.
[0099]
Further, after the program code read from the storage medium is written into a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. It goes without saying that the CPU or the like provided in the board or the function expansion unit performs part or all of the actual processing, and the functions of the above-described embodiments are realized by the processing.
[0106]
【The invention's effect】
  According to the image reading apparatus of claim 1, visible light is applied to a transparent document.For the first light-emitting part and transparent documentIrradiate invisible lightHaving a second light emitting partLight emitting means and visible light emitted from the light emitting meansReads the image of a transparent manuscript using light and emits light from the light emitting meansUsing invisible lightTheTransparent original imageofReadCommonly used for RitoImage reading means, and light emitting means and control means for controlling the image reading means. When the image reading means reads the image of the transparent original, the image reading means uses the visible light to obtain the image information of the transparent original. Fine scanning for obtaining, rough scanning for obtaining rough image information of a transparent original by image reading means using visible light to determine scanning conditions in fine scanning, and image reading means using invisible light Either a first operation mode for performing invisible light scanning for acquiring image information of a transparent document, or a second operation mode for performing rough scanning and fine scanning using visible light without performing invisible light scanning. Can be selectedThe control means controls the turning on / off of the first light emitting part and the second light emitting part of the light emitting means.Therefore, the following effects are produced. When scanning a transparent document (developed photographic film, etc.) that has almost no dust or wrinkles, or when it is not necessary to correct dust or wrinkles in the output image, a transparent document (by selecting the second operation mode) Time required for image information processing to obtain image information of a transparent document (developed photographic film, etc.) by visible light without performing image processing for correcting the range of dust and wrinkles in the image information of the developed photographic film, etc.) There is an effect that can be shortened.The light emitting means has a first light emitting section for irradiating the transparent original with visible light and a second light emitting section for irradiating the transparent original with invisible light, and the control means has first and second light emitting sections of the light emitting means. An image reading apparatus capable of performing a scanning operation for obtaining a transparent original image (an image of a developed photographic film, etc.) free from dust and wrinkles in a shorter time than conventional methods in order to control turning on / off of the image There is an effect that it can be provided with a simple configuration. Further, since the transparent document is a developed photographic film and the invisible light is infrared light, the following effects can be obtained. As above, when scanning a film with almost no dust or wrinkles or when it is not necessary to correct dust or wrinkles in the output image, image processing is performed to correct the dust and wrinkle range in the image information on the film. In addition, there is an effect that the time required for image information processing for obtaining image information of the film by visible light can be shortened.
[0117]
  Claim2According to the described image reading method,OKSight1st light emission part which emits lightAnd invisible lightIt has the 2nd light emission part which light-emits.By light emitting meansLight on a transparent documentLight emission step to irradiate and visible light emitted from light emitting meansReads the image of a transparent manuscript using light and emits light from the light emitting meansUsing invisible lightBy image reading means commonly used for reading images of transparent documentsA reading step for reading an image of the transparent original; and a control step for controlling the light emitting means and the image reading means. When the control step reads the image of the transparent original in the reading step, the image reading means using visible light Fine scan for acquiring image information of a transparent document by means of, rough scan for acquiring rough image information of a transparent document by an image reading means using visible light to determine scanning conditions in fine scan, and invisible light A first operation mode for performing an invisible light scan for acquiring image information of a transparent document by an image reading means, and a first operation mode for performing a rough scan and a fine scan using visible light without performing the invisible light scan. Selection step for selecting one of the two operation modesAnd a light emission control step for controlling turning on / off of the first light emitting unit and the second light emitting unit of the light emitting means;Therefore, the following effects can be obtained. When scanning a transparent document (developed photographic film, etc.) that has almost no dust or wrinkles, or when it is not necessary to correct dust or wrinkles in the output image, a transparent document (by selecting the second operation mode) Time required for image information processing to obtain image information of a transparent document (developed photographic film, etc.) by visible light without performing image processing for correcting the range of dust and wrinkles in the image information of the developed photographic film, etc.) There is an effect that can be shortened.Further, in the control step, since the turning on / off of the first light emitting part of the light emitting means and the second light emitting part that emits invisible light is controlled, a transparent document image (development) free of dust and wrinkles in a shorter time than before. An image reading apparatus capable of performing a scanning operation for obtaining an image of a finished photographic film or the like can be provided with a simple configuration. Further, since the transparent document is a developed photographic film and the invisible light is infrared light, the following effects can be obtained. As above, when scanning a film with almost no dust or wrinkles or when it is not necessary to correct dust or wrinkles in the output image, image processing is performed to correct the dust and wrinkle range in the image information on the film. In addition, there is an effect that the time required for image information processing for obtaining image information of the film by visible light can be shortened.
[0123]
  Claim3According to the described storage medium, a computer-readable storage medium storing a program for executing an image reading method for reading an imageBecause, The program isOKSight1st light emission part which emits lightAnd invisible lightA second light emitting unit that emits lightBy light emitting meansLight on a transparent documentLight emitting module to be irradiated and visible light irradiated from light emitting meansReads the image of a transparent manuscript using light and emits light from the light emitting meansUsing invisible lightBy image reading means commonly used for reading images of transparent documentsA reading module that reads an image of a transparent document, and a control module that controls the light emitting unit and the image reading unit. When the reading module reads the image of the transparent document, the image reading unit uses visible light. Fine scan for acquiring image information of a transparent document by means of, rough scan for acquiring approximate image information of a transparent document by an image reading means using visible light to determine scanning conditions in fine scan, and invisible light A first operation mode for performing an invisible light scan for acquiring image information of a transparent document by an image reading means, and a first operation mode for performing a rough scan and a fine scan using visible light without performing the invisible light scan. Selection module for selecting one of the two operation modesAnd a light emission control module for controlling turning on / off of the first light emitting part and the second light emitting part of the light emitting means,Therefore, the following effects can be obtained. When scanning a transparent document (developed photographic film, etc.) that has almost no dust or wrinkles, or when it is not necessary to correct dust or wrinkles in the output image, a transparent document (by selecting the second operation mode) Time required for image information processing to obtain image information of a transparent original (developed photographic film, etc.) by visible light without performing image processing for correcting the range of dust and wrinkles in the image information of the developed photographic film (development photographic film, etc.) There is an effect that can be shortened.In addition, since the control module controls the turning on / off of the first light emitting part of the light emitting means and the second light emitting part that emits invisible light, the transparent original image (development) free of dust and wrinkles in a shorter time than before. An image reading apparatus capable of performing a scanning operation for obtaining an image of a finished photographic film or the like can be provided with a simple configuration.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a configuration of a main part of a film scanner according to a first embodiment of the present invention.
FIG. 2 is a perspective view seen through a main part of the film scanner according to the first embodiment of the present invention.
FIG. 3 is a block diagram showing a circuit configuration of the film scanner according to the first embodiment of the present invention.
FIG. 4 is a flowchart for controlling the operation of the film scanner according to the first embodiment of the invention.
FIG. 5 is a flowchart for controlling the operation of the film scanner according to the first embodiment of the present invention.
FIG. 6 is a configuration diagram showing a configuration of a main part of a film scanner according to a second embodiment of the present invention.
FIG. 7 is a perspective view seen through a main part of a film scanner according to a second embodiment of the present invention.
FIG. 8 is a block diagram showing a circuit configuration of a film scanner according to a second embodiment of the present invention.
FIG. 9 is a flowchart for controlling the operation of the film scanner according to the second embodiment of the present invention.
FIG. 10 is a flowchart for controlling the operation of the film scanner according to the second embodiment of the invention.
FIG. 11 is an explanatory diagram showing spectral transmission characteristics of an infrared light transmission state of a physical property element according to a second embodiment of the present invention.
FIG. 12 is an explanatory diagram showing spectral transmission characteristics in the infrared light transmission state of the physical property element according to the second embodiment of the present invention.
FIG. 13 is an explanatory diagram showing spectral transmission characteristics in a non-transparent state of an infrared light of a physical property element according to a second embodiment of the present invention.
FIG. 14 is a configuration diagram showing a configuration of a main part of a film scanner according to a third embodiment of the present invention.
FIG. 15 is a perspective view seen through a main part of a film scanner according to a third embodiment of the present invention.
FIG. 16 is a block diagram showing a circuit configuration of a film scanner according to a third embodiment of the present invention.
FIG. 17 is a flowchart for controlling the operation of a film scanner according to a third embodiment of the invention.
FIG. 18 is a flowchart for controlling the operation of the film scanner according to the third embodiment of the present invention.
FIG. 19 is an explanatory diagram showing an emission spectrum intensity distribution of a visible light emitting unit of a lamp unit according to a third embodiment of the present invention.
FIG. 20 is an explanatory diagram showing an emission spectrum intensity distribution of an infrared light emitting unit of a lamp unit according to a third embodiment of the present invention.
FIG. 21 is a configuration diagram showing a configuration of a main part of a film scanner according to a conventional example.
FIG. 22 is a perspective view illustrating a main part of a film scanner according to a conventional example.
FIG. 23 is a block diagram showing a circuit configuration of a film scanner according to a conventional example.
[Explanation of symbols]
3, 33 lamp
6, 36, 66 Line sensor
10 Filter
12, 41, 72 Control circuit
40 Physical properties
63 Lamp unit

Claims (3)

A light emitting unit having a first light emitting unit for irradiating visible light to a transparent document and a second light emitting unit for irradiating invisible light to the transparent document ;
Image reading means commonly used in the reading of the image of the transparent document using the invisible light irradiated from the reading and the light emitting means of the image of the transparent original with the visible light emitted from said light emitting means When,
Control means for controlling the light emitting means and the image reading means,
Fine scanning for acquiring image information of the transparent original by the image reading means using the visible light when the image reading means reads the image of the transparent original, and determining scanning conditions in the fine scan For obtaining rough image information of the transparent document by the image reading unit using the visible light and for acquiring image information of the transparent document by the image reading unit using the invisible light. The first operation mode for performing invisible light scan and the second operation mode for performing rough scan and fine scan using the visible light without performing the invisible light scan can be selected .
The control means controls turning on / off of the first light emitting part and the second light emitting part of the light emitting means,
2. The image reading apparatus according to claim 1, wherein the transparent document is a developed photographic film, and the invisible light is infrared light . A light emitting step of irradiating the transparent document with light by a light emitting means having a first light emitting unit that emits visible light and a second light emitting unit that emits invisible light;
Image reading means commonly used in the reading of the image of the transparent document using the invisible light irradiated from the reading and the light emitting means of the image of the transparent original with the visible light emitted from said light emitting means A reading step of reading an image of the transparent document by :
A control step for controlling the light emitting means and the image reading means,
In the reading step, when the image of the transparent document is read in the reading step, fine scanning for acquiring image information of the transparent document by the image reading unit using the visible light, scanning conditions in the fine scan To determine the image information of the transparent original by the image reading means using the invisible light and the rough scan for acquiring the rough image information of the transparent original by the image reading means using the visible light. Select one of a first operation mode for performing invisible light scanning for acquisition and a second operation mode for performing rough scanning and fine scanning using the visible light without performing the invisible light scanning. a selection step, controlling the first light emitting portion and a point lamp / consumption lamp of the second light emitting portion of said light emitting means And a light control step,
An image reading method, wherein the transparent document is a developed photographic film, and the invisible light is infrared light . A computer-readable storage medium storing a program for executing an image reading method for reading an image,
The program includes a light emitting module for irradiating light to the transparent original by the light emitting means having a second light emitting unit for emitting a first light emitting portion and the invisible light to emit the visible light, the visible emitted from the light emitting means reading to read an image of the transparent original by the image reading means commonly used in the reading of the image of the transparent document using the invisible light irradiated from the reading and the light emitting means of the image of the transparent original with light A control module that controls the light emitting unit and the image reading unit, and the control module uses the visible light when the reading module reads the image of the transparent document. To determine the fine scan for acquiring the image information of the transparent document and the scan condition in the fine scan In order to acquire rough image information of the transparent document by the image reading unit using the visible light and to acquire image information of the transparent document by the image reading unit using the invisible light. A selection module for selecting one of a first operation mode for performing invisible light scanning and a second operation mode for performing rough scanning and fine scanning using the visible light without performing the invisible light scanning ; A light emission control module for controlling turning on / off of the first light emitting unit and the second light emitting unit of the light emitting means,
The transparent medium is a developed photographic film, and the invisible light is infrared light .

Images