JP6556088B2 - Film scanner device and film scanning method - Google Patents

Description

  The present invention relates to a film scanner device and a film scanning method, and more particularly, to a film scanner device and a film scanning method for digitizing motion picture film of any format.

Conventionally, various film scanners for scanning video films and storing them as digital data have been developed.
For example, Patent Document 1 describes “a film scanner device capable of eliminating a color shift caused by a difference in transmission characteristics of light components of respective colors of an image film” (summary).
Patent Document 2 states that “a scanner that generates a color component signal, and includes an illumination device for illuminating or transmitting an image, a plurality of single-color light sources, and a plurality of scanning elements. In a scanner that converts light obtained from the illuminated or transmitted illumination image into a color component signal, the illumination device is configured such that the plurality of monochromatic light sources illuminate different positions of the film frame. In addition, a scanner (see the summary) is described in which the sensors are arranged to be illuminated by the corresponding light sources.
Further, Patent Document 3 states that ““ It is a system for filing movie film materials, and since it is possible to use technical means possible during display or processing at the subsequent stage, The image information and at least another information supplied on the film are optically scanned, the information is made available as digitized data, the scanned information is not converted to the original information content, and the storage device The data obtained as digital data from the film scanner is stored, and the display device separates the data reproduced by the storage device according to the original position on the original film of the data, and separates the data A film scanner is described which can be used as a data signal (summary).

JP-A-8-204904 JP 11-317958 A Japanese Patent Laid-Open No. 11-168663

In general, there are various standards for the width of movie films, and typical film widths from 70 mm to 8 mm are used (for example, 8 mm, 9.5 mm, 16 mm, 35 mm, 65 mm, 70 mm). etc). There are also various standards for resolution, such as 2K, 4K, and 8K video formats. The number of pixels is, for example, 2048 × 1080 pixels for 2K, 4096 × 2160 pixels for 4K, and 7680 × 4320 pixels for 8K video format.
There are various types of motion picture films as described above, for example, and there is a demand for film scanners having different widths to be digitized at the same resolution. For this purpose, for example, a zoom mechanism may be attached to a lens attached to the image sensor. However, such a zoom mechanism is complicated and expensive.
On the other hand, as a simple method for obtaining high resolution in a sensor for scanning a film, for example, the sensor may be enlarged. However, when the size of the sensor is increased, the sensor and the optical system become complicated and expensive.

  In view of the above, the present invention provides a film scanner device and a film scanning method for scanning a plurality of types of image films such as movie films and storing them as digital data with a simple and inexpensive configuration. Objective.

According to the first solution of the present invention,
A film scanner device,
A line sensor having a predetermined number of pixels and detecting the transmitted or reflected light of the conveyed image film and scanning the image film;
An angle setting unit for outputting the set angle information by manually or automatically setting the line sensor at an angle or rotation with respect to the film running direction on a plane parallel to the film surface, and
A storage unit;
A processing unit;
With
The processor is
By the angle setting unit, the angle information of the line sensor set by turning or rotating the scan range or length to match the film width of the image film is input from the angle setting unit,
Scan the continuously conveyed image film with the line sensor, input the input digital image data digitized detection signal by the line sensor, store the input digital image data in the storage unit,
The output digital image data is formed by referring to the storage unit and executing an inclination correction process for restoring the image inclination based on the input digital image data stored in the storage unit according to the angle information. Storing image data in the storage unit;
A film scanner apparatus is provided.

According to the second solution of the present invention,
A film scanning method in a film scanner device,
The film scanner device includes:
A line sensor having a predetermined number of pixels and detecting the transmitted or reflected light of the conveyed image film and scanning the image film;
An angle setting unit for outputting the set angle information by manually or automatically setting the line sensor at an angle or rotation with respect to the film running direction on a plane parallel to the film surface, and
A storage unit;
A processing unit;
With
The processor is
By the angle setting unit, the angle information of the line sensor set by turning or rotating the scan range or length to match the film width of the image film is input from the angle setting unit,
Scan the continuously conveyed image film with the line sensor, input the input digital image data digitized detection signal by the line sensor, store the input digital image data in the storage unit,
The output digital image data is formed by referring to the storage unit and executing an inclination correction process for restoring the image inclination based on the input digital image data stored in the storage unit according to the angle information. Storing image data in the storage unit;
A film scanning method is provided.

  According to the present invention, it is possible to provide a film scanner device and a film scanning method for scanning a plurality of types of image films such as movie films and storing them as digital data with a simple and inexpensive configuration.

The lineblock diagram of the film scanner of a 1st embodiment. The block diagram of a sensor part. Explanatory drawing (1) about the angle setting of an image film. Explanatory drawing (2) about the angle setting of an image film. The block diagram of the control part of 1st Embodiment. The flowchart about the image process by the process part of a film scanner. Explanatory drawing about inclination correction processing. Explanatory drawing of the format of an output image file. Explanatory drawing (1) about the output digital image data with respect to various image films. Explanatory drawing (2) about the output digital image data with respect to various image films. Explanatory drawing (3) about the output digital image data with respect to various image films. The block diagram of the film scanner of 2nd Embodiment. The block diagram of the control part of 2nd Embodiment.

A. Overview

In the present invention and / or this embodiment, for example, the scan range of a line sensor that scans an image film is set obliquely with respect to the image film, and the sensor width is adjusted to the film width by adjusting the angle without using a zoom lens. With this method, it is not necessary to care about the size of the line sensor, and the optical system can be prevented from becoming complicated. In the present invention and / or this embodiment, for example, when the line sensor is set obliquely, the obtained data is in an oblique angle state, so the scan angle is recorded as metadata (additional data). And correct it based on it to get the correct image.

B. Film scanner (first embodiment)

FIG. 1 shows a configuration diagram of the film scanner of the first embodiment.
The film scanner 100-1 includes a sensor unit 1, a control unit 2, a light source unit 3, a guide unit 4, and a transport unit 5, and scans the image film 200 to acquire digital image data.
The image film 200 includes, for example, an image film such as a photographing film and a projection film, and other image films. Further, as the image film 200, movie films having various film widths and lengths and films other than those for movies can be used. As the image film 200, films having various screen ratios (4: 3, 16: 9 (wide), further wide, etc.) and aspect ratios can be used. Furthermore, as the image film 200, an image film with perforation on one side, an image film with perforation on both sides, or an image film without perforation can be used.

The guide unit 4 is a mechanism for sending the image film 200 between the light source unit 3 and the sensor unit 1 (optical position).
The transport unit 5 is a mechanism that continuously feeds the image film 200 along the guide unit 4. In this drawing, a reel type is shown as an example. However, the present invention is not limited to this, and a drum type or a transport device having an appropriate structure can be used. For example, the image film 200 can be suppressed flat or distortion can be suppressed by the guide portion 4.
The light source unit 3 irradiates the image film 200 conveyed through the guide unit 4 with light. In the figure, the sensor unit 1 is provided on the upper side of the image film 200 and the light source unit 3 is provided on the lower side, but conversely, the sensor unit 1 is provided on the lower side of the image film 200 and the light source unit 3 is provided on the upper side. You may do it.

FIG. 2 shows a configuration diagram of the sensor unit.
The sensor unit 1 includes a line sensor 1a, an angle setting unit 1b, an optical system (not shown), and a signal processing unit (not shown).
The angle setting unit 1b can fix the line sensor 1a at an oblique angle with respect to the film traveling direction on a plane parallel to the film surface or by rotating the line sensor 1a. For example, the angle fixing unit 1b is fixed to the main body of the film scanner 100-1 by a support part 1b-1, and the rotation part 1b-2 including the line sensor 1b is rotated or angled and fixed by the support part 1b-1. Has a mechanism to The angle setting unit 1b may have a configuration in which the angle can be set discretely by a fixing means such as a notch or a fixing screw, or a configuration in which the angle can be continuously variably set. In addition, a configuration in which one end of the line sensor 1a is used as a rotation axis and the other end rotates around the rotation axis may be employed.
The line sensor 1 a detects light transmitted through the image film 200 conveyed through the guide unit 4 by irradiation of the light source unit 3. At that time, the line sensor 1 a scans the image film 200 at a predetermined scanning cycle by the conveyance of the image film 200 by the conveyance unit 5. For example, the line sensor 1a may have a width that can cover a predetermined film width (or a target of scanning in advance) among a plurality of types of image films 200 for scanning. Further, the resolution of the line sensor 1a can be one having a predetermined number of pixels corresponding to a desired predetermined resolution. As an example, when assuming a maximum film width of 70 mm and a resolution of 4K (4096 pixels × 2016 pixels), as the line sensor 1a, for example, a sensor having a scanning range of 70 mm in width and 4096 pixels may be used. it can.

3 and 4 are explanatory diagrams for setting the angle of the image film.
For example, as shown in FIG. 3, when scanning a 70 mm film for movies, the angle sensor 1a may fix and set the line sensor 1a so as to be orthogonal to the film traveling direction.
On the other hand, for example, as shown in FIGS. 4A and 4B, when scanning a 35 mm film, a 16 mm film or the like having a narrower width, the angle setting unit 1b matches the width of the same line sensor 1a with the film width. Rotate and fix / set.

  The detection signal of the line sensor 1a is A / D converted by a signal processing unit inside the sensor unit 1, and the sensor unit 1 outputs digital image data. The signal processing circuit may be appropriately provided outside the sensor unit 1 or inside the control unit 2.

The sensor unit 1 may be configured to detect monochrome or gray digital image data or may be configured to detect color digital image data. The configuration of the sensor unit 1 and the light source unit 3 in the case of detecting color digital image data includes, for example, an optical system such as a color filter, a spectroscopic mirror, a lens, and the like, as described in Patent Document 1 or 2. It is possible to configure using a detector or the like.
In addition, the line sensor 1a has a plurality of types having desired conditions such as a scan range, a length, a width, the number of pixels, black and white / gray or color detection elements, and can be replaced. It is good.
Further, as the optical system of the light source unit 3 and / or the sensor unit 1, for example, object side telecentric, image side telecentric, double side telecentric, or the like may be employed.
In the above example, the sensor unit and the light source unit 3 have been described with respect to the configuration for scanning the transmitted light of the image film 200. However, the configuration is not limited thereto, and the configuration may be such that the reflected light of the image film 200 is scanned.

FIG. 5 shows a configuration diagram of the control unit of the first embodiment.
The control unit 2 includes a processing unit 21, an input unit 22, an interface (I / F) unit 23, and a recording unit 24. The recording unit 24 includes an input image file 24a and an output image file 24b. The control unit 2 is connected to the sensor unit 1, the light source unit 3, the transport unit 5 and the like by the I / F unit 23, and can control each unit. Further, the control unit 2 exchanges data with the sensor unit 1, the input unit 22 and / or the display unit / output unit via the I / F unit 23, and executes processing such as the following image processing. can do.
The processing unit 21 inputs angle information obtained by setting the line sensor 1 a obliquely from the angle setting unit 1 b of the sensor unit 1 through the I / F unit 23. Further, the processing unit 21 inputs input digital image data based on a detection signal scanned from the line sensor 1 a and stores the input digital image data in the input image file 24 a of the storage unit 22. Next, the processing unit 21 performs image processing as described below, and stores the output digital image data in the output image file 24 b of the storage unit 24. The processing unit 21 displays data such as digital image data stored in the input image file 24a and / or the output image file 24b on the display unit via the I / F unit 23 and / or on an external device. Can be output.

FIG. 6 shows a flowchart of image processing by the processing unit of the film scanner.
Below, the detailed procedure of the image process of the process part 21 is demonstrated. Here, as an example, as the line sensor 1a, a 70 mm film having a film width of 70 mm or less, a 35 mm film, a 16 mm film, or the like is to be scanned with the image film 200, and the resolution is 4096 pixels of digital image data. However, the present invention is not limited to this.
As a preparation stage, the user puts the image film 200 on the film scanner 100-1 in which the line sensor 1a having a predetermined scan range (or length) and resolution is set by the transport unit 5, the guide unit 4, and the like. Set (S101). Next, the angle of the line sensor 1a with respect to the image film 200 is set by the angle setting unit 1b of the sensor unit 1 (S103). Here, as an example, the user manually sets the angle. Regarding the fixing and setting of the angle, for example, as described above with reference to FIGS. 3 and 4, the scanning range (or length) of the line sensor 1 a is matched (matched or matched) with the film width of the image film 200 to be scanned. The sensor unit 1a is fixed or set by rotating or angled perpendicularly or obliquely to the film running direction. The sensor unit 1 sends the set angle information to the processing unit 21.
It should be noted that this embodiment can be applied to an image film on one side or an image film on both sides. The detection width of the line sensor 1a may cover an area including perforations on both sides, may cover an area including only one perforation, or may cover an area excluding perforation. It may be.

The processing unit 21 identifies or inputs angle information representing the angle set by the angle setting unit 1b in the sensor unit 1 to the line sensor 1a as metadata or the like, and records it in the storage unit 24 or an appropriate internal memory (S105).
The user instructs the start of scanning with the input unit 22 or the like such as starting execution with an appropriate switch or the like, or the processing unit 21 automatically operates the film scanner 100-1 at an appropriate timing. By starting the scan, the image film 200 is scanned (S107). When the scanning is executed, the processing unit 21 controls the transport unit 5 to continuously transport the image film 200 at a constant speed or a predetermined speed pattern, and digitizes the detection signal scanned by the line sensor 1a. Image data is acquired and stored in the input image file 24a (S109). Note that the processing unit 21 may add image identification information and / or angle information to the input digital image data and store it in the input image file 24a. At this time, the image identification information may be predetermined by the user through the input unit 22 or may be provided by the processing unit 21.
Here, since the width of the line sensor 1a and the film width are combined in step S103, the resolution of the short side (direction of the film width) of the obtained digital image data is determined by the line sensor regardless of the film width. Digital image data is obtained as pixels (for example, 4096 pixels of the line sensor 1a). The number of pixels on the long side (film length / film travel direction) is, for example,
Scanned image film length (m) ÷ image film travel speed (m / sec) x sensor scanning period (Hz)
It becomes.
It should be noted that the user may instruct to stop scanning using the input unit 22 or the like such as instructing to stop execution with an appropriate switch or the like, or the processing unit 21 may automatically stop scanning at an appropriate timing or time. It may be.

Next, the processing unit 21 corrects the inclination of the image of the input digital image data (S111).
FIG. 7 shows an explanatory diagram of the inclination correction process. As shown in FIG. 7 (A), the obtained input digital image data is obtained when the line scanner 1a is set obliquely by the angle setting unit 1b of the sensor unit 1 in step S103. (Tilt image). The processing unit 21 reads the input digital image data from the input image file 24a, and with respect to such an inclination image, as shown in FIG. 7B, angle information recorded in the internal memory or the like as metadata is displayed. An inclination correction process for restoring the original inclination is performed to return to the original state (for example, a rectangle / square state having no inclination), and output digital image data is formed. Note that, for such inclination correction processing, general known or well-known image conversion processing can be used.

  The processing unit 21 stores the output digital image data representing the original image subjected to the tilt correction process in the output image file 24b of the storage unit 1 (S113). Note that the processing unit 21 may appropriately add image identification information and / or angle information and / or additional information to the output digital image data, and store it in the output image file 24b. At this time, the image identification information may be predetermined by the user through the input unit 22 or may be provided by the processing unit 21.

FIG. 8 is an explanatory diagram of the format of the output image file.
In this example, the output image file 24b includes angle information, output digital image data, and additional information for each image identification information. Note that image identification information, angle information, and additional information may be omitted. This format is an example, and an appropriate format can be used.
The additional information includes, for example, information input or designated by the user from the input unit (for example, film number, title, shooting date / time, data storage date / time, other date / time, etc.), processing unit from the acquired input digital image data Appropriate information such as information recognized by 21 may be included. Note that the input digital image data and the output digital image data may include scanned data such as character information written on the image film 200 and edge numbers.

FIG. 9, FIG. 10 and FIG. 11 are explanatory diagrams for output digital image data for various image films.
For image films of various film widths, FIG. 9 shows an example of a 70 mm film, FIG. 10 shows a 35 mm film, and FIG. 11 shows a 16 mm film. As shown in the figure, the output digital image data scanned, corrected and stored for each film width is stored in the same resolution at the resolution of the line sensor 1a (in the above example, 4096 pixels). 24. Further, the processing unit 21 can appropriately read the output digital image data from the output image file 24b and display it on the display unit and / or output it to the output unit.

C. Film scanner (second embodiment)

The configuration for automatically setting the angle adjustment of the sensor unit will be described below.
FIG. 12 shows a configuration diagram of the film scanner of the second embodiment. FIG. 13 shows a configuration diagram of the control unit of the second embodiment.
A film scanner 100-2 according to the second embodiment includes a film width detection unit 6 and an angle adjustment unit 7 in addition to the sensor unit 1, the control unit 2, the light source unit 3, the guide unit 4, and the transport unit 5.
The control unit 2 includes a processing unit 21, an input unit 22, an interface (I / F) unit 23, and a recording unit 24. The storage unit 24 includes an input image file 24a and an output image file 24b, and further includes an angle file 24c that prestores and stores an inclination angle for setting a line sensor with respect to the film width. The control unit 2 is connected to the sensor unit 1, the light source unit 3, the transport unit 5, and the like through the I / F unit 23, and is further connected to the film width detection unit 6 and the angle adjustment unit 7 to control each unit. it can. In addition to the sensor unit 1, the input unit 22 and / or the display unit / output unit, the control unit 2 further exchanges data with the film width detection unit 6 and the angle adjustment unit 7 via the I / F unit 23. Thus, the following processing such as image processing can be executed.
The configuration with the same reference numerals as in the first embodiment is the same as that described in the first embodiment.
In the second embodiment, the processing unit 21 executes image processing in the same manner as the flowchart of the first embodiment shown in FIG. However, in step S103, the angle setting unit 1b sets the angle of the line sensor 1a manually in the first embodiment, whereas in the second embodiment, the processing unit 21 uses the film as described below. The point which is automatically performed by the width detection unit 6 and the angle adjustment unit 7 is mainly different.

The film width detection unit 6 detects the width of the image film 200 and sends film width information to the processing unit 21. The processing unit 21 refers to the angle file 24c, and obtains angle information representing the inclination of the line sensor 1a with respect to the film traveling direction on a plane parallel to the film surface, according to the film width information.
The angle adjusting unit 7 drives and controls the angle setting unit 1b according to the angle information obtained by the processing unit 21, and sets the line sensor 1a obliquely.
Alternatively, the angle file 24c is saved, and the processing unit 21 scans the line sensor 1a based on the film width information detected by the film width detection unit 6 and a predetermined scan range (or length) of the line sensor 1a. Angle information may be set by calculating an angle such that the range (or length) matches or matches the film width.
The film width detecting unit 6 and / or the angle adjusting unit 7 may be integrated with the sensor unit 1, and the angle adjusting unit 7 may follow the information from the film width detecting unit 6 regardless of the processing unit 21. The angle information may be obtained directly. Further, the angle setting unit 1b may be configured so that the set angle can be set discretely by the angle adjusting unit 7, or may be configured to be continuously variable.

D. Effects of the embodiment

According to this embodiment, the following special effects are further achieved.
-According to this embodiment, the scanning range of the line sensor is set obliquely with respect to the image film according to the film width, so that the same resolution and desired resolution can be obtained even for image films of different widths without using a zoom lens. Image data can be obtained. Also, an arbitrary resolution can be obtained by adjusting the number of pixels and / or the angle of the line sensor.
According to the present embodiment, in scanning, the image film can be captured as a continuous long image including a perforation portion, not as an image or a moving image in frame units, and the position of the frame can be specified later. As a result, it is possible to save the trouble of adjusting the frame position and rewinding during scanning.
For example, 4 perforations are widely used for 35 mm film, but there are also 8 perforations, 3 perforations, 2 perforations, and the like. According to this embodiment, it is not necessary to operate the settings of the film scanner by distinguishing them at the time of scanning.・
According to this embodiment, letters, numbers, logos, marks written on the image film, edge numbers written on the edge of the image film, and the like can be scanned and stored.
-According to this embodiment, it can respond to the optical sound track of all systems.

E. Appendix

In addition, each above-mentioned numerical value is an example, It is not restricted to these, Film width screen ratios (4: 3, 16: 9 (wide), further wide etc.), aspect ratio, the number of pixels, resolution, the length of an image film, As the image film conveyance speed, scanning cycle, and the like, appropriate ones can be used.

The film scanning method or film scanner apparatus / system of the present invention includes a film scanner program for causing a computer to execute each procedure, a computer-readable recording medium recording the film scanner program, and an internal memory of the computer including the film scanner program Can be provided by a program product that can be loaded on the computer, a computer such as a server including the program, and the like.

DESCRIPTION OF SYMBOLS 100 Film scanner 200 Image film 1 Sensor part 2 Control part 3 Light source part 4 Guide part 5 Conveyance part 6 Film width detection part 7 Angle adjustment part

Claims (11)

A film scanner device,
A light source unit for irradiating the image film to be conveyed;
A guide section for sending the image film between the light source section and the optical position of the line sensor along one common film traveling direction for a plurality of types of image films,
A transport unit that continuously feeds the image film along the one film running direction of the guide unit at a constant speed or a predetermined speed pattern;
A line sensor having a predetermined number of pixels and having a predetermined scanning range or length for scanning the image film by detecting transmitted light or reflected light of the conveyed image film;
And put in or rotate the angle to the film running direction in a plane parallel to the off Irumu surface to set the line sensor, and the angle setting unit for outputting an angular information set,
A storage unit;
A processing unit;
With
The transport unit and the guide unit are set so that the image film to be scanned is sent along the one film traveling direction common to a plurality of types of image films,
The angle setting unit sets the line sensor obliquely at an angle with respect to the film traveling direction or rotated so that the scanning range or length of the line sensor matches the film width of the image film to be scanned. And
The processor is
By controlling the transport unit, the image film is continuously transported at a constant speed or a predetermined speed pattern along the one film running direction of the guide unit,
Scan the continuously conveyed image film with the line sensor, input the input digital image data digitized detection signal by the line sensor, store the input digital image data in the storage unit,
Referring to the storage unit, the inclination of the image based on the input digital image data stored in the storage unit is based on the angle information set by tilting or rotating the line sensor in the film running direction. The output digital image data is formed by executing an inclination correction process for returning, and the output digital image data is stored in the storage unit.
Film scanner device.
The film scanner device according to claim 1 ,
A film width detector for detecting film width information representing the film width of the image film;
In accordance with angle information representing an inclination for setting the line sensor obtained based on film width information, an angle adjusting unit that drives and controls the angle setting unit to set the line sensor obliquely;
A film scanner device further comprising:
The film scanner device according to claim 2 ,
The film width detection unit detects the film width of the image film, gives film width information to the processing unit,
The processing unit determines angle information for setting the line sensor according to film width information, and sends the angle information to the angle adjustment unit,
The angle adjustment unit sets the angle of the line sensor according to angle information.
A film scanner device.
The film scanner device according to claim 3 .
The storage unit further includes an angle file in which angle information corresponding to the film width is stored in advance,
The processing unit sets angle information with reference to the angle file.
A film scanner device.
The film scanner device according to claim 3 .
The processing unit calculates the angle information based on the film width information and the scan range or length of the line sensor so that the scan range or length of the line sensor matches or matches the film width. A film scanner device.
In the film scanner device according to any one of claims 1 to 5 ,
The line sensor is
Be configured to detect black and white or gray digital image data, or
A configuration for detecting color digital image data;
A film scanner device characterized by the above.
In the film scanner device according to any one of claims 1 to 6 ,
The processing section displays the output digital image data stored in the storage section on a display section and / or outputs it to an external device.
In the film scanner device according to any one of claims 1 to 7 ,
The processing unit stores output digital image data corresponding to image identification information in the storage unit as an output image file.
The film scanner device according to claim 8 .
The output image file further includes additional information input or designated corresponding to the output digital image data and / or additional information recognized from the output digital image data by the processing unit.
The film scanner device according to any one of claims 1 to 9 ,
The angle setting unit fixes the angle of the line sensor so that the scan range or length of the line sensor covers an area including perforations on both sides of the image film or only one perforation, or the image film An angle of the line sensor is fixed so as to cover an area excluding the perforation.
A film scanning method in a film scanner device,
The film scanner device includes:
A light source unit for irradiating the image film to be conveyed;
A guide section for sending the image film between the light source section and the optical position of the line sensor along one common film traveling direction for a plurality of types of image films,
A transport unit that continuously feeds the image film along the one film running direction of the guide unit at a constant speed or a predetermined speed pattern;
A line sensor having a predetermined number of pixels and having a predetermined scanning range or length for scanning the image film by detecting transmitted light or reflected light of the conveyed image film;
And put in or rotate the angle to the film running direction in a plane parallel to the off Irumu surface to set the line sensor, and the angle setting unit for outputting an angular information set,
A storage unit;
A processing unit;
With
The transport unit and the guide unit are set so that the image film to be scanned is sent along the one film traveling direction common to a plurality of types of image films,
The angle setting unit sets the line sensor obliquely at an angle with respect to the film traveling direction or rotated so that the scanning range or length of the line sensor matches the film width of the image film to be scanned. And
The processor is
By controlling the transport unit, the image film is continuously transported at a constant speed or a predetermined speed pattern along the one film running direction of the guide unit,
Scan the continuously conveyed image film with the line sensor, input the input digital image data digitized detection signal by the line sensor, store the input digital image data in the storage unit,
Referring to the storage unit, the inclination of the image based on the input digital image data stored in the storage unit is based on the angle information set by tilting or rotating the line sensor in the film running direction. The output digital image data is formed by executing an inclination correction process for returning, and the output digital image data is stored in the storage unit.
Film scanning method.

Images