JP3570523B2 - Film image input method - Google Patents

Description

[0001]
[Industrial applications]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for inputting a film image, and more particularly to a method for reading a frame image of a developed photographic film with a line sensor and processing an image signal based on the captured frame image to prevent fading and capstan deformation of the film. The present invention relates to a film image input method.
[0002]
[Prior art]
While conveying a long developed photo film, the photo film is irradiated with illumination light from a light source, and a transmission image of the irradiated photo film frame is captured by a line sensor such as a CCD, and the transmission image is converted into an image signal. A film image input method for converting the image into a monitor image and outputting the frame image to a monitor TV is known in Japanese Patent Application Laid-Open Nos. Hei 2-276362, Hei 4-31940 and Hei 4-4456. is there.
[0003]
In addition, in the conventional film image input method, an infrared cut filter is arranged between a light source and a photographic film, and a heat image in an infrared region of illumination light is cut off, and a frame image of the photographic film is faded by the illumination light. Some are preventing
[0004]
[Problems to be solved by the invention]
However, according to the conventional film image input method, when the transmission of one frame of the transmitted image by the line sensor is completed, the photographic film is temporarily stopped at that position until the start of the transmission of the next frame, so that the photographic film is not allowed to remain in this state for a long time. If the operation is not performed, the rear end portion of the frame that has been captured will be exposed to the illumination light for a long time, and the image in that portion will be discolored by light rays in the visible light region outside the infrared region. .
[0005]
Further, the conventional film image input device has a mechanism for transporting the film by sandwiching the film between a pinch roller and a capstan, and the film driving roller is usually formed of a material such as rubber. Therefore, there is a problem that the roller is deformed when the pressure contact state between the capstan and the pinch roller is continued for a long time.
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to prevent discoloration of a film and to prevent deformation of a film driving roller when no operation is performed for a long time after the completion of capturing a transmitted image. It is an object of the present invention to provide a film image input method capable of performing the following.
[0006]
[Means for solving the problem]
In order to achieve the above object, the present invention conveys a long developed photographic film, reads a transmitted image of each frame through a line sensor while irradiating the photographic film with illumination light from a light source, Wherein the width of the illumination light applied from the light source to the photographic film is limited to a width between frames of the photographic film by a slit, and the line sensor After the image reading of one frame is completed, the photographic film is conveyed and stopped so that the illumination light irradiates only the area between the frames of the photographic film. The light source is dimmed when a predetermined operation is not performed within a first time after the stoppage of the film transport.
[0007]
The present invention also conveys a long developed photographic film, reads a transmission image of each frame through a line sensor while irradiating the photographic film with illumination light from a light source, and outputs an image signal from the line sensor. A perforation sensor detects perforations formed in correspondence with each frame of the photo film, and starts frame detection and image reading of one frame. The width of the illumination light emitted from the light source to the photographic film is limited to a width between the frames of the photographic film by a slit, and after the image reading of one frame by the line sensor is completed, the illuminating light is The photographic film is transported and stopped so that only the area between the frames of the photographic film is irradiated. If the predetermined operation is not performed within a first time after the transport of the film is stopped, the light source is dimmed, and the predetermined operation is performed within a predetermined time after the elapse of the first time. If not, the photo film is moved so that the perforation sensor is located near the center of a frame, and then, the crimp between the capstan and the pinch roller for nipping and transporting the photo film is released. And Further, at this time, before releasing the pressure contact between the capstan and the pinch roller, the photographic film is pressed by a magnetic head for recording and reproducing magnetic information on a magnetic recording layer formed on the photographic film.
[0008]
Further, according to the present invention, in order to achieve the above object, when a predetermined operation is not performed within a certain time after the stop of the transport of the film, the image reading position by the line sensor is set to a reader on the leading end side of the photographic film. The photographic film is transported and stopped so as to be in the area after the last frame on the side of the copy or the rear end..
[0009]
[Action]
According to the present invention, the width of the illuminating light applied to the developed photographic film is limited by the slit within the width between the frames of the photographic film. When the transmission of one frame of the transmitted image by the line sensor is completed, the photographic film is conveyed to a position where the illumination light from the light source irradiates only the area between the frames of the photographic film and stops. Thus, even if the light source is kept turned on at the end of capturing the transmitted image, the illumination light is emitted only to the area between the frames without being applied to the frames, so that the fading of the frame image due to the illumination light is prevented. Can be prevented. Thereafter, when the predetermined operation is not performed within the first time, the light source is dimmed. Thereby, the influence of the illumination light can be further reduced, and discoloration can be prevented. Instead of dimming the light source, the light source may be turned off, or the light source may be turned off after a certain period of time after the dimming. Note that dimming has the advantage that the light amount stabilization time of the light source during re-operation is shorter than turning off the light.
[0010]
Further, according to the present invention, if the predetermined operation is not performed even after the lapse of the first time after the conveyance of the photographic film is stopped, the light source is dimmed, and then the light is further reduced within a predetermined time. When the predetermined operation is not performed, the photo film is moved so that the perforation sensor is located near the center of the frame, and thereafter, the crimp between the capstan that pinches and transports the photo film and the pinch roller is released. . The photo film becomes free when the capstan and the pinch roller are released from contact with each other, but even if the photo film is moved, the perforation sensor is located near the center of the frame, so the perforation becomes the frame image reading start position. Can not be miscounted. Further, before releasing the pressure contact between the capstan and the pinch roller, the photographic film is pressed with a magnetic head for recording and reproducing magnetic information on the magnetic recording layer formed on the photographic film, so that miscounting can be more reliably prevented. Become. This ensures a proper perforation count during re-operation. The light source may be turned off instead of dimming the light source.
[0011]
According to another aspect of the present invention, if the predetermined operation is not performed even after the lapse of the first time after the conveyance of the photographic film is stopped, the illumination light causes the leader portion on the leading end side of the photographic film to be moved. The photographic film is rewound and retracted so as to irradiate, or the photographic film is sent out and retracted so that the illumination light irradiates an area after the last frame on the rear end side of the photographic film. Note that the direction in which the evacuation is performed may be determined in advance, or a direction closer to the stop position may be determined. As a result, the frame portion of the photographic film is retracted from the illumination light, so that fading can be avoided. In particular, this is effective when there is no unexposed area between frames, or when it is extremely narrow, according to the photographic film standard.
[0013]
Further, the present invention uses a photographic film fed from a film cartridge having a single spool or rewound into the film cartridge, and once the photographic film is pulled out of the cartridge according to the length of time during which no operation is performed. By rewinding and storing the cartridge in the cartridge, and the degree of waiting is strictly increased in stages, it is possible to enhance prevention of fading of the photographic film and prevention of deformation of the roller.
[0014]
【Example】
Hereinafter, preferred embodiments of a film image input method according to the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a structural diagram showing an embodiment of a film image input device to which a film image input method according to the present invention is applied. As shown in FIG. 1, the film image input apparatus 10 mainly includes a fluorescent tube 12 for illumination, a photographing lens 14, a CCD circuit unit 18 including a CCD line sensor 16, a film driving mechanism 20, a CPU 22, and the like.
[0015]
As shown in FIG. 2, the developed photographic film F used in the film image input device 10 has perforations 101 and 103 indicating the position of each frame, and a magnetic recording layer on the entire surface or the edge of the photographic film. 104 is formed and wound around a film cartridge 110 having a single spool 112. In the magnetic recording layer 104, magnetic data indicating photographing data and the like can be recorded for each frame by a camera having a magnetic head. The developed photographic film F is wound around a film cartridge 110 so that it can be stored.
[0016]
The fluorescent tube 12 is disposed so that its longitudinal direction is orthogonal to the transport direction of the photographic film F, and can illuminate the entire width of the photographic film F. The fluorescent tube 12 is disposed above a slit (photographing window) 28A formed in the guide member 28 in a direction orthogonal to the transport direction of the photofilm F, and a frame P () of the photofilm F passing through the phototaking window 28A. The image of FIG. 2) is illuminated via the infrared cut filter 34.
[0017]
The width T of the photographing window 28A is formed narrower than the interval t between the frames P of the photographic film F shown in FIG. 2, and the illumination light from the fluorescent tube 12 irradiates a range narrower than the interval t. It is supposed to be.
The fluorescent tube 12 is connected to the CPU 22 via the light source inverter 35, and receives a signal from the CPU 22 to control the normal light emission / dimming / extinguishing.
[0018]
On the other hand, the image light transmitted through the frame P forms an image on the light receiving surface of the CCD line sensor 16 from the imaging window 37A formed in the lower guide member 37 via the single focus imaging lens 14. While the CCD line sensor 16 captures the transmitted image of the frame P, the photographic film F is transported at a constant speed in the direction of arrow A by the film driving mechanism 20, and the driving of this photographic film will be described later.
[0019]
The CCD line sensor 16 is disposed in a direction orthogonal to the film feeding direction. The image light formed on the light receiving surface of the CCD line sensor 16 is charged for a predetermined time by each of the sensors having R, G, and B filters, and R, G, and B signal charges corresponding to the light intensity are stored. Is converted to The signal charges thus accumulated are read out to the shift register by a read gate pulse of a predetermined cycle applied from the CCD drive circuit, and are sequentially read out by a register transfer pulse.
[0020]
The signal charges read from the CCD line sensor 16 are clamped by the CDS clamp and applied to the analog processing circuit 38 as R, G, B signals, where the gains of the R, G, B signals are controlled. . The R, G, and B signals output from the analog processing circuit 38 are converted into digital signals by an A / D converter 39, and then transmitted via a memory controller 40 to a frame memory 42 or a RAM (random access memory) of the CPU 22. ) 44.
[0021]
The information of one frame of each frame P stored in the frame memory 42 is read out by the memory controller 40, converted into an analog signal by the D / A converter 46, and converted into a video signal by the encoder 48. The data is output to the monitor TV 50.
The film drive mechanism 20 is engaged with the spool 112 of the film cartridge 110, and drives a forward / reverse rotation of the spool 112, and a film for winding the photographic film F sent out from the film supply unit. It comprises a winding section 84, a capstan 52 and a pinch roller 54 arranged in the film transport path. The film drive mechanism 20 is controlled by a drive signal output from the CPU 22, and transports the photographic film F at a predetermined speed while sandwiching the photographic film F between the capstan 52 and the pinch roller 54.
[0022]
The capstan crimping mechanism 56 receives the control signal from the CPU 22 and drives the capstan 52 to crimp / retract.
Further, a pair of photodetectors 62 and 64 are arranged in a photographing window 37 </ b> A formed in the guide member 37, and are mounted symmetrically with respect to the photographing optical axis 65. The photodetectors 62 and 64 are arranged between a perforation 101 formed at the end of the frame P of the photographic film F shown in FIG. 2 and a perforation 103 formed at the beginning of the frame P located behind the frame P. The perforations 101 and 103 are arranged at an interval B equal to b, and the perforations 101 and 103 can be detected in a non-contact manner, and the detected signals can be output to the CPU 22 via the waveform shaping circuit 70.
[0023]
The CPU 22 controls the timing of reading image information by the CCD line sensor 16 based on the detection signal.
The photodetector 72 is disposed opposite to the magnetic head 74 at a position separated from the photodetector 64 by the distance C, detects the perforations 101 and 103 in a non-contact manner, and outputs the detected signal via the waveform shaping circuit 70. To the CPU 22. The distance C is half the distance between the perforations at the beginning and end of one frame of the photographic film (see FIG. 2). The CPU 22 controls the timing of recording and reproducing magnetic data by the magnetic head 74 based on the perforation detection signal.
[0024]
The magnetic head 74 reads magnetic data recorded on the magnetic track 104 of the photographic film F via a magnetic recording / reproducing device (not shown), and transfers magnetic information recorded on the RAM 44 of the CPU 22 to the magnetic track 104 of the photographic film F. Record.
The magnetic head pressing mechanism 76 is connected to the CPU 22, and receives the driving signal from the CPU 22 and drives the magnetic head 74 to press / retreat with respect to the photographic film F.
[0025]
The CPU 22 includes a timer TM1, a timer TM2, and a RAM 44, appropriately processes an image signal from the CCD circuit unit 18, and outputs a signal for controlling the light source inverter 35, the capstan pressure bonding mechanism 56, and the like. A key operation panel 80 and a liquid crystal display panel 82 are connected to the CPU 22, and various inputs can be made from the outside via the key operation panel 80 and the liquid crystal display panel 82.
[0026]
The timers TM1 and TM2 are cleared when a predetermined operation is performed on the system of the film image input device 10 using the key operation panel 80. The set time (timeout time) of the timer is timer TM2> timer TM1, and for example, the set time of timer TM1 is 5 minutes, and the set time of timer TM2 is 60 minutes. The predetermined operation is, for example, a manual one-frame reproduction command, a frame-feeding operation command, a command for inputting / editing various kinds of reproduction information such as frame vertical / horizontal information and trimming, or an operation command such as a print order. .
[0027]
Next, a control method by the CPU 22 of the film image input device 10 will be described.
When the film cartridge 110 is mounted on the film image input device 10 of FIG. 1, the photographic film F stored in the film cartridge 110 is sent out of the cartridge 110 by the driving force of a motor (not shown). After that, it is sandwiched between the capstan 52 and the pinch roller 54, conveyed between the upper and lower guide members 28 and 37, and passed between the fluorescent tube 12 and the photographing lens 14. The take-up spool 85 is engaged.
[0028]
Subsequently, the fluorescent tube 12 is turned on and waits for the amount of illumination light to stabilize. After the amount of illumination light is stabilized, the film drive mechanism 20 is driven to convey the photographic film F from the film cartridge 110 in the direction of the arrow A, and capture of the first frame of the photographic film F is started. That is, the CCD line sensor 16 is driven just before the start end of the first frame passes on the photographing optical axis 65, and the transmitted image of the frame P passing on the photographing optical axis 65 is captured by the CCD line sensor 16, and First, the CCD line sensor 16 is stopped immediately after the end of the first frame passes on the photographing optical axis 65.
[0029]
When the transmission of the first frame is completed, the photographic film F is continuously transported by the film drive mechanism 20. Then, when a signal detecting the perforations 101 and 103 of the photo film F is output from the photo detectors 62 and 64, the film drive mechanism 20 is stopped, and the conveyance of the photo film F is temporarily stopped.
Thus, in the present embodiment, when the photographic film F is stopped, the illumination light from the fluorescent tube 12 is applied to a substantially intermediate position between the frames P, and the frames P and P Since the light is shielded by the imaging window 28A, the frames P and P are not irradiated with the illumination light from the fluorescent tube 12.
[0030]
The same operation is repeated for the second and subsequent frames P, and the transmitted images of all the frames P can be captured.
Therefore, according to the present embodiment, even if the fluorescent tube 12 is continuously turned on at the end of capturing the transmitted image of one frame P, the fading of the frame image due to the illumination light can be prevented.
Here, a case will be described in which the operation of the system is interrupted after the image capturing of one frame is completed for a certain frame, the photograph film F is stopped.
[0031]
If an operation by a predetermined key input is not performed even after the set time of the timer TM1 (for example, 5 minutes) has elapsed, the timer TM1 times out and the following procedure is executed.
[1] First, the fluorescent tube 12 is dimmed. As a result, the amount of light applied to the photographic film F can be reduced, and the fading of the photographic film F can be suppressed.
[0032]
[2] Next, the photo film F is slowly fed until the photo detector 72 detects the perforation 103. When the photo detector 72 detects the perforation 103, the photo film F is stopped. In this stopped state, the photo detectors 62 and 64 come near the center of the frame.
[3] Subsequently, the magnetic head 74 is pressed against the photo film F via the magnetic head pressing mechanism 76,
[4] The capstan 52 is retracted from the photo film F via the capstan pressure bonding mechanism 56.
[0033]
Normally, when the cap film 52 is released from the pressure contact and retracted from the photo film F, the holding state of the photo film F is released and the photo film F becomes free, and the photo film F is arbitrarily several mm by the back tension of the cartridge 110 and the take-up reel 85. The perforations 101 and 103 may be miscounted when re-operating. The above procedure assumes the movement of the photo film F, moves the photo film F to a position which does not affect the perforation count, and prevents the movement of the photo film F by pressing the magnetic head 74 against the photo film F. is there.
[0034]
In this state, if a re-operation is performed by key input, the following procedure is executed. That is,
[5] The fluorescent tube 12 is turned on for normal light emission.
[6] The capstan 52 is crimped to the photo film F via the capstan crimping mechanism 56.
[0035]
[7] The magnetic head 74 is retracted from the photo film F.
[8] Wait for the light quantity of the fluorescent tube 12 to stabilize, and after the light quantity has stabilized, shift to normal operation. Since the fluorescent tube 12 has not been completely turned off, the time required for stabilizing the light amount is reduced.
On the other hand, if the predetermined operation by the key input is not performed even after the set time (for example, 60 minutes) of the timer TM2 has elapsed in the state of [4], the timer TM2 times out, and the degree of standby is further reduced. The following procedure is executed for strictness, and the mode shifts to the standby mode. Before shifting to the standby mode described below, a step of confirming whether or not the shift can be performed by the user may be passed.
[0036]
[9] Turn off the fluorescent tube 12 completely. As a result, the light illuminating the vicinity of the center of the frame of the photographic film F disappears, and the fading of the photographic film F can be prevented.
[10] Thereafter, in order to store the photo film F in the cartridge 110, the capstan 52 is crimped to the photo film F via the capstan crimping mechanism 56.
[0037]
[11] Further, the magnetic head 74 that has prevented the movement of the photo film F is retracted from the photo film F.
[12] The photographic film F is rewound and stored in the cartridge 110, and after the storage is completed, the capstan 52 is retracted. If the magnetic data has been changed, the magnetic data is written when the photographic film F is rewound.
[0038]
When a re-operation is performed by key input in the standby mode state, a sequence exactly the same as when the film is loaded ([13] to [17] below) is executed, and then the specified operation is performed.
That is,
[13] The fluorescent tube 12 is turned on for normal light emission.
[0039]
[14] Loading a film.
[15] The capstan 52 is crimped to the photo film F via the capstan crimping mechanism 56.
[16] Wait for the light quantity of the fluorescent tube 12 to stabilize,
[17] After the amount of light is stabilized, an index image indicating images of all frames is read with low accuracy, and a pre-scan is performed to detect shooting conditions of each frame.
[0040]
[18] Then, the designated operation is executed.
By the way, in the standby mode state [12], when there is no further operation by key input and an eject is commanded, the magnetic data information has already been rewritten, and the normal magnetic data write sequence accompanying the eject command has been completed. Is omitted, and the ejection is performed as it is.
[0041]
Without being limited to the above-described embodiment, it is conceivable that the photo film F is retracted to a portion other than the frame portion (frame portion) when no operation is performed for a predetermined time. For example, it may be determined to retreat to either the leader portion on the leading end side of the photo film F or to an area behind the last frame, or it may be determined whether the retreat from the current film position is closer. Evacuate to either of the twoEvenGood.
[0042]
Further, in the present embodiment, the stop position of the photo film is detected by the photo detectors 62, 64, and 72, but the present invention is not limited to this, and the photo film may be detected by other detection means.
As methods for preventing discoloration of the photographic film and preventing deformation of the roller, other methods which are considered to be effective will be described below.
[0043]
A mechanical shutter or a liquid crystal shutter (not shown) is provided between the fluorescent tube 12 of the light source and the photo film F, and the shutter is opened only when an image of the photo film F is taken, and the shutter is closed otherwise. Do not emit light from the light source. Thereby, it is possible to avoid fading of the photographic film.
In addition, after the frame image is read, the photographic film F is not completely stopped, so that the illumination position of the light source is not concentrated on one place. It is also conceivable to keep moving slowly. According to this method, the photographic film F continues to be irradiated with the light source light, so that the photographic film fades, but the density fades uniformly over the entire frame, so that the fading cannot be visually recognized. Therefore, the influence on the frame image is small as compared with the case where one portion concentrates and fades while the photographic film F is stopped.
[0044]
Further, since the capstan 52 and the pinch roller 54 continue to rotate, local deformation of the roller can be prevented. Note that the above method is particularly effective when there is no unexposed area between frames, or when it is extremely narrow, according to the specifications of the photographic film F.
Similarly to the above, a method of irradiating the entire surface of the photographic film F with light source light without completely stopping the photographic film F after reading the frame image can be considered. If the entire photographic film F is uniformly faded, not only the effect of the fading cannot be visually recognized, but also the degree of fading for each frame becomes uniform. In this method, a slit for limiting the width of the light source irradiated on the photographic film is not always necessary.
[0045]
In addition, a configuration is also conceivable in which the cumulative exposure time of each frame is recorded on the magnetic recording layer 104 so that the photographic film does not stop or stagnate during standby on a frame having a long cumulative exposure time.
[0046]
【The invention's effect】
As described above, according to the film image input method according to the present invention, the width of the illumination light applied to the developed photographic film is limited to the width between the frames of the photographic film by slits, After the sensor captures one frame of the transmitted image, the illumination light is conveyed to a position where only the area between the frames of the photographic film is irradiated, and then stopped. Fading can be prevented.
[0047]
If the predetermined operation is not performed within the first time after the photographic film is stopped, the light source is dimmed or turned off. Thereby, after the transmission image capturing is completed, the illumination light is irradiated to only the region between the frames without being irradiated to the frames, and the thermal effect can be further reduced by dimming or extinguishing the light source, Fading of the frame image due to the illumination light can be prevented. By turning off the light after a certain period of time after the dimming, it is possible to strictly prevent the fading step by step.
[0048]
Further, if the predetermined operation is not performed after the lapse of the first time after the conveyance of the photographic film is stopped, the light source is dimmed or turned off, and then the predetermined operation is further performed within a predetermined time. If the photo film is not applied, the photo film is moved so that the perforation sensor is located near the center of the frame, and then, the crimp between the capstan for pinching and transporting the photo film and the pinch roller is released. During operation, while ensuring proper perforation count, it is possible to strictly prevent film fading in a step-by-step manner and to prevent the capstan and pinch roller from being pressed for a long time, so that the film drive It is possible to prevent the use roller from being deformed.
[0049]
Further, if the predetermined operation is not performed even after the lapse of the first time after the conveyance of the photographic film is stopped, the illumination light is emitted from the leader portion on the front end side of the photographic film or from the last frame on the rear end side. Since the photo film is sent out and retracted so as to illuminate the area, the top of the photo film can be prevented from fading due to illumination light..
[0050]
Furthermore, the photographic film being pulled out from the cartridge is further rewound once and stored in the cartridge according to the degree of time during which the operation is not performed, and the degree of standby is strictly set. It is also possible to enhance the prevention of fading and the prevention of roller deformation.
By combining the above-described configurations, the degree of standby can be increased stepwise according to the length of time during which no operation is performed. Further, when the light source is dimmed or turned off, there is another effect that the life of the light source tube of the device is extended. In addition, it is possible to prevent the image quality from being degraded due to the fluctuation of the light amount when the operation from the acquisition of the reading conditions of the line sensor (pre-scan) to the acquisition of one frame of high-accuracy image (main scan) becomes longer without any operation for a fixed time. There is also an effect that can be done.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a film image input apparatus to which a film image input method according to the present invention is applied.
FIG. 2 is a plan view of a photographic film applied to the film image input device of FIG.
[Explanation of symbols]
10. Film image input device
12. Fluorescent tube
16 ... CCD line sensor
20 ... Film drive mechanism
22 ... CPU
28A, 37A ... shooting window
50 ... Monitor TV
52 ... Capstan
54 ... Pinch roller
62, 64, 72 ... Photodetector
74 ... magnetic head
101, 103 ... perforation
TM1, TM2 ... Timer

Claims (13)

A film image in which a long developed photographic film is conveyed, a transmitted image of each frame is read through a line sensor while illuminating light is radiated from the light source to the photographic film, and an image signal is output from the line sensor. In the input method,
Limiting the width of the illumination light illuminating the photo film from the light source to within the width between frames of the photo film by slits,
After the image of one frame is read by the line sensor, the photographic film is transported and stopped so that the illumination light irradiates only the area between the frames of the photographic film. input method. 2. The film image input method according to claim 1, wherein the light source is dimmed when a predetermined operation is not performed within a first time after the conveyance of the film is stopped. A film image in which a long developed photographic film is conveyed, a transmitted image of each frame is read through a line sensor while illuminating light is radiated from the light source to the photographic film, and an image signal is output from the line sensor. An input method, wherein a perforation perforated corresponding to each frame of the photo film is detected by a perforation sensor to start frame detection and image reading of one frame.
Limiting the width of the illumination light illuminating the photo film from the light source to within the width between frames of the photo film by slits,
After the image reading of one frame by the line sensor is completed, the photographic film is transported and stopped so that the illumination light irradiates only the area between the frames of the photographic film,
If the predetermined operation is not performed within a first time after the transport of the film is stopped, the light source is dimmed,
If the predetermined operation is not performed within a predetermined time after the first time has elapsed, the photographic film is moved so that the perforation sensor comes near the center of a frame,
Then, the pressure contact between the capstan for pinching and transporting the photographic film and the pinch roller is released. The photographic film is sent out from a film cartridge having a single spool or rewound into the film cartridge, and a predetermined operation is not performed within a predetermined time after releasing the pressure contact between the capstan and the pinch roller. In this case, the capstan and the pinch roller are pressed and the photo film is temporarily stored in the cartridge,
4. The method according to claim 3, wherein the pressing of the capstan and the pinch roller is released again. 3. The film image input method according to claim 2, wherein the light source is turned off when a predetermined operation is not performed within a second time after the elapse of the first time. A film image in which a long developed photographic film is conveyed, a transmitted image of each frame is read through a line sensor while illuminating light is radiated from the light source to the photographic film, and an image signal is output from the line sensor. An input method, wherein a perforation perforated corresponding to each frame of the photo film is detected by a perforation sensor to start frame detection and image reading of one frame.
After the lapse of the second time, if the predetermined operation is not performed within a certain time, the photographic film is moved so that the perforation sensor comes near the center of a frame,
6. The method according to claim 5, wherein the pressing of the pinch roller with the capstan for nipping and transporting the photographic film is released. The photographic film is sent out from a film cartridge having a single spool or rewound into the film cartridge, and a predetermined operation is not performed within a predetermined time after releasing the pressure contact between the capstan and the pinch roller. In this case, the capstan and the pinch roller are pressed and the photo film is temporarily stored in the cartridge,
7. The method according to claim 6, wherein the pressing of the capstan and the pinch roller is released again. If the predetermined operation is not performed within the third time after the lapse of the second time, the image reading position by the line sensor is shifted to a position after the last frame at the leading end of the photographic film or at the trailing end of the photographic film. 5. The method according to claim 4, wherein the photographic film is transported and stopped so as to form an area. 9. The film image input method according to claim 8, wherein the photo film is temporarily stored in the cartridge when a predetermined operation is not performed within a fourth time after the lapse of the third time. A film image in which a long developed photographic film is conveyed, a transmitted image of each frame is read through a line sensor while illuminating light is radiated from the light source to the photographic film, and an image signal is output from the line sensor. In the input method,
Limiting the width of the illumination light illuminating the photo film from the light source to within the width between frames of the photo film by slits,
After the image reading of one frame by the line sensor is completed, the photographic film is transported and stopped so that the illumination light irradiates only the area between the frames of the photographic film,
A method for inputting a film image, wherein the light source is turned off when a predetermined operation is not performed within a predetermined time after the stoppage of the film transport. A film image in which a long developed photographic film is conveyed, a transmitted image of each frame is read through a line sensor while illuminating light is radiated from the light source to the photographic film, and an image signal is output from the line sensor. In the input method,
Limiting the width of the illumination light illuminating the photo film from the light source to within the width between frames of the photo film by slits,
After the image reading of one frame by the line sensor is completed, the photographic film is transported and stopped so that the illumination light irradiates only the area between the frames of the photographic film,
If the predetermined operation is not performed within a certain time after the stop of the transport of the film, the image reading position by the line sensor is set to the area after the last frame on the front end side of the photographic film or the rear end side of the photographic film. A method for inputting a film image, comprising transporting and stopping the photo film. The developed photo film is transported from the film cartridge wound around a single spool, and the transmitted image of each frame is read via a line sensor while illuminating the photo film with light from a light source. In a film image input method for outputting an image signal from the line sensor,
Limiting the width of the illumination light illuminating the photo film from the light source to within the width between frames of the photo film by slits,
After the image reading of one frame by the line sensor is completed, the photographic film is transported and stopped so that the illumination light irradiates only the area between the frames of the photographic film,
A method for inputting a film image, wherein the photographic film is temporarily stored in the cartridge when a predetermined operation is not performed within a predetermined time after the stoppage of the film transport. After moving the photographic film so that the perforation sensor is near the center of a frame, before releasing the pressure contact between the capstan and the pinch roller, magnetic information is written to a magnetic recording layer formed on the photographic film. 7. The method according to claim 6 , wherein the photographic film is pressed by a magnetic head for recording and reproducing.

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