JP3409347B2 - Film image playback device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention
An image that captures an image of a frame and guides it to the monitor TV for playback.
The present invention relates to a LUM image reproducing device. 2. Description of the Related Art Conventionally, an image of each frame of a developed film is
Takes an image, converts it to a video signal, and monitors this video signal.
-A film that reproduces the film image by
A film image reproducing apparatus has been proposed (JP-A-59-7).
No. 9236). This film image playback device is used
The trimming area specified by the user on the monitor TV
Zoom in and display this specified trimming
The data of the area and the selected magnification is arranged on the film.
The information is recorded on a magnetic medium. And the lab
Read the data recorded on the film with
By performing trimming processing based on data
Photos that match the user's instructions are now printed
ing. [0003] However, the above-mentioned fill
In the case of a video image reproducing apparatus, the
While recording data on the film,
An instruction to feed the film, such as returning or ejecting, is issued.
The case was not disclosed. In this case,
When the film feed instruction is issued, the data record
When interrupted, only partial data is recorded on the film
Will not be. Therefore, when reading the above data
That we cannot obtain the information we need accurately
There is. [0004] The present invention solves the above-mentioned problem, and the present invention
Film recording to ensure data recording on the film
It is intended to provide a raw device. [0005] In order to achieve the above object,
The present invention reproduces an image of a frame of a developed film.
In the film image reproducing apparatus, the film is fed.
Feeding means, and a feeding instruction for instructing the feeding of the film.
Means and data relating to said film to said film
Data recording means for recording, and data recording on the film
Means for determining whether or not recording is in progress; and
During the period, the film feed indicated by the feed instructing means is performed.
Feed control means for prohibiting feed. According to the film image reproducing apparatus having the above structure, the present
Data about the film is recorded on the imaged film.
It is. Then, while recording data on the film, the film
When the film is ordered to be delivered, the duration of this data record
In the meantime, the above specified film feed is prohibited.
Thus, data recording on the film is performed reliably. FIG. 2 shows a film image reproducing apparatus according to the present invention.
FIG. 2 is an external view showing one embodiment. Film image playback device
1 is connected to the monitor TV2 via the cables K1 and K2.
Image recording from film cartridge KT
Feed out the developed film 4 (see Fig. 4) as a medium
Then, the image of each frame of the film 4 is transferred to the monitor TV2.
To play on screen 3 of monitor TV2,
Released music (background music) from PEAKA5
It is designed to empower. On the front surface 1a of the film image reproducing apparatus 1,
Is provided by the eject table 6, the display unit 7, and the operation unit 8.
FIG. 3 shows the details. Eject
The bull 6 is disposed on the left side of the front surface 1a in the drawing.
So that it can slide with respect to the front surface 1a.
Has been established. And the eject table 6
Insert the film cartridge KT into the film image reproducing device 1.
And loaded into a film loading unit 10 described later.
It has become. The display unit 7 is located at the upper right of the front surface 1a in the figure.
And a display area 7 for displaying various information.
1 to 77. The display area 71 is a film cart.
Displays whether ridge KT is loaded, playback mode, etc.
It is. The display area 72 displays the state of the color adjustment of the image.
Things. The display area 73 displays the film feeding state.
Is what you do. The display area 74 displays the frame number.
It is. The display area 75 displays the selected or set music.
The number is displayed. The display area 76 is the film 4
It displays all the frame numbers of the images taken
You. The display area 77 is reproduced on the screen 3 of the monitor TV2.
The trimming area of the current image is displayed in a frame 771.
It is. The operation unit 8 is located at the upper left of the front surface 1a in the figure.
Power switch 80 and eject switch 8
1 and the power supply lamp 80a, and
And various switches 82 to 97 arranged in two rows.
Has been established. The power switch 80 is turned on each time the switch is pressed (on).
Switching between starting and stopping the film image reproducing apparatus 1
It is. Each time the eject switch 81 is pressed (on),
The eject table 6 is located outside the film image reproducing apparatus 1.
Slide and open the eject table 6
Closes the slide by sliding it into the LUM image reproduction device 1.
It is a replacement. The power lamp 80a is
It is turned on when the raw device 1 is started. A color adjustment switch 82 adjusts the color of a reproduced image.
It is something to do. Then, the film image reproducing device 1
Are R, G, B each time the color adjustment switch 82 is pressed (turned on).
Color adjustment is possible, and zoom down switch.
H and the zoom-up switch 93
The color adjustment of R, G, B can be performed. Professional
The gram switch 83 is a “pre-scan process” described later.
Set and reset the program mode
It is a replacement. The mode switch 84 is pressed (
), The sequential operation mode, manual mode,
Select semi-automatic mode or automatic mode cyclically
It is. Rotation switch 85 is for vertical shooting
This is to rotate the playback image to erect the image.
You. Delete switch 86 deletes images of frames that do not need to be reproduced
It is to let. Clip switch 87 is a part of the piece
Only trimming and playback are performed. The rewind switch 88 fills the film 4
This is to rewind the cartridge into the cartridge KT. Stop sui
The switch 89 stops playback operation, film feeding, etc.
It is. The pause switch 90 is a
Effects such as innings and tilting, and music output
It is to stop. The playback switch 91 performs playback.
I forgot. Fast forward switch 92 is a film cart
Feeding out of film from Ridge KT by fast forward
It is something. The zoom up switch 93 is connected to a monitor TV.
Increase the magnification of the film image displayed on screen 3 of 2.
Things. The zoom down switch 94 is connected to the monitor T
Decrease the magnification of the film image displayed on screen 3 of V2
It is Panning / tilting switch 9
5 is a left and right panning switch 951 and an up and down chill
Of the monitor TV2
Move the film image displayed on surface 3 to the left or right.
(Panning) and move it up and down (tilt
). A selection switch 96 is provided for a semi-automatic mode, which will be described later.
You can set the playback method manually on the
Select whether to set the music manually.
You. The multi-screen switch 97 is a screen of the monitor TV2.
3 is divided into a plurality of small screens.
Display each film image (multi-screen
), Whether one frame of film image is displayed on the screen 3
(Single screen display). Next, FIG.
This will be described with reference to FIG. The film loading unit 10 includes an image reading unit
100, information reading section 101, film feeding section 102,
A film detection switch 103 and a frame position detection unit 104
are doing. The image reading unit 100 includes a light source 100a,
100b, image scaling unit 100c, aspect ratio conversion unit 100d
And an imaging unit 100e. The light source 100a is a fluorescent lamp, xenon
A light source such as a tube or a halogen lamp;
From the film cartridge KT
The light is applied to the film 4. Mirror 100b
Guides the light beam passing through the film 4 to the image scaling unit 100c.
It is a spider. The image scaling unit 100c includes a photographing lens and an aperture.
And the photometric sensor
The aperture is adjusted according to the light to the vertical / horizontal conversion unit 100d.
Adjust the amount and operate the operation
It drives the shadow lens to change the magnification. Aspect converter 1
00d is composed of a prism etc.
Is used to rotate the image
You. The imaging unit 100e is provided by a CCD (solid-state imaging device) or the like.
Area image sensor.
The image guided through the conversion unit 100d is
Integrate with the exposure time according to the detection result, and
Signal). The film 4 has a magnetic strip as a recording medium.
Are arranged along the feeding direction, for example, at the lower edge, and
Or it is arranged in the lead part. This magnetic band contains
The shooting date and time, shooting location, panoramic shooting,
Shooting of each frame such as camera orientation (portrait or landscape) at the time of shooting
The shadow information and the value determined at the time of reproduction by the film image reproducing apparatus 1 are set.
Data such as the playback method
You. It should be noted that the above-mentioned reproduction method means that the reproduction
What kind of effect is applied to the image,
Appearance method for raw images (fade-in, fade-out)
G) and expression methods (tilting, panning, zoom)
)). The information reading unit 101 includes a magnetic head 101a.
The magnetic head 101a makes the film 4
Magnetic band (hereinafter simply referred to as the magnetic band)
The magnetic band of the film 4. Each piece recorded in)
Read data such as shooting information and playback method
In addition, data such as the reproduction method determined at the time of reproduction is stored in the film 4
Is recorded in the magnetic band. Information reading section 10
1 has a memory for storing data such as shooting information and a reproducing method.
It is designed to be stored temporarily. The above file
Write data to and read data from the magnetic band of system 4
Is feeding the film 4 at a predetermined speed in the rewinding direction.
It is performed in the state. Further, data such as the photographing information and the reproducing method are provided.
Instead of magnetic recording on the magnetic band of the film 4,
Optically prints data on the corners of the photosensitive area of film 4
You may do so. In this case, data is read optically
Or means to write data
Good. Further, according to the data content, a corner of the film 4 or the like is provided.
Write data by forming notches
You may. Further, the recording medium is a film cartridge K
Semiconductor memory built in T or IC card etc.
There may be. The film feeding unit 102 includes a driving motor,
It has a pool 102a and the like, and is controlled by a central control unit 22 described later.
The feeding of the film 4 is performed according to the request. What
In addition, the film feeding section 102 is driven by the drive motor
When the film 4 is fed out and filled
To rewind the program 4. Film detection switch
H 103 is a film loading section of the film cartridge KT.
This is to detect the loading into 10. Piece position detector 10
4 is a photointerrupter composed of a light emitting element and a light receiving element
And formed at predetermined positions of each frame of the film 4.
This is to detect perforation. FIG.
As shown in the figure, the frame position detecting unit 104
1 is from the light emitting element P2 through the perforation PF
When receiving the light, the piece KM determines the image pickup area of the image pickup section 100e.
It is arranged so as to coincide with the area (imaging position) SR.
Further, a line image sensor is used as the imaging unit 100e.
When used, as shown in FIG.
1 is from the light emitting element P2 through the perforation PF
When the light is received, for example, how to feed out the film 4
The rear end position (imaging position) is the imaging area S of the imaging unit 100e.
It matches with R1. And in this state
In response to the feeding of the film 4, the image of the frame KM is
(Line image sensor) Scanned by 100e
Thus, the image of the piece KM is accurately captured. Next, the control of the film image reproducing apparatus 1 will be described.
The control system will be described with reference to the block diagram of FIG.
This control system controls the image captured by the imaging unit 100e.
Image processing unit 11 that performs processing on the image, effect control unit
12, image memories 13 and 14, second image processing unit 15,
Character data insertion unit 16 and data input unit 19, display unit
Control unit 17 and display driver 1 for controlling display of display 7
8 and output music as background music
Operation of the music control unit 20 and the amplifier 21 and the operation unit 8
Pulse generators 23 and 24 performing operations in accordance with
A circuit 25, an AND circuit 26, and a buffer circuit 27;
And a central control section 22 for controlling the sections.
You. The first image processing unit 11 includes an imaging unit 10
Processing such as A / D conversion to the image signal (analog signal) from
And outputs the result to the effect control unit 12. Ma
In addition, the first image processing unit 11 is controlled by the central control unit 22.
Compresses the image signal from the imaging unit 100e according to the control signal.
Output to the effect control unit 12. The effect control unit 12 includes a first image processing unit 11
Process image signals (digital signals) from
Stored in the image memory 13 or the image memory 14
Things. The image memory 13 receives the
An image signal for one frame of the film 4 is stored.
The image memory 14 is compressed by the first image processing unit 11.
Image signals of each frame are stored in a multi-screen display array
Things. The production control unit 12 includes a central control unit 22.
Memory 13 or image memory in response to a control signal from
The image signal read from the memory 14 is subjected to the processing described below,
The data is output to the second image processing unit 15. Sand
The effect control unit 12 stores a plurality of types of effects.
Data from the information reading unit 101 and the central control unit 22
Read out from the image memory 13 in response to a control signal from
Panning, tilting, zooming,
Perform various effects such as fade-in and fade-out
Swelling. The second image processing unit 15 includes an image memory 13
Alternatively, the image signal read from the image memory 14 is
For example, convert to NTSC signal and output to video output terminal 150
It is something to empower. In addition, the second image processing unit 15
The character data such as the shooting date from the character data
It is designed to be superimposed on the image signal. Video output end
Child 150 is connected to monitor TV2 via cable K1
Have been. The character data insertion unit 16 is a
Shooting date from shooting information data read from the airspace
The second image processing unit 15 uses data such as time as character data.
Output to The display control unit 17 is a central control unit.
Via the display driver 18 in response to the display signal from
Various displays are performed on the display areas 71 to 77 of the display unit 7.
It is something to make. The data input unit 19 is used for various kinds of information such as a frame number.
Enter data. The music control unit 20 receives a signal from the central control unit 22.
Multiple data recorded on the music recording medium MB in response to the control signal.
A predetermined music is extracted from a number of music, and
Output to the audio output terminal 210 via the
You. The music control unit 20 is controlled by the central control unit 22.
An external device connected to the audio input terminal 200 according to a control signal.
Process the music information from the device (music recording medium) and output the sound
The signal is output to the terminal 210. Also, music system
The control unit 20 is an external device connected to the audio input terminal 200
Music from the music storage medium MB
ing. The music recording medium MB is a film cartridge K
Magnetic tape, semiconducting placed separately from film 4 on T
It consists of body memory or IC card, etc.
It is recorded. Audio output terminal 210
It is connected to the monitor TV2 via the cable K2. What
The music recording medium MB is a film image reproducing device 1
It may be a memory built in. The central control unit 22 has a memory,
Each operation on the operation unit 8 and a program stored in advance
The respective parts of the film image reproducing apparatus 1 are controlled based on the RAM.
Things. The central control unit 22 includes a playback switch
When the frame 91 is turned on,
Based on the detection result of the perforation PF,
The frame KM of the film 4 corresponds to the imaging area (imaging position) of the imaging unit 100e.
Judge whether or not it matches SR, and the piece KM
When it is determined that they match the image area SR, the corresponding piece KM
Is started. Also the center
The control unit 22 includes a plurality of types of preset
The playback method is stored. When the power switch 80 is pressed by the pulse generator 23,
Output a pulse of a predetermined width to the OR circuit 25 every time
Therefore, the pulse generator 24 is pressed by the eject switch 81.
Output a pulse of a predetermined width to the OR circuit 25 every time
It is. The OR circuit 25 includes pulse generators 23 and 24
When a pulse is input from at least one of
This is output to the MFI terminal of the central control unit 22. So
Then, the central control unit 22 outputs a pulse from the OR circuit 25.
Is input, the MFI interrupt routine shown in FIG.
Run. The AND circuit 26 includes the mode switch 8
4. Rewind switch 88, stop switch 89, pause
Switch 90, playback switch 91 and fast forward switch 9
2 is turned on, the low
Outputs the level. The buffer circuit 27
Only when the power switch 80 is on, the AND circuit 2
6 is output to the INTA terminal of the central control unit 22.
Things. Then, the central control unit 22
When a low level is input from the
13 INTA interrupt routine is executed. Next, the operation of the film image reproducing apparatus 1 will be described.
Will be described with reference to the flowcharts of FIGS.
You. The flowchart of FIG.
This shows the initialization when the power is turned on. First, registers and flags of the central control unit 22
Etc. are reset, the power switch 80 is turned on
Is determined (# 1, # 3), and the power switch 80 is turned on.
In this case (YES in # 3), the power supply flag PWF is
It is set to "1"(# 5). On the other hand, the power switch 8
When 0 is off (NO in # 3), power supply flag PWF
Is reset to "0"(# 7). Next, the film cartridge KT is
It is checked whether the film is loaded in the
It is determined based on the detection result of the output switch 103 (♯
9) The film cartridge KT is loaded in the film loading unit 10
If it is loaded in the camera (YES at $ 9),
Detection flag FIF is set to "1"(# 11).
On the other hand, the film cartridge KT is
If it is not set to (NO at $ 9), fill
The system detection flag FIF is reset to “0” (# 1
1). Thereafter, the INTA interrupt is enabled and the
It is in a reap state (# 15). In this state, the power switch
Switch 80 or the eject switch 81 is turned on and
Pulses from at least one of the luz generators 23 and 24
When input to the MFI terminal via the OR circuit 25
The MFI interrupt routine of FIG. 8 is executed. Also,
Mode switch 84, rewind switch 88, stop switch
89, pause switch 90, playback switch 91 and early
When one of the feed switches 92 is turned on, the buffer circuit
A low level is input from terminal 27 to the INTA terminal, and
If the interrupt is enabled, the INTA interrupt shown in FIG.
Only the routine is executed. Subsequently, the MFI interrupt routine shown in FIG.
explain about. First, the film cartridge KT
It is determined whether the film 4 is being rewound (# 2
1) If rewinding is in progress (YES in # 21), this file
Wait until rewind of film 4 is completed (# 23)
Go to # 29. On the other hand, if it is not rewinding at # 21 (♯
21 is NO), and data such as a reproducing method is recorded on the magnetic band of the film 4.
It is determined whether or not data is being written (# 25).
If writing is in progress (YES at $ 25), this data
Wait until the writing is completed (# 27), then go to # 29
I do. At step # 29, the power switch 80 is pressed.
Is determined, and the power switch 80 is pressed
(YES at $ 29), the power flag PWF is set to "1".
It is determined whether or not it is set (# 31). Electric
When the source flag PWF is reset (# 31
NO), the central control unit 22 controls the film image reproducing device 1
It is determined that the power switch 80 has been pressed to start the operation.
Then, after the power flag PWF is set to "1"
(# 33), the “power-on processing” routine to be described later is executed.
(# 35). After this, the INTA interrupt is enabled
(# 37). On the other hand, at # 31, power supply flag PWF is set to "1".
In the case of (31, YES), the central control unit 22
Power supply to stop the operation of the film image reproducing apparatus 1.
It is determined that the switch 80 has been pressed. And the power flag
The PWF is reset (# 39), and the "power off
After the “processing” routine is executed (# 41),
Transition. On the other hand, the power switch 80 is pressed at # 29.
If not (NO in # 29), power supply flag PWF
It is determined whether or not is reset (# 4
3). When the power flag PWF is “1”,
(NO in # 43), the central control unit 22 returns the film image
In order to load the film cartridge KT into the raw device 1,
Alternatively, the film cartridge in the film image reproducing apparatus 1
The eject switch 81 is pressed to remove the cartridge KT.
Judge that it was done. Then, the “eject processing”
After the execution of the “Routine” routine (# 49), it will be described later.
The routine of “film loading process” is executed (# 5
1). On the other hand, at # 43, the power flag PWF is reset.
If it has been detected (YES in # 43),
Whether the output flag FIF is set to "1"
Is discriminated (# 45), and the film detection flag FIF is
In the case of “1” (YES in # 43), the central control unit 22
Indicates that the film image reproducing apparatus 1 is stopped.
In order to remove the LUM cartridge KT,
It is determined that the switch 81 has been pressed. Then, "Power on process
Is executed (# 47), and the eject
Bull 6 slides out of the film image reproducing apparatus 1
It is opened. On the other hand, at # 45, the film detection flag FIF
Is reset (NO at # 45),
Is loaded into the film loading unit 10
Since it has not been processed, the cost is reduced to $ 37 without performing the process of $ 47.
Transition. Next, the "power-on processing" of # 35 and # 47
Using the flowchart of FIG.
explain. First, the power lamp 80a is turned on, and the fill
The drive circuits such as the system feeder 102 are initialized (# 61,
# 63). Next, the eject switch 81 was pressed.
It is determined whether or not (# 65). In # 35, the power switch
When this routine is executed by pressing the switch 80,
Therefore, NO is determined in # 65, and the process proceeds to # 67. In # 67, the film detection flag FIF is set
It is determined whether or not it is set to “1”, and
When the system detection flag FIF is “1” (YE at # 67)
S), “FILM” is displayed in the display area 71 of the display unit 7.
Lights up and appears in the display area 74 at the last playback.
The frame number of the last frame is displayed (# 69, # 71). this
Thereafter, the process returns to the flowchart of FIG. Meanwhile, the above film
If the detection flag FIF has been reset (# 6
7; NO), without performing the processing of $ 69 and $ 71
Returning to the flowchart of FIG. On the other hand, at # 47, the "power-on processing"
When the “Routine” routine is executed, the eject switch
Since the button 81 is pressed, the answer is YES at # 65, and
In order to indicate that the eject operation is in progress at 73, the above table is displayed.
The characters “FILM” blink in the display area 71 (７１
73). Subsequently, the display of the frame number in the display area 74 is turned off.
And the film 4 is wound in the film cartridge KT.
After being returned, the eject table 6
It is opened by sliding to the outside of the raw device 1 (# 75, #
77). Next, the sentence “FILM” in the display area 71 is displayed.
Display is turned off and the film detection flag FIF is reset.
($ 79, $ 81). After this, the “power supply”
A "power-off process" routine is executed (# 83).
Using the flowchart of FIG.
Will be explained. First, it is determined whether or not playback is in progress (# 9
1) If the file is being played (YES at $ 91), the file is currently played
The frame number of the frame being played (last playback frame number) is
22, the imaging by the imaging unit 100e stops.
($ 93, $ 95). Next, the film feeding unit 1
02 is stopped (# 97). Note that the imaging unit 10
When a line image sensor is used as 0e
, The feeding (scanning) operation of the film 4 is stopped. On the other hand, if the reproduction is not being performed in step # 91,
It is determined whether or not the film is being fed (NO at 91).
99), if the paper is being fed (YES at $ 99), $ 97
Then, the driving of the film feeding unit 102 is stopped.
On the other hand, when the film 4 is stopped at # 99 (♯
(No at 99), the process directly proceeds to # 101. In # 101, the film detection flag FIF
Is set to "1"(# 1).
01), when the film detection flag FIF is “1”
(YES in # 101), the film cartridge KT is
Since it is still loaded in the film loading unit 10, the display unit
In the display area 71, the letters "FILM" are displayed.
And the display other than the character of “FILM” is turned off.
($ 103, $ 105). After this, the flow chart of FIG.
Return to On the other hand, the film detection flag FIF is reset.
If set (NO in $ 101), central system
The control unit 22 has a film cartridge KT loaded with a film.
It is determined that it does not remain in the unit 10. And the display unit 7
All displays are turned off (# 107). Next, the routine of # 49 "Eject process"
The chin will be described with reference to the flowchart of FIG.
You. First, the film detection flag FIF is set to “1”.
It is determined whether or not the film detection flag F
When IF is “1” (YES in # 111), during reproduction
Is determined (# 113).
(YES in # 113), the imaging by the imaging unit 100e is stopped.
It is stopped (# 115). Note that the imaging unit 100e is a line
In the case of an image sensor, the film feeding unit is set at $ 117.
The drive of 102 is stopped. On the other hand, if the reproduction is not being performed at # 113,
(NO in # 113), it is determined whether or not the film 4 is being fed.
Is separated (# 119), and in the case of feeding (Y in # 119)
ES), the process proceeds to # 117, and the drive of the film feeding unit 102 is started.
Operation is stopped. On the other hand, if you are not feeding at $ 119
(NO in # 119), the process proceeds to # 121. In step # 121, the display area 71 of the display unit 7
The letters "FILM" blink. Next, the display
The display of the frame number in the display area 74 of No. 7 is turned off, and the film
4 after rewinding into the film cartridge KT
The object table 6 is opened and “F” in the display area 71 is displayed.
The "ILM" character display is turned off, and the film is detected.
The flag FIF is reset (# 123 to # 12
9). As a result, the film cartridge KT is ejected.
Can be taken out of the task table 6. On the other hand, at # 111, the film detection flag FI
If F has been reset (NO in # 111),
The ejection table 6 is opened (# 131). this
Ejects the film cartridge KT
6 can be set. And the film cartridge K
T is set on the eject table 6 and ejects
If switch 81 is pressed (YES at # 133),
The closing table 6 is closed (# 135). After this,
It returns to the flowchart of 8. Next, the routine of the "film loading process" of # 51
The routine will be described with reference to the flowchart of FIG.
You. Here, “FILM” is displayed in the display area 71 of the display unit 7.
Is displayed (# 141), and then the film is loaded.
Of the film cartridge KT loaded in the unit 10
Whether the film 4 is a developed film is determined by, for example,
For developing the film provided in the film cartridge KT.
The presence or absence of a nail or index indicating presence / absence is detected by detection means (not shown).
It is determined by detecting (# 143). Then, the film 4 is a developed film
If there is (YES in # 143), the frame position detection unit 10
4 based on the detection result of perforation.
Film cartridge until the first frame of Lum 4 reaches the imaging position
Unloading (initial loading)
Recorded on the magnetic strip provided at the lead of the film 4
Data, for example, the film 4 will be described later.
Data such as whether "prescan processing" was executed
Are read (# 145, # 147). It will be described later.
When the “pre-scan processing” routine is executed
Indicates that the data indicating the execution is
Stored in the magnetic band of the lead or IC card (not shown)
Is done. The magnetic properties of the lead of the film 4
From the data stored in the band etc., this film 4
If it is determined that the content is to be reproduced (# 14
9 (YES), the route of “pre-scan processing” described later
Is executed (# 151). After this, the float shown in FIG.
Return to the chart. On the other hand, the film 4 has already been reproduced.
If it is the case (NO in # 149), the processing in # 151
Returning to the flowchart of FIG. On the other hand, at # 143, the film 4 is an undeveloped film.
If it is a film (NO at $ 143), this file
B cannot be played, so a buzzer (not shown)
Or a warning is displayed on the display unit 7 indicating that reproduction is impossible.
($ 153). Next, the above-mentioned “eject processing”
Jump to the beginning of the routine (# 155), and then
Returning to the flowchart of FIG. Next, in the "pre-scan processing" of # 151,
For the routine, use the flowcharts of FIGS.
Will be described. First, the INTA interrupt is enabled.
In the display area 71 of the display unit 7, the text "PRESCAN"
Characters are lit, and the film feeder 102
The feeding of the lum 4 is started (# 161 to # 165). Next
In order to perform multi-screen display,
Therefore, the frame is imaged and recorded on the magnetic band of the film 4.
Data such as shooting information is read, and
The image signal of the imaged frame according to the
2 and stored in the image memory 14 (♯
167- $ 173). Note that here, the multi-screen display
Is performed, the image signal of the frame is
For example, by performing compression processing, thinning processing, etc.
We are trying to reduce time. Next, the mode switch 84 is operated.
When the automatic mode is selected in advance, the
If the star MOR is "11"(# 175
YES), the method of reproducing the image at the time of this prescan is automatically
It is determined dynamically (# 177). On the other hand, automatic mode is selected.
Is not selected and the register MOR is other than "11".
In this case (NO at $ 175),
The image of the captured frame is displayed on the monitor TV2.
The multi-screen is displayed on the screen 3, and the data of the read
The frame number is displayed on the multi-screen display image based on the data
(# 179, # 181). Next, all the images recorded on the film 4
It is determined whether the piece is displayed on the multi-screen (# 18
3) If there is a piece that has not been displayed yet (# 18
(NO at 3), returns to $ 165. And all of film 4
$ 165- $ 181 until all pieces are displayed on the multi-screen
Is repeated. On the other hand, all pieces are multi-screen
When indicated (YES in # 183), the film feeding unit 10
2 is stopped, and the display area 7 is stopped.
The character display of “PRESCAN” is turned off (# 1
85, $ 187). Subsequently, the frame number is input from the data input section 19.
If the power is input (YES at $ 189),
Of the images displayed on the screen,
A frame is displayed around the image (# 191). Then
Whether the rotation switch 85 is turned on
Is determined (# 193), and the rotation switch 85
Is ON (YES at $ 193),
The image corresponding to the frame number is rotated and corresponds to this frame number.
The information reading unit 102 is instructed to rotate the image
It is stored (# 195, $ 197). By this, next time
When playing from, the image of the frame is displayed in a rotated state
Is done. Thereafter, the process returns to # 189, and the data input unit 1
From 9 it is determined whether or not a frame number has been input. On the other hand, the rotation switch
If 85 is off (NO at $ 193), deletes
It is determined whether the switch 86 is on (# 1
99), when the delete switch 86 is on (# 1
99), an image corresponding to the input frame number
Is deleted, and the image corresponding to this frame number is deleted.
Are stored in the information reading unit 102 (# 201, $ 20
3). This allows the image of the frame to be
Is not displayed. Thereafter, the process returns to # 189. On the other hand, if the frame number has not been input at # 189
If not (NO in # 189), the “mode processing
Is set to the program mode in the “Routine” routine
It is determined whether or not (# 205). And the program
If the mode is not set to the
O), whether the program switch 83 is turned on or not
Is determined (# 207), and the program switch 83 is turned on.
In the case of (YES in # 207), the display area of the display unit 7
The letters “PROGRAM” flash on and off at 71 (♯
209). Subsequently, it is determined whether or not the frame number has been input.
Separation is performed (# 211), and when a frame number is input (# 211)
(YES at 211), the input of the image of the multi-screen display is performed.
A frame is displayed around the image corresponding to the
(♯213). Next, the “mode processing” described later
The routine is executed (# 215), and the above-mentioned frame number is designated.
The read order is stored in the information reading unit 102 (# 21
7). As a result, during the next playback,
The frame images are reproduced in the order of the frame numbers. Next, the program switch 83 is turned on.
Is determined (# 219), and the program switch
When switch 83 is off (NO in # 219), # 211
And return to $ 2 until the program switch 83 is turned on.
The processing of 11 to # 217 is repeated. And the blog
When ram switch 83 is turned on (YE at # 219)
S), it is memorized that the program mode has been set.
Display of the word "PROGRAM" in the blinking display
Are switched to lighting (# 221, # 223). one
On the other hand, if the program switch 83 is off at $ 207
(NO at $ 207) performs processing from $ 209 to $ 223
No matter if the power switch 80 is turned on at $ 225
If the power switch 80 is off,
(NO in # 225), the "reset processing" routine of FIG.
The operation proceeds to (ン 227). On the other hand, the power switch 80 is turned on at # 225.
In this case (YES in # 225), the reproduction switch 91
It is determined whether or not the switch has been turned on (# 229).
When the switch 91 is on (YES at $ 229),
The film feed unit 102 is driven to
Rewinding into cartridge KT is started, and
The content stored in the information reading unit 102 is the lead of the film 4
Rewinds the film 4 after writing on the magnetic band
Is completed (# 231 to # 23)
5). Then, the rewinding of the film 4 is completed.
Until (NO at $ 235), return to $ 231 and return to $ 231-
処理 The process of 235 is repeated, and the film 4 is rewound.
When completed (YES in # 235), the film feeding unit 10
2 is stopped, a “reproduction process”
Transfer to chin ($ 237, $ 239). On the other hand, the reproduction switch 91 is turned off at # 229.
In the case of (NO in # 229), the process returns to # 189. Soshi
If there is no input of the frame number at $ 189 ($ 189
NO), the process proceeds to # 205, and at this time, the above described # 2
If the program mode has been set at 21 ♯
At 205, the determination is YES, and the process shifts to $ 241. In # 241, the program switch 83
It is determined whether the switch has been turned on and the program switch 8
If 3 is on (YES in # 241), the program
Is reset and the above “PROGRA”
The display of the letter "M" is turned off (# 243, # 24
5). On the other hand, when the program switch 83 is off,
(NO in # 241), processing of $ 243 and $ 245 is performed
Without going through to $ 225. As described above, each frame is reproduced with respect to the film 4.
Preset editing of raw order, image rotation and delete etc.
After editing, this edited file will be
The image can be reproduced with the changed contents. Next, the "mode processing" executed in # 215
Using the flowchart of FIG.
Will be explained. The sequential operation is performed when the register MOR is “00”.
Operation mode, “01” for manual mode, “10”
To set to semi-automatic mode and “11” to set to full-automatic mode
It has become so. The sequential operation mode is used to select music during reproduction and
The reproduction method, film feeding, etc.
Manual operation. Manual mode
Is performed by manually operating the data input unit 19 and the like.
Memorized music selection and playback method settings, etc.
Reproduction is performed with the set contents. Semi-automatic
The mode sets the data for either the playback method or the music.
This is performed by operating the data input unit 19 and the like.
Automatically set the other according to the content
I have. In the fully automatic mode, the film image reproducing device 1 reproduces the image.
Both the method and the music are set automatically. First, a 2-bit register indicating the mode state is set.
Whether the star MOR is "11" or "00"
Is determined (# 251). Register MOR is "11"
Alternatively, in the case of “00” (YES in $ 251), all
Since this is the automatic mode or the sequential operation mode,
13 and FIG. 13 described above without executing the flowchart.
It returns to the flowchart of 14. On the other hand, when the register MOR is "01",
Is (YES in $ 253), it is in manual mode
It is determined whether the selection switch 96 has been turned on.
(# 255) When the selection switch 96 is turned on (# 255)
255), zoom up switch 93, zoom
The down switch 94 or the like is operated to set the effect method.
Wait (No at $ 257), and the above-mentioned production method is set.
If it is done (YES at $ 257), this set direction
Method data is the magnetic band of film 4 or film image
It is recorded in the built-in memory of the playback device 1 (# 259). Next, music is played every predetermined number of frames.
Set the music performance time to match the playback time
Whether the production method has been set for the specified number of frames
Is determined (# 261), and the piece for which the production method is set
If the number is less than the predetermined number of frames (NO in # 261),
13 and 14 without music setting.
-Return to chart. On the other hand, an effect method is set for a predetermined number of frames.
In this case (YES in # 261), the data input unit 19 etc.
Wait until the music is set by manual operation (♯
When the music is set (NO at 263), YE is set at $ 263.
S), this set music information (data) is a film
4 (# 265). The above sound
The music is selected from the music recorded on the music recording medium MB.
The sound input from the audio input terminal 200 may be selected.
Ease may be selected. On the other hand, the register MOR is set to "1" at $ 253.
In the case of "0" (NO in # 253), the semi-auto mode is set.
Therefore, it is determined whether the selection switch 96 is turned on.
(# 267), and when the selection switch 96 is on,
(YES at $ 267), set the production method manually.
Mode is selected, so the production method is set.
Wait (NO in # 269), and the effect method is set
(YES at $ 269), the set production method is described.
It is remembered ($ 271). Next, the number of frames for which the rendering method has been set is predetermined.
If the number is less than the number of frames (NO in # 273), the music setting is performed.
Without being modified, the flowcharts of FIGS.
Return, if the production method has been set for the predetermined number of frames (♯
YES at 273), sound according to the set production method
From the music recorded on the music recording medium MB etc.
This is automatically selected and the music information
This is recorded on the magnetic band of the program 4 (# 275, # 277). On the other hand, the selection switch 96 is turned off at # 267.
In the case of (NO at $ 267), the music is manually operated
In some cases, the mode set in is selected.
Music is set by manually operating the input unit 19 and the like.
Wait in a loop of # 279 and # 267 (# 27
NO at 9). Then, when the music is set ($ 279
YES), the production method according to the set music is automatically
The set music is set to the magnetic
It is stored in the band (# 281, # 283). Next, the mode switch 84 and the rewind switch
H 88, stop switch 89, pause switch 90,
Either the raw switch 91 or the fast forward switch 92
INTA interrupt routine of Fig. 16
Will be described. When the mode switch 84 is turned on
(YES in # 291), the “mode setting process” described later
The routine is executed (# 293). Then, INTA
Interruption is permitted (# 295). On the other hand, when the fast-forward switch 92 is turned on,
In this case (YES in # 297), a "fast forward process" described later
Is executed (# 299). Rewind switch
If 88 is turned on (YES in # 301), it will be described later.
A "rewind process" routine is executed (# 30
3). When the reproduction switch 91 is turned on (# 30
(YES at 5), a "reproduction process" routine to be described later is executed.
(# 307). The pause switch 90 is turned on
(YES at $ 309), the "pause"
The processing routine is executed (# 311).
When the switch 89 is turned on (YES at $ 313),
A routine of "stop processing" described later is executed (# 31
5). Next, the routine of the "mode setting process" of # 293
The routine will be described with reference to the flowchart of FIG.
You. Display related to the mode in the display area 71 of the display unit 7
("MANUAL", "SEMIAUTO", "AUT
O ”) is turned off and the register MOR is incremented.
($ 321, $ 323). This increment
The register MOR becomes "00"
Is set to the sequential operation mode (YES at $ 325).
(# 327), the playback method setting and music selection
Setting by manual operation becomes possible. On the other hand, the register MOR has become "01".
In this case (YES in $ 329), the mode is set to manual mode.
And “MANUAL” is displayed in the display area 71 of the display unit 7.
Characters are lit (# 331, # 333). to this
More manual settings for playback method settings and music selection
Settings can be made. And, during playback, this set
The content is played back. On the other hand, the register MOR becomes "10".
(YES at $ 335), set to semi-automatic mode.
And the text “SEMIAUTO” is displayed in the display area 71.
The character is lit (# 337, $ 339). This
The playback method or music manually.
Can be set, and the other
Is set automatically. On the other hand, the register MOR is set to "1" at $ 335.
If it is not "0" (NO at $ 335), the above register
Since MOR is “11”, it is set to the fully automatic mode.
And the letters "AUTO" are lit on the display area 71.
(# 341, # 343). This allows the playback method
And the music is set automatically. As described above, when the mode switch 84 is pressed,
Depending on the sequential operation mode, manual mode, semi-automatic
Mode and fully automatic mode.
Each mode can be used according to the purpose and preference
You. For example, if you want to appreciate the image of each piece slowly
, The sequential operation mode may be set. Also, the playback method
And set the music accompanying it according to the user's preference.
If you want, you can set the manual mode. Again
Only the live method or the music, depending on the user's preference
If you want to set it accordingly, set the semi-auto mode
Good. When you want to set the playback method and music automatically
May be set to the automatic mode. Next, the "fast-forward processing" routine of # 299
The flowchart is described with reference to FIGS. 18 and 19.
I will tell. Film 4 after the INTA interrupt is enabled
Is determined whether or not is being fed (# 351, $ 353),
If the film is being fed (YES at $ 353),
The drive of the lum feeding unit 102 is stopped (# 355). Next, whether the image on the film 4 is being reproduced or not is determined.
Is determined (# 357), and during reproduction (# 35
7) YES, film 4 is fast-forwarded by one frame
The film feeding unit 102 is driven to
A symbol indicating fast-forward is lit on the display area 73
(# 359, # 361). Then, wait until the winding of one frame is completed.
(No at $ 363) When the winding of one frame is completed
(YES in # 363), the driving of the film feeding unit 102 is stopped.
The display is stopped, and the display in the display area 73 is turned off (# 3
65, $ 367). After this, the process of the “reproduction process” described later
To the routine (# 369). On the other hand, when the reproduction is not being performed in # 357 (see
NO at 357), writing data to magnetic band of film 4
It is determined whether the data is being read (# 371), and the data is written.
If it is middle (YES at $ 371), write this data
Is continued (NO in # 373). Write this data
Is completed (YES at $ 373),
The timer T that detects whether the time has elapsed has been reset.
And then fast-forward in the display area 73
Symbol mark blinks ($ 375, $ 37
7). If data is not being written in # 371,
(NO in # 371), the process immediately proceeds to # 375. Next, the timer T counts up.
Is determined, and if the timer T is counting
(NO at $ 379), it is determined whether the frame number has been input.
Is separated (# 381) and the frame number is not entered.
(NO at $ 381), returns to $ 377 and timer T
Until the player counts up or the piece number is entered
The processing of the loop from # 377 to # 381 is repeated. During the counting of the timer T, the frame number is
When input (YES at $ 381), the frame number is
The frame number stored in the memory of the control unit 22 is displayed on the display unit 7.
Is displayed in the display area 74 of the
The film feed amount K required to wind up the program 4 is calculated.
(# 383 to # 387). Meanwhile, the piece number is entered
If the timer T counts up without
(YES at $ 379), processing $ 381 to $ 387
Without performing, the flow shifts to $ 389. In # 389, fast forward to the display area 73 is performed.
Is displayed, and the symbol of the corresponding frame number is displayed.
In order to wind up the film 4, the film feeding unit 10
2 is driven, and the feeding amount of the film 4 is further increased.
Detected based on the number of rotations of the drive motor of the unit 102, etc.
($ 389 to $ 393). Then, the feed amount of the film 4 is set
It is determined whether or not the medium feed amount K has been reached ($ 395).
The feed amount of the film 4 has reached the above-mentioned film feed amount K.
If not (NO at $ 395), the last frame (F
Film end)
($ 397), not wound up to film end
If it is (NO at # 397), the stop switch 89, the reproduction switch
Switch 91 etc. were turned on and an INTA interrupt occurred
It is determined whether or not (# 399). And INTA
If an interrupt has occurred (YES at $ 399),
Return to the INTA interrupt processing routine of FIG.
You. On the other hand, when there is no INTA interrupt ($ 399
NO), and returns to $ 395. On the other hand, when the feeding amount of the film 4 is
When the feed amount K has been reached (YES at $ 395), the film feed
The driving of the feeding unit 102 is stopped, and the display in the display area 73 is displayed.
Turns off (# 401, # 403). After this, it will be described later
The routine proceeds to the "reproduction process" routine (# 405). On the other hand, the film 4 is wound up to the film end.
If it is raised (YES at $ 397), the film feeding unit
102 is stopped, and the display in the display area 73 is turned off.
And the process proceeds to the “rewind process” routine described below.
($ 407- $ 411). Next, the "rewind processing" routine of # 303
The flowchart is described with reference to FIGS. 20 and 21.
I will tell. First, after the INTA interrupt is enabled,
Determines whether Lum 4 has been fed to the film end
(# 421, # 423), and film 4 is
Is displayed when it is delivered to the client (YES at $ 423)
A symbol mark indicating rewind is displayed in the display area 73 of the unit 7.
Lights up and the film feed is started to rewind the film 4.
The feeding unit 102 is driven (# 425, # 427). Next
Then, the stop switch 89 etc. is turned on and the INTA interrupt occurs.
Waits (NO at $ 429) and assigns INTA
If it is found (YES at $ 429), INT shown in FIG.
The process returns to the A interrupt processing routine. On the other hand, the film 4 is supplied to the film end.
If it has not been sent (NO at $ 423), the film
It is determined whether or not No. 4 is being fed (# 431).
If the film is being fed (YES in # 431), the film is fed.
The driving of the unit 102 is stopped (# 433). Meanwhile, feeding
If it is not inside (NO in # 431), the process of $ 433 is performed.
The process moves to $ 435 without success. In # 435, the image of the film 4 is being reproduced.
It is determined whether or not playback is in progress (Y at # 435).
ES), to rewind film 4 by one frame
The feeding unit 102 is driven, and is wound around the display area 73 of the display unit 7.
A symbol mark indicating return is lit (# 43
7, $ 439). And when the rewind of one frame is completed
(YES in # 441), the film feeding unit 102 is driven
The display is stopped and the display in the display area 73 is turned off (# 44
3, $ 445). Thereafter, a “reproduction process”
Transfer to chin ($ 447). On the other hand, if it is not being reproduced at $ 435,
(NO in # 435), data written on magnetic band of film 4
It is determined whether or not writing is in progress ($ 449), and data is written.
If the data is being written (YES at $ 449), this data
Is continued (NO at $ 451), and data
Upon completion (YES in # 451), timer T is reset
And then rewind the display area 73.
Blinking symbol mark ($ 453, $ 4
55). Next, the timer T counts up.
Is determined (# 457) and the timer T counts.
If it is in the middle of the game (NO at $ 457), the frame number is entered
Is determined (# 459) and the frame number is entered.
If not (NO at $ 459), return to $ 455,
The timer T counts up or the frame number
Until is input, the processing of the loop from $ 455 to $ 459
Repeated. During the counting of the timer T, the frame number
Is input (YES at $ 459),
The frame number is stored in the built-in memory of the central control unit 22, and the frame number is
The frame number displayed on the display area 74 of the display unit 7
The film feed amount K required to rewind the film 4 with
An operation is performed (# 461 to # 465). On the other hand,
When the timer T counts up without being input
(YES at $ 457), the routine goes to $ 467. At step # 467, the display area 73 is rewound.
Is displayed, and then the
Film feed to rewind film 4 to the numbered frame
The section 102 is driven, and the feeding amount of the film 4 is further reduced.
Detection based on the number of rotations of the drive motor of the
(# 469 to # 471). Subsequently, the feed amount of the film 4 is set to
It is determined whether or not the medium feeding amount K has been reached (# 473).
The feed amount of the film 4 has not reached the film feed amount K.
In this case (NO in # 473), the film 4
Whether the film has been rewound into the film cartridge KT
Is determined (# 475). And the film 4
Not yet rewound in film cartridge KT
In this case (NO in # 475), the stop switch 89 and the like are turned off.
To determine if an INTA interrupt has occurred.
($ 477), and if an INTA interrupt occurs
(YES at $ 477), the above-mentioned INTA split in FIG.
It returns to the routine of the embedding process. On the other hand, the INTA interrupt
If not (NO in # 477), the process returns to # 473. Then, the feed amount of the film 4 is set at $ 473.
When the film feed amount K has been reached (YES at $ 473), the
The driving of the film feeding unit 102 is stopped, and the display area 7 is stopped.
The display of No. 3 is turned off (# 479, # 481). After this,
The routine proceeds to a “reproduction process” routine described below (# 48
3). On the other hand, at # 475, the film 4
When the film is rewound into the film cartridge KT
(YES at $ 475), the magnetic
The air band or the film cartridge KT
Information that the film 4 has been played once,
Data such as music information and color correction information is recorded (# 48
5). Next, the driving of the film feeding unit 102 is stopped.
The display in the display area 73 is turned off, and the "reset" in FIG.
(“$ 487- $ 49”)
1). Next, a routine of "playback processing" of # 307
Will be described with reference to the flowcharts of FIGS. 22 and 23.
I do. First, it is determined whether or not the film 4 is being fed.
(# 501) If the film is being fed (# 501
YES), the drive of the film feeding unit 102 is stopped (♯
503), when it is stopped (NO in $ 501),
Step # 503 is skipped. Next, the film position
Of the perforation PF by the position detection unit 104
Based on the result, the frame of the film 4 is captured by the imaging unit 100e.
It is determined whether or not it matches the region (imaging position) SR.
(# 505). Here, the frame of the film 4 is imaged as described above.
If it is deviated from the region SR (NO in # 505),
The “positioning processing” routine described later is executed and
The piece of the lum 4 is positioned in the imaging region SR (# 5
07). On the other hand, when the piece matches the imaging region SR,
Is (YES in $ 505), the process in $ 507 is skipped
It is. In # 509, the above-mentioned FIGS.
Program mode in the “prescan processing” routine
It is determined whether or not the
If it is set (YES at $ 509),
The frame number specified in the “prescan processing” routine
In order to reproduce the images in order, of the above designated frame numbers,
The first frame number is read from the internal memory of the central control unit 22
(# 511). Next, the above readout from the current frame position is performed.
To feed film 4 up to the frame number
The sending unit 102 is driven (# 513), and the frame of the frame number is
Until it matches the imaging region SR (NO in # 515)
The film 4 is fed, and the frame of the frame number is displayed in the imaging region SR.
(YES at $ 515), the piece number of the piece
It is displayed on the display area 74 of the display unit 7 (# 517). On the other hand, the program mode is set at $ 509.
If not (NO at $ 509), the current piece position
Processing of # 511 to # 517 to reproduce images in order from
Without performing step # 519. At # 519, the register MOR is set to "00"
Is determined, and when the register MOR is “00”
(YES in # 519), that is, the sequential operation mode
In the first case, the INTA interrupt is disabled, and
The data of the frame at the current frame position is
And the frame is captured by the imaging unit 100e.
The image of the captured frame is imaged by the effect control unit 12.
And stored in the image memory 13 (# 5
23- $ 527). Here, the INTA interrupt is returned to the enabled state.
Then, a "playback state switching process" routine described later
Is executed (# 529, # 531). After this, stop
Until the switch 89 etc. is turned on and an INTA interrupt occurs
The loop processing of $ 531 and $ 533 is performed in I
When an NTA interrupt occurs (YES at $ 533), FIG.
It returns to the flowchart of the INTA interrupt of No. 6. On the other hand, if the register MOR is other than "00"
In the case of (NO at $ 519), first, INTA interrupt
Is prohibited, and then the data of the
Read from the magnetic band of LUM4, and
The image is captured by the imaging unit 100e, and
The image is signal-processed by the effect control unit 12 and the image memo is processed.
Is stored in the memory 13 (# 535- # 541). Subsequently, whether the register MOR is "11"
Is determined and the register MOR is "11"
(YES in # 543), that is, in the case of the fully automatic mode
Indicates whether the program mode is set.
Is determined (# 545), and the program mode is set.
(YES at $ 545), the "pre-scan processing"
The production method set in the routine “
547). That is, in the case of the fully automatic mode, the film 4
The production method and music are automatically set according to the number of frames
However, if the program mode is set,
The number of frames to be played back in the "prescan processing" routine
It is determined by the set contents. Therefore,
When the playback method is set by the number of frames of film 4, the
The interval may be longer than the playback time. this
Full automatic mode and program mode set
If the number of playback frames is
Set the time to be long, and direct it accordingly
To change. On the other hand, the register MOR is set to "1" at $ 543.
1 "(NO in $ 543) or $ 545
If the program mode is not set in (54
No at 5) Do not change the production method of $ 547
The process proceeds to step S549. $ 549 INTA interrupt
Is returned to permission, and thereafter, the “mode processing” in FIG.
The music set in the “Routine” routine starts playing.
($ 551). Next, the image data is stored in the image memory 13.
The piece that has been played is rendered and rendered (# 553).
Reproduction is performed until the output ends (# 553 and # 5).
55 loops). And when the above-mentioned production is completed ($ 5
YES at 55), Program mode set at $ 557
Is set, the program mode is set to
If it is set (YES at $ 557), $ 51
Return to 1 and read out the next frame number from the specified frame number
Is done. On the other hand, the program mode is set at $ 557.
If not (NO at $ 557), playback of all frames
It is determined whether or not the playback has ended (# 559), and the
If there is no missing piece (NO at $ 559),
Perforation of film 4 by position detector 104
The next frame is determined based on the detection result of the
The film 4 is fed until it matches R (# 56
1). On the other hand, at $ 559, reproduction of all the frames
If it is finished (YES in $ 559), the music
After the stop, the “rewind processing” routine described above is executed.
(# 563, $ 565). As described above, the frame and the imaging region SR are aligned.
Since the shooting is started after the
Blank area is displayed on screen 3 of monitor TV2
The playback image is prevented from being interrupted,
A reproduced image can be obtained. In this routine, the fully automatic mode is set.
Only when it is set (YES in # 543), $ 54
The production method was changed in step 7, but it is not limited to this case.
Mode is set and music is selected by manual setting
You can change the production method even if it is done
No. Next, the “positioning processing” route of # 507
The chin will be described with reference to the flowchart of FIG.
You. The drive motor rotates forward and the film 4 is fed out.
It is assumed that the film 4 is rewound in reverse. First, the light receiving element of the frame position detecting unit 104 is
Light from the light-emitting element was received through
Is determined (# 571), for example, as shown in FIG.
As described above, when the light receiving element P1 is receiving light (# 571
YES), since the frame matches the imaging area, $ 57
3 and FIG.
-Return to chart. On the other hand, if the light receiving element P1 is not in the light receiving state,
(NO in # 571), playback switch 91 feeds film
Whether it was turned on during the forward rotation of the drive motor of the unit 102
Is determined (# 573). And the playback switch 9
1 is turned on during the reverse rotation of the drive motor (上 記
(NO at 573), the drive motor is switched to normal rotation and
The film 4 is paid out (# 575). Meanwhile, the playback switch
If 91 is turned on during the forward rotation of the drive motor,
(YES in # 573), the drive motor is rotated forward as it is
Then, the film 4 is paid out (# 577). Thereafter, the light receiving element P1 changes to the light receiving state.
It is determined whether or not the light receiving element P1 has been turned on (# 579).
If has not changed to the light receiving state (NO in # 579),
Returning to step # 573, the feeding of the film 4 is continued.
On the other hand, when the light receiving element P1 changes to the light receiving state (♯
579, YES), the drive motor of the film feeding unit 102
Is stopped (# 581), and the flow charts shown in FIGS.
Return to the chart. Note that the frame of the film 4 is
As a method of positioning in the imaging region SR, the method of FIG.
It is not limited to the law.
A mark is imprinted on the position, and this mark is detected to determine the position.
May be performed. Also, the magnetic properties of the film 4
Read the data recorded on the band and
The positioning may be performed based on this. Next, in the "playback state switching process" of # 531,
For the routine, use the flowcharts of FIGS.
Will be described. First, the image of the frame captured at $ 525
It is reproduced (# 601). Then, zoom down switch
Switch 94 or zoom up switch 93 is turned on.
Is determined (# 603), and the zoom-down switch
Switch 94 or zoom up switch 93 is on
(YES at $ 603), the frame captured at $ 525
Optically zoom down or up by image scaling unit 100c
Is repeatedly played back while zooming in.
You. Note that the zoom control is performed by the image processing of the effect control unit 12.
Or zoom up. Next, monitor
The area of the frame displayed on the screen 3 of the TV 2 is
It is displayed in display area 77 (# 605, # 607). Thereafter, the zoom down switch 94 and the zoom
$ 605 until both switch-up switches 93 are turned off
Repeat the processing of the loop from ~ 609, zoom down
Switch 94 and zoom up switch 93 are both off
Is reached (YES in # 609), this zoom-down switch
Switch 94 and the zoom when the zoom up switch 93 is off.
Magnification data is stored in the information reading unit 101 (# 61
1). After that, it returns. Note that this zoom magnification
Record the data directly on the magnetic band of film 4
Is also good. On the other hand, the zoom-down switch 9
When both 4 and the zoom up switch 93 are off
(NO in # 603), panning switch 951 is on
It is determined whether or not panning has been performed (# 613).
When switch 951 is on (YES in # 613),
The image of the frame is enlarged by the image scaling unit 100c, and
While feeding the film 4 by the film feeding unit 102,
By repeatedly taking an image of the frame
Panning is performed by the image processing of the effect control unit 12.
It is. Next, it is displayed on the screen 3 of the monitor TV2.
A piece area is displayed in the display area 77 (# 615,
# 617). Thereafter, the panning switch 951 is turned off.
Loop processing of $ 615 to $ 619 is repeated until
When the panning switch 951 is turned off (# 6
19) and the panning set as described above at $ 611.
Is stored in the information reading unit 101 or the like. On the other hand, the panning switch 95
When 1 is off (NO in # 613), tilting
It is determined whether switch 952 is turned on (# 6
21) When the tilting switch 952 is on
(YES in # 621), the image magnification unit 100c
In addition to enlarging the frame image, the vertical / horizontal conversion unit 100d
Rotate the image of the frame to an upright state,
Film 4 is moved up and down by film moving means
By repeating the imaging of the frame while
Is tilted by the image processing of the effect control unit 12.
Be done. Next, it is displayed on the screen 3 of the monitor TV2.
The area of the present piece is displayed in the display area 77 (# 62
3, $ 625). After this, the tilting switch 952
Until is turned off, the processing of the loop from $ 623 to $ 627
Repeatedly, the tilting switch 952 turns off
(YES at $ 627), the key set at $ 611
Routing data is stored in the information reading unit 101, etc.
You. On the other hand, the tilting switch 9
When 52 is off (NO in # 621), rotation
It is determined whether the option switch 85 has been turned on (♯
629), when the rotation switch 85 is on.
(YES at $ 629), the vertical / horizontal conversion unit 100d
By rotating the image of the film 4 and taking an image,
Alternatively, the image is rotated by the image processing of the effect control unit 12.
Is performed (# 631). After this, the rotations
$ 631 and $ 633 until switch 85 turns off
The processing of the loop is repeated, and the rotation switch 85
Is turned off (YES at $ 633), the above at $ 611
The set image rotation data is recorded in the information reading unit 101 and the like.
Remembered. On the other hand, the rotation switch
If 85 is off (NO in $ 629), deletes
It is determined whether the switch 86 has been turned on (# 63
5) When the delete switch 86 is on (# 63
5 is YES), is the frame already instructed to be erased?
It is determined whether or not the frame has already been erased (# 637).
If it is displayed (image non-display state), (で 637
YES), the delete switch is canceled
Switch 86 is turned off (YE at $ 639)
S), the frame is imaged, and the image of the frame
The image is signal processed by the effect control unit 12 and reproduced.
($ 641- $ 645). Thereafter, the above erasure is performed at $ 611.
Data indicating that the instruction has been released is stored in the information reading unit 10.
1 and so on. On the other hand, the above-mentioned frame instructs erasure at $ 637.
If not performed (NO at $ 637),
Read data from image memory 13 to erase image
Is stopped and the delete switch 86 is turned off.
Wait (YES at $ 649), delete the frame at $ 611
The information indicating that the instruction has been issued is stored in the information reading unit 10.
1 and so on. On the other hand, at $ 635, the delete switch 86
If it is off (NO at $ 635), the clip switch
It is determined whether or not 87 has been turned on (# 651).
When the clip switch 87 is ON (Y at # 651)
ES), the data input unit 19 and the like are operated to
Waiting for the area to be designated (YES at $ 653), directing
Only the trimming area by the image processing of the control unit 12
The display area 77 is reproduced, and the trimming area is displayed in the display area 77.
Is displayed, for example, as a frame 771 in FIG.
5, $ 657). Thereafter, the clip switch 87 is turned off.
Loop processing from $ 653 to $ 659 is repeated until
When the clip switch 87 is turned off (# 659
YES), and $ 611 indicating the data indicating the trimming area.
The data is stored in the information reading unit 101 or the like. On the other hand, the clip switch 87 is set at $ 651.
When the switch is off (NO in # 651), the color adjustment switch 8
2 is turned on (# 661), and the color tone
When the adjustment switch 82 is ON (YE at $ 661)
S), the color of the reproduced image is adjusted (# 663). This
After that, until the color adjustment switch 82 is turned off,
The processing of the loop of step # 665 is repeated, and the color adjustment switch
When switch 82 is turned off (YES in # 665), $ 611
The data of the color adjustment is stored in the information reading unit 101 or the like.
You. On the other hand, the color adjustment switch 82 is turned off at # 661.
In the case of フ (NO at $ 661), the multi-screen switch
97 is turned on (# 667), and
When the multi-screen switch 97 is off (N at $ 667)
O), proceeding to # 611. On the other hand, when the multi-screen switch 97 is on,
In this case (YES at $ 667),
Switch to the image memory 14 for the
14 is a multi-screen display image signal.
And the multi-screen display is performed (# 669, # 6
71). Next, the multi-screen switch 97 is turned on again.
Is determined (# 673), and the multi-screen switch
If switch 97 is on again (YES at $ 673),
Switching from the image memory 14 to the image memory 13
The image stored in the image memory 13 is reproduced (# 6
75, $ 677). Thereafter, the flow shifts to # 611. On the other hand, at $ 673, the multi-screen switch 97
Is OFF (NO in # 673), data input unit 1
It is determined whether or not 9 has been operated to input the frame number.
($ 679), if the frame number has not been entered ($ @
NO at 679), return to $ 673, multi-screen switch
Until 97 is turned on or the frame number is input
The loop processing of # 673 and # 679 is repeated. On the other hand, when the frame number is input (# 67
9), the frame number is stored in the memory of the central control unit 22.
The stored frame number is displayed in the display area 74 of the display unit 7.
It is necessary to feed the film 4 to the frame of the frame number.
The required film feed amount K is calculated. Next, the piece number
Film feeder 1 to feed film 4 to the number
02 is driven, and the feed amount of the film 4 is further reduced.
Detected based on the rotation speed of the drive motor of the feeding unit 102
(# 681- $ 689). Then, the feed amount of the film 4 is
It is determined whether or not the delivery amount K has been reached (# 691).
When the feed amount of the lum 4 reaches the film feed amount K (# 69
1 is YES), the driving of the film feeding unit 102 is stopped.
Is switched from the image memory 14 to the image memory 13.
(# 693, $ 695), then move to # 519 in Fig. 22
I do. Next, "temporary stop processing" of # 311 in FIG.
The processing routine will be described with reference to FIG.
Instead, it is determined whether or not the register MOR is “00” (♯
701), when the register MOR is other than “00”
(No in # 701), the effect of the image being reproduced is stopped.
($ 703). On the other hand, when the register MOR is “00”
(YES in # 701), that is, in the case of the sequential operation mode
Without the processing of $ 703
Is permitted (# 705). Next, "switching process"
(# 707). Note that this "switch
The “processing” routine is performed in the “reproduction” of FIGS. 25 to 28 described above.
The same processing as in the state switching processing routine is performed.
The difference is that processing of $ 601 is not performed.
Therefore, the description is omitted. After this, the INTA interrupt
Until then, the loop of $ 707 and $ 709 is repeated,
When an INTA interrupt occurs (YES at $ 709),
It returns to the flowchart of 16. Next, in "stop processing" of # 315 in FIG.
The routine will be described with reference to FIG. First,
Determines whether data is being written to the magnetic band of LUM4
(# 711), and during data writing (# 7
11 is YES), and the data writing is continued (# 713)
When the data writing is completed (Y in # 713)
ES), the flow shifts to $ 715. On the other hand, data at $ 711
If writing is not in progress (NO in # 711),
The flow shifts to $ 715 without performing the processing. At # 715, it is determined whether or not the image is being reproduced.
If the image is being reproduced (YES in # 715),
Reading of the image signal from the image memory 13 is stopped.
($ 717). On the other hand, if the image is not being reproduced at $ 715,
(NO in # 715), without performing the process in # 717
Go to # 719. At step # 719, whether the film 4 is being fed or not is determined.
It is determined whether the film 4 is being fed (# 71
At 9, the feeding of the film 4 is stopped (# 72).
1). On the other hand, if the film 4 is not being fed at $ 719,
(NO in # 719), without performing the process in # 721
Move to $ 723, the production method of the last played piece, the piece number
No. or other data is stored in the information reading unit 101, or
It is recorded on the magnetic band of the film 4 (# 723). to this
In the next playback, the image of the last played frame
Will be played. The "reproduction processing" shown in FIGS.
In the routine of “management”, the INTA
After prohibiting the loading of data, the data is
Read from magnetic band of film 4
Interrupt processing may be prioritized. in this case,
Instead of disabling the $ 521 and $ 535 INTA interrupts,
The process shown in FIG. 31 is performed by the process of # 291 (FIG. 16).
Do before. As a result, the routine of the “reproduction process” is executed.
An INTA interrupt can be performed during a row. That is, first, the image of the film 4 is captured.
It is determined whether the image is in the middle (# 731).
(YES in # 731), the imaging is stopped, and the image
The file 13 is cleared (# 733, $ 735). Next
Whether data is being read from the magnetic band or the like of the film 4
Is determined (# 737).
(YES at $ 737), the data reading is stopped.
And the contents of the data are cleared (# 739,
# 741). As a result, the “reproduction processing” shown in FIGS.
Priority is given to INTA interrupt processing in the
I can make it. As described above, # 371 and # 373 in FIG.
Alternatively, as shown in the processing of # 449 and # 451 in FIG.
Rewinding while writing data to the magnetic band of film 4
When the switch 88 or the fast forward switch 92 is pressed
Rewinds and fast forwards until this data writing is completed.
The film 4 is not fed.
To reliably record data on the magnetic band of the film 4
Data can be read at the next data read.
No exudation failure occurs. In the above description, the filter in the rewind direction has been described.
Writing data to the magnetic band of film 4 in the lum feeding state
, But with film 4 stopped
To fill the magnetic head 101a by moving means (not shown).
Write data by moving it in the feed direction of
You may do it. In the above description, the image recording medium is
Although the developed film 4 is shown, the image recording medium
The image signal is not limited to a digital signal.
Even if it is a magnetic disk, magnetic tape, etc. for recording
Alternatively, it may be an optical disk (CD) or the like. According to the present invention, data on a developed film
If a film feed is instructed during the recording,
Data will be banned,
Can be reliably recorded to the end. Therefore,
When reading data, ensure that the required data is
Can be

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a control system of a film image reproducing apparatus. FIG. 2 is an external view showing one embodiment of a film image reproducing apparatus according to the present invention. FIG. 3 is a front view showing a front surface of the film image reproducing apparatus. FIG. 4 is a perspective view showing a film loading unit of the film image reproducing apparatus. FIG. 5 is an image diagram showing a relationship between a frame position detection unit, film perforation, and an imaging area of an imaging unit. FIG. 6 is an image diagram showing a relationship between a frame position detection unit, film perforation, and an imaging region of the imaging unit when a line image sensor is used as the imaging unit. FIG. 7 is a flowchart for performing initialization of the film image reproducing apparatus. FIG. 8 is a flowchart showing an MFI interrupt routine executed when a power switch and an eject switch are pressed. FIG. 9 is a flowchart illustrating a “power-on processing” routine. FIG. 10 is a flowchart illustrating a routine of “power-off processing”. FIG. 11 is a flowchart illustrating a routine of “eject processing”. FIG. 12 is a flowchart illustrating a routine of a “film loading process”. FIG. 13 is a flowchart illustrating a routine of “prescan processing”. FIG. 14 is a flowchart illustrating a routine of “prescan processing”. FIG. 15 is a flowchart illustrating a routine of “mode processing”. FIG. 16 is a flowchart showing an INTA interrupt routine executed when a predetermined switch is turned on. FIG. 17 is a flowchart illustrating a routine of a “mode setting process”. FIG. 18 is a flowchart illustrating a routine of “fast-forward processing”. FIG. 19 is a flowchart illustrating a routine of “fast-forward processing”. FIG. 20 is a flowchart showing a routine of “rewind processing”. FIG. 21 is a flowchart illustrating a routine of “rewind processing”. FIG. 22 is a flowchart showing a routine of “reproduction processing”. FIG. 23 is a flowchart showing a routine of “reproduction processing”. FIG. 24 is a flowchart illustrating a routine of a “positioning process”. FIG. 25 is a flowchart showing a routine of “reproduction state switching processing”. FIG. 26 is a flowchart illustrating a routine of “reproduction state switching processing”. FIG. 27 is a flowchart showing a routine of “reproduction state switching processing”. FIG. 28 is a flowchart showing a routine of “reproduction state switching processing”. FIG. 29 is a flowchart illustrating a routine of “temporary stop processing”; FIG. 30 is a flowchart illustrating a routine of “stop processing”. FIG. 31 is a flowchart added to permit the INTA interrupt even during execution of the “reproduction process” routine. [Description of Signs] 1 Film image reproducing apparatus 1a Front face of film image reproducing apparatus 2 Monitor TV 3 Monitor TV screen 4 Developed film 5 Speaker 6 Eject table 7 Display section 8 Operation section 10 Film loading section 11 First image processing Unit 12 effect control units 13 and 14 image memory 15 second image processing unit 16 character data insertion unit 17 display control unit 18 display driver 19 data input unit 20 music control unit 21 amplifier 22 central control units 23 and 24 state detection unit 25 OR circuit 26 AND circuit 27 Buffer circuit 100 Image reading unit 101 Information reading unit 102 Film feeding unit 103 Film detection switch 104 Frame position detection unit 100a Light source 100b Mirror 100c Image scaling unit 100d Vertical / horizontal conversion unit 100e Image pickup units K1, K2 Cable KT film cartridge MB sound Music recording medium

Claims (1)

(57) [Claim 1] In a film image reproducing apparatus for reproducing an image of a frame of a developed film, a feeding means for feeding the film, and a feeding instruction for feeding the film. Instruction means, data recording means for recording data relating to the film on the film, determination means for determining whether data is being recorded on the film, and instruction by the feed instruction means during the data recording. And a feed control unit for prohibiting feed of the film.