JPH0534814A - Distinctive recording device - Google Patents

Abstract

PURPOSE:To easily record plural subjects which differ in subject size by plural photography parts which differ in reduction rate corresponding to the subject sizes. CONSTITUTION:A subject sensor 12 detects the length, etc., of a conveyed subject P, which is photographed by a low reduction rate camera 20a when the subject is a short subject P1 or by a high reduction rate camera part 20b when a long subject P2. After the photography, the short subject P1 is stacked distinctively on an upper stacker 10 according to the position of a distinction gate 16 which operates with the detection signal from the sensor 12 while the long subject P2 is stacked in a lower stacker 10a.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a microfilm,
Alternatively, the present invention relates to a photographing and recording device that records an image in a memory.

[0002]

2. Description of the Related Art Conventionally, there is an apparatus having this kind of versatility, which can freely photograph or record a large subject (about A3) to a small subject (about B6). That is, (1) rotary type microfilm camera,
There are (2) computer input scanners and (3) flatbed microfilm cameras. For example, in the case of the computer input scanner of (2), a different model from the A3 scanner and the A4 scanner was set. This is because when an A4 object is recorded by the A3 scanner, the resolution is reduced. Also, in the rotary camera of (1), it was possible to record on two cameras at the same time,
To shoot a small subject with a large camera, I used a camera with a small reduction ratio. Further, in the flat-bed type camera of (3), there are some cameras which are mounted with two cameras having the same reduction ratio, but the two are simultaneously recorded at the same magnification for backup recording. .

[0003]

By the way, in the above-mentioned conventional example, in the case of the rotary type camera of (1), when there are two or more types of subjects, two or more dedicated cameras are required or they are reduced in size. It required a troublesome operation such as replacing camera units with different rates. Also, in the computer input scanner of (2), there must be a plurality of scanners according to the object size, and when scanning a small object with a large scanner, the number of elements decreases in proportion to the size. And the resolution drops. Further, a high-resolution one is expensive, and there is a disadvantage that an input device having a different number of elements requires a conversion unit. Also, in the flat-bed camera of (3), the magnification has to be changed by moving the camera body up and down to change the distance to the subject.

An object of the present invention is to eliminate the above-mentioned drawbacks of the prior art and to provide a separation recording apparatus capable of automatically performing work in many fields with one device.

[0005]

In order to achieve the above-mentioned object, the present invention is a classification recording apparatus having a plurality of image pickup units, in which the length or width of the subject is detected, the front and back of the subject are detected, and The subject discriminating means including the bar code detecting means, the OCR detecting means, or a combination thereof is provided, and the plurality of photographing units are automatically switched according to the information from the subject discriminating means. Further, it is preferable to have a stocker that can classify the photographed subjects into the classifications corresponding to the photographing units where the photographing is performed. Further, the photographing unit may be an image-electric conversion unit.

[0006]

In the image pickup apparatus having the above-described structure, the high-resolution appropriate recording can be separately recorded by automatically switching the image pickup units. In addition, it is not necessary to use many devices all together, and it can be manufactured in a small space and at low cost.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described below with reference to FIG. This embodiment is a combination of a high-reduction roll-rotation type photographing camera and a low-reduction-ratio rotation type photographing camera. In the figure, 2 is an upper conveying roller, and 2a is a pair of lower conveying rollers, and conveys a subject P on the subject feeding table 1. Three
Numerals 4, 5 and 3a, 4a, 5a are an upper conveyance roller and a lower conveyance roller paired with each other, which are sequentially arranged along the object conveyance path. An upper transport guide 11 and a lower transport guide 11a are provided between the pair of transport rollers, and are configured to guide the subject P and send them to the next pair of transport rollers. The lower transport rollers 2a-5a are driven at a constant speed by a drive source (not shown). 6, 6a are conveying rollers 5, 5a, respectively
The upper driving roller and the lower driving roller paired with the upper transportation guide 11 and the lower transportation guide 11a on the downstream side of the transportation path drive the transportation belt 7 hung on the belt supporting roller 8. . Reference numerals 9 and 9a denote an upper drive roller and a lower drive roller, respectively, which are arranged on the downstream side of the drive rollers 6 and 6a via an upper conveyance guide 11. Reference numeral 10 denotes a low-reduction-factor object stacker for the short subject P1 arranged on the delivery side of the driving rollers 9 and 9a, and 10a denotes a lower-high-reduction subject stacker for the long subject P2 arranged on the delivery side of the conveyor belt 7. is there.

Further, reference numeral 12 is a reflection type object sensor, which is arranged between the conveying rollers 2 and 2a and the conveying rollers 3 and 3a, and detects the front end and the rear end of the object P to detect the length of the object P as well. It is detecting. 13 and 13a are illumination light sources, and 14 and 14a are reflecting mirrors, respectively, between the transport roller pairs 4, 4a and the transport roller pairs 5, 5a and between the transport roller pairs 5, 5a and the drive roller pairs 6, 6a. The subject P is illuminated through the arranged glass guide plates 15 and 15a. Reference numeral 16 is a sorting gate provided between the driving roller pair 6, 6a and the driving roller pair 9, 9a, and is vertically moved by an electromagnetic plunger 17 by a link mechanism (not shown) to sort the stacker 10 or 10a.

Next, the camera sections 20a and 20b will be described. 20a is a low-reduction-rate camera section and 20b is a high-reduction-rate camera section, each of which is placed in a position where the operability is good by using a mirror (not shown) in the optical path. Has been done. Low reduction camera 2
A low reduction lens 21a, a shutter 22a, and an aperture slit 23a for slit exposure are arranged in the image pickup system 0a, and a supply reel 24a of the film F, a positioning guide roller 25a, and an image forming surface are provided as a film transfer system. The drive roller 26a, the positioning guide roller 27a, and the take-up reel 28a are sequentially arranged along the transfer path. On the other hand, in the high reduction camera 20b, a high reduction lens 21b, a shutter 22b and an aperture slit 23b for slit exposure are arranged as a photographing system, and a supply reel 24 of the film F as a film transfer system.
b, a positioning guide roller 25b, a drive roller 26b serving as an image forming surface, a positioning guide roller 2b7 and a take-up reel 28b are sequentially arranged along the transfer path. Then, the cameras 20a and 20b pass through the glass guide plates 15 and 15a, respectively, and the respective lenses 21a and
The film surface on the drive rollers 26a and 26b is slit-exposed by 21b.

In the operation of this embodiment having the above-described structure, when the subject P is transported by the transport rollers 2 and 2a and the front end of the subject sensor 12 is detected, the timer for the camera 20a and the timer for the camera 20b respectively operate. The time corresponding to the distance to the exposure unit of is set and the subtraction is started. The time from when the subject sensor 12 detects the front end to when the rear end is detected is compared with reference data set in advance, and it is determined whether the high reduction ratio photographing or the low reduction ratio photographing. In this case, if it is determined that the reduction ratio is low, the timer for the camera 20a is reset, removed from the shooting standby state, and the camera 20b is selected. Therefore, the front end of the subject P is the conveyance rollers 4, 4a.
When reaching the glass guide plate 15 on the right side of the film, the film F is driven by the driving roller 26a at a speed which is a fraction of the object speed. At the same time, the shutter 22a is opened by a plunger or the like (not shown), a subject image is formed on the film surface as described above, and slit photographing is performed. The film F having been photographed is taken up by the take-up reel 28a, and the film F and the shutter 22a operate for the length of the subject P obtained by the subject sensor 12 and then stop. The subject P that has passed through the image capturing unit of the camera unit 20a passes through the transport rollers 5 and 5a, passes through the image capturing unit of the camera unit 20b that does not operate, and is moved upward by the sorting gate 16 on the right side (downstream side) of the drive rollers 6 and 6a. The stocker 10 is stocked. In addition, when a long subject P is photographed, the camera unit 20
b is selected and stocked in the lower stacker 10a.

By performing the above-described operation, for example, checks, slips, etc. are automatically photographed by the camera unit 20a on the upper stacker 10, and large objects such as sentences are photographed by the camera unit 20b on the lower stacker 10a. Each is stocked. As a result, it is possible to use a compact camera that is easy to use because the images are automatically classified according to the magnification of the camera.

2 and 3 show a second embodiment of the present invention in which a flat-bed camera having a high reduction ratio and a low reduction ratio is used. In the figure, 30a is a static exposure camera unit set to a low reduction ratio, and 30b is a static exposure camera unit set to a high reduction ratio. Reference numerals 31, 32, 33, and 35 denote upper rollers sequentially arranged along the object transporting path, which are paired with the lower driving rollers 31a, 32a, 33a, and the lower roller 35a, respectively. The drive belt 34 is hung on the reference numeral 35a, and the camera portions 30a, 30
b is provided. 36 and 36a are rollers 3 respectively
The upper discharge roller and the lower discharge drive roller are arranged on the downstream side of 5, 35a. And rollers 31-33 and 3
An upper guide plate 37 and a lower guide plate 37a are provided between 1a to 33a, and rollers 35, 35a and roller 3 are provided.
An outlet guide plate 38 is provided between 6 and 36a, and a glass flat guide 39 is provided on the upper surface side of the drive belt 34. Reference numeral 40 is a reflective shade, and 41 is a light source for illumination, each of which has a pair of left and right, and illuminates a glass flat guide 39 which is a photographing surface. 42 is a stacker, P1 indicates a small subject, and P2 indicates a large subject.
Further, 43 is a lower guide plate 3 between the rollers 31a and 32a.
Reference numerals 44 and 45 denote position sensors provided on the drive belt 34 side in the photographing areas of the camera units 30a and 30b, respectively.

In the present embodiment having the above-described structure, first, the drive roller 31a is driven with a clutch (not shown) for connecting and disconnecting power transmission, and rotates when the subject is not present in the glass flat guide 39. There is. When a subject is placed between the rollers 31 and 31a, the subject sensor 43 checks the length of the subject. This is calculated as the product of the object transport speed and time. The subject passing through here stops at the lower part of the camera unit 30a or 30b depending on its length. When it is determined that the length is long by the subject detection by the subject sensor 43, when the position sensor 45 is reached, all the drive rollers are stopped. Then, the camera unit 30b takes an image. After shooting, the drive rollers 33, 35, the drive belt 34, and the discharge drive roller 3 are again provided.
6 rotates and is discharged to the stacker 42. The discharging section may use a sorting stacker as shown in FIG. Further, when the length of the subject is detected by the subject sensor 43 to be short, all the driving rollers are stopped when the tip of the subject reaches the position sensor 44. Therefore, the camera unit 30a takes an image. After the photographing, the sheet is discharged to the stacker 42 like the long subject P2.

When the long subject and the short subject are of a fixed form, the subject may be discriminated by the subject width as shown in FIG. That is, in the figure, 43a, 43b,
43c and 43d are width direction detection sensors, P3 is a wide object, P4 is a small object, and the state in which the object P3 is conveyed by the upper roller 31 is P3 ', and the object P4 is conveyed by the upper roller 31. The state that has been set is P4 '. Therefore, in the case of P4 ', the sensors 43c and 43d detect, and the sensors 43a and 43b do not detect, and in the case of P3', all the sensors 43a to 43d detect, so that the width is detected. After that, P4 'reaches the position of AE and the sensor 4
Similarly, P3 'reaches the position of BE and stops at the sensor 45. In this way, since the subjects of different forms are automatically and separately photographed, a convenient and compact photographing device can be constructed. Then, in the case of a flat-bed camera, by overlapping the camera units 30a and 30b,
The size is further reduced, and the static exposure provides higher resolution than the slit exposure.

FIG. 4 shows a third embodiment of the present invention.
The image reading device is composed of an image conversion unit having a different reduction ratio, which is composed of an image electric conversion element such as a line CCD. In the figure, reference numerals 50a and 50b denote the same image conversion units, which are vertically symmetrically arranged with respect to the subject transport path. Therefore, the lower image conversion unit 50b will be described.
The reflected light of the subject P illuminated by the illumination device 72 through the lower guide glass 71b passes through the high reduction shutter 51b and is bent by the reflection mirror 52b, and the high reduction lens 53b.
Is reflected by the left side of the prism 57b and imaged on the electric conversion element (CCD) 58b, while the reflected light of the subject P illuminated through the lower guide glass 71b 'passes through the low reduction shutter 54b and is reduced. The reduction lens 55b reflects the light on the right side of the reflection mirror 56b and the prism 57b to form an image on the electric conversion element (CCD) 58b. here,
The difference between the reduction ratios of the lenses 53b and 55b is such that when there are two recording areas in the width direction, this area is the entire effective area of the CCD.
b and 54b do not operate at the same time.

Next, the subject P is sequentially fed into the main body of the apparatus by the entrance guide plate 61, the feeding roller 62, and the reverse separation roller 63 which constitute the automatic paper feeding device. The sent subject P passes between the upper guide plate 64 and the lower guide plate 64a, and is further transported to the downstream side by the transport rollers 65, 65a, while the subject detection sensor 60 detects the presence or absence of the subject and the length of the subject. Therefore, when the subject P having a long length, which is divided into two by the detected length, passes through the shutter 5,
1b operates, and when the short subject P passes, the shutter 54b operates, and when passing through the lower guide glass 71b ', an image is formed on the electrical conversion element 58b for the transit time of the subject P and is electrically converted. It At this time, the image conversion unit 50a also operates at the same time. However, when there is no image on the back surface of the subject, only the image conversion unit 50a is operated and the image conversion unit 50b is not operated. Subject P after image conversion
Is transported by the transport rollers 66, 66a and discharged by the discharge section rollers 67, 67a. A sorting guide 73 configured to be vertically rotatable by a plunger 73a is provided on the discharge side, and when the subject P1 is short, the sorting guide 73 faces downward as shown in the figure according to the data from the subject detection sensor S1. , The subject P1 is guided upward. Then, the subject P1 guided upward is fed by the delivery rollers 68, 68a to the short subject stacker 74.
It is loaded on a. On the other hand, in the case of a long subject P2, the sorting guide 73 rotates upward to guide the subject P2 downward, and the conveying belt 69, the roller 70a, and the pressing roller 70.
And is loaded on a long subject stacker 74b.

With the above configuration, for example, an A4 size sentence as a long subject, a check, a slip, etc. as a short subject can be sorted by the same number of elements and written in the memory. Therefore, different subjects can be efficiently written to the memory with the same element bit data, and at the same time, the memory can be efficiently sorted according to size. Further, not only in the case of only the text or only the slip, but also the mixed subjects and the like are automatically sorted and the files are also automatically sorted, so that the search efficiency is greatly improved. Further, it is possible to efficiently record even when the device of this embodiment is used in cooperation with two or more places.

FIG. 5 shows a fourth embodiment of the present invention.
Two rotary microfilm cameras with the same reduction ratio are used. In the figure, reference numerals 80a and 80b denote microfilm camera units, which have the same reduction ratio and are arranged on the left and right sides, and therefore the configurations thereof are indicated by the same reference numerals, and the operation thereof is performed on one side.
Only a will be described. 81 is a reel on the supply side of the film F,
Reference numeral 82 is a pair of guide rollers, 83 is a drive roller for performing slit photographing and transferring the film at a synchronous speed, 84 is a take-up reel for winding the exposed film, 8
5 is a slit for slit exposure, 86 is a shutter,
87 denotes an image forming lens. Reference numeral 88 is a prism (may be a reflecting mirror) for dividing the optical path, and is configured so that the same image can be taken by the camera units 80a and 80b when the same subject passes through the same passage. Reference numerals 89 and 89a denote reflecting mirrors for increasing the efficiency of illumination light and preventing unnecessary light from irradiating the camera unit, and 90 and 90a are light sources for illuminating an object. 91 is a feeding table on which the subject P is placed,
92, 92a, 94, 94a, 96, 96a, 99, 9
Reference numeral 9a denotes a pair of transport rollers arranged along the subject transport path. Upper and lower guide plates 93, 93a are provided between the pair of transport rollers 92, 92a, 94, 94a, and the pair of transport rollers 94, 94.
Upper and lower guide plates 95, 95a provided with a slit in the central portion between a, 96, 96a
An upper glass guide plate 97 and a lower guide plate 98, which serve as an exposure aperture portion, are provided between 99 and 99a. A pair of discharging rollers 100 and 100a includes a roller 99a also serving as a driving roller and a belt 101 that is wound around the roller 100a, and an upper guide plate 102 is disposed above the belt 101. Reference numeral 103 is a stacker for stacking discharged objects. Reference numeral 104 is a bar code scanner for decoding the bar code on the subject, and 105 is a reflecting mirror for changing the direction of the scanner, which is arranged above the slits of the upper and lower guide plates 95, 95a.

In the present embodiment having the above structure, the object P
Is a pair of conveying rollers 92, 92a for guiding plates 93, 93
When passing between a, the tip of the subject is detected by a subject sensor (not shown). Next, the subject P is a pair of transport rollers 9.
Upper and lower guide plates 95, 95a transported by 4, 94a
At the position of the slit, the bar code information on the subject is read in a timely manner, and which of the camera units 80a and 80b is used for photographing is selected. When the selected subject P reaches the position of the glass guide plate 97, the shutter 86 of the required camera unit 80a or 80b is activated. At this time, the film F is sent by a fixed amount according to the subject P and is exposed. The subject P is conveyed without stopping during this time, lifted by the belt 101, and stacked on the stacker 103. As described above, in the present embodiment, a series of images can be taken without the need to edit the film by automatically switching the camera for taking an image according to the number or classification of the bar code on the subject P. In addition, a slip between two copies can be automatically photographed separately by inserting a division into the bar code.

FIG. 6 shows a fifth embodiment of the present invention.
It is a combination of a microfilm camera and an image reading device having an electric conversion element. In the figure, 110 is a microfilm camera, 111 is a supply reel of the film F, 112 and 114 are guide rollers, and 113 is a film drive roller, and a reduced image of a subject is slit-exposed at the wound portion. It becomes the exposure section. Reference numeral 115 is a take-up reel for the exposed film. The film F is smoothly driven at the reduction ratio of the object transport speed by applying back tension to the supply reel 111 side and tension to the take-up reel 115 side in the winding direction according to the rotation of the drive roller 113. . Reference numeral 116 is a slit, 117 is a shutter, and 118 is a projection lens, which forms a subject image on the film F on the drive roller 113. 120 is a bar code scanner or O
A CR scanner, 121 is a reflecting mirror for converting the direction of the scanner 120 into the subject direction. 122, 122a
Is an illuminating light source that illuminates the subject photographing unit, 123 is a line sensor (electric conversion element), and the subject image of the photographing unit is the reflection mirror 1
25, an image is formed via the condenser lens 124.

Reference numeral 131 is a subject guide for loading the subject P, 132 is a feeding roller, and 133 is a reverse separation roller.
It constitutes an automatic paper feed mechanism. Reference numeral 134 denotes a reflection type object detection sensor, 135, 135a, 136, 136a, 13
Reference numeral 8 and 138a denote a pair of conveyance rollers arranged along the subject conveyance dew so that the scanner 120 reads the barcode on the subject P between the conveyance rollers 135 and 136, and the subject is photographed between the conveyance rollers 136 and 138. An upper glass guide 137 that serves as a part is provided. 139 is a stacker. In the present embodiment having the above-described configuration, the subject P separated by the feeding roller 132 and the separation roller 133 one by one from above is detected by the subject detection sensor 134, and is further conveyed by the conveyance rollers 135 and 135a. When the scanner 120 separates the information in a specific portion of the subject, and then the subject P transported by the transport rollers 136, 136a passes under the upper glass guide 137, it is illuminated by the illumination light sources 122, 122a. Therefore,
When the subject P is photographed on the microfilm according to the conditions classified in advance, the shutter 1 of the camera 110 is
17, the film driving roller 113 is driven by a driving system (not shown) to perform slit exposure. Also, on the other hand,
When the classification is separated from the line sensor by the scanner 120, an image is formed on the line sensor 123 via the reflecting mirror 125 and the condenser lens 124, extracted as an electric output, image-processed, and recorded in a memory (not shown). It

FIG. 7 shows a sixth embodiment of the present invention.
Only the separated part and the recorded part are shown. In the figure, 141,
141a, 142, 142a, 143, 143a are a pair of transport rollers provided along the subject transport dew. A condenser lens 1 is provided between the conveying roller pairs 141, 141a and 142, 142a with a conveying path interposed therebetween for detecting front and back images of a subject.
52a and the front surface sensor 151a, the condenser lens 152b and the back surface sensor 151b are provided, and the conveying roller pair 142, 1 is provided.
Upper glass guide 14 is provided between 42a and 143, 143a.
4 and a lower glass guide 144a are provided, and an upper line sensor 145a for forming an image with the condenser lens 146a and a lower line sensor 145b for forming an image with the condenser lens 146b are provided on the upper and lower sides, respectively.

In this embodiment having the above-described structure, when the object is conveyed, the amount of reflected light on the surface of the object illuminated by an illumination system (not shown) is checked by the surface sensor 151a, and the amount of reflected light on the rear surface is also determined. Check with the back surface sensor 151b. It is determined whether the character image information is on the front surface or the back surface based on the change in the reflected light amount of both the sensors 151a and 151b. Based on this determination, the line sensors 145a, 1
Either one of the images formed at 45b is taken out and recorded in the memory as image information.

[0024]

As described above, according to the present invention, a method and a mode for automatically classifying and recording a subject by means such as discrimination based on the size, length and width of the subject or reading information on the subject are automatically performed. By making the selection possible, it is possible to eliminate the conventional troublesome work such as replacement of the camera unit or replacement of the scanner. Also, not only can one unit automatically perform the work of many sections, but it also eliminates erroneous files and allows files to be performed neatly. Furthermore, it is possible to perform recording with an appropriate reduction ratio or resolution according to the size of the subject.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of a sorting recording device in which rotary type cameras having different reduction ratios according to a first embodiment of the present invention are combined.

FIG. 2 is a schematic configuration diagram of a classification recording device that is a combination of flat-bed cameras with different reduction ratios according to a second embodiment of the present invention.

FIG. 3 is a top view of relevant parts showing an example of determining the subject width direction.

FIG. 4 is a schematic configuration diagram of a classification recording device in which image reading devices with different reduction ratios according to a third embodiment of the present invention are arranged on the front and back sides.

FIG. 5 is a schematic configuration diagram of a classification recording device using two rotary cameras having the same reduction ratio according to a fourth embodiment of the present invention.

FIG. 6 is a schematic configuration diagram of a classification recording device in which a rotary camera and an image reading device according to a fifth embodiment of the present invention are combined.

FIG. 7 is a main part configuration diagram of a classification recording unit having a subject classification unit according to a sixth embodiment of the present invention.

[Explanation of symbols]

P ... object, P1 ... short object, P2 ... long object, P3 ... wide object, P4 ... small object, 1
0 ··· Low reduction subject stacker, 10a · · High reduction subject stacker, 12 · · Subject sensor, 16 · · Sorting gate, 20 · · Low reduction camera unit, 20a · · High reduction camera unit, 30a ·・ Low-exposure still exposure camera unit, 30b ・
・ High reduction static exposure camera unit, 43 ・ ・ Subject sensor,
44, 45 .. Position sensor, 50a, 50b .. Image converter, 53b .. Lens for high reduction ratio, 55b .. Lens for low reduction ratio, 60 .. Subject detection sensor, 73 ..・ Stacker for short subjects, 74b ・ ・ Stacker for long subjects, 80a, 80b ・ ・ Camera unit for microfilm, 104 ・ ・ Bar code scanner, 1
10 ... Micro film camera, 120 ... Bar code scanner or OCR scanner, 123 ... Line sensor, 134 ... Subject detection sensor, 145a ... Top line sensor, 145b ... Bottom line sensor, 151
a ... front surface sensor, 151b ... back surface sensor.

Claims (9)

[Claims] 1. A classification recording apparatus having a plurality of photographing units, wherein a subject identification unit is provided, and the photographing units are automatically switched by the subject identification unit. 2. The classification recording apparatus according to claim 1, further comprising a plurality of stackers capable of classifying the photographed subjects into classifications corresponding to the photographed sections. 3. The classification recording apparatus according to claim 1, wherein the subject identifying means identifies by the length in the subject transport direction. 4. The classification recording apparatus according to claim 1, wherein the subject identifying means identifies a size in a direction perpendicular to the subject carrying direction. 5. The classification recording apparatus according to claim 1, wherein the subject identifying means is a bar code scanner. 6. The classification recording apparatus according to claim 1, wherein the subject identifying means is a character identifying system. 7. The subject identifying means is a system for identifying the presence / absence of character graphics on the front and back of the subject.
Alternatively, the separation recording device according to item 2. 8. The classification recording apparatus according to claim 1, wherein the photographing section is an image electric signal converting section. 9. The classification recording apparatus according to claim 8, wherein the signal input to the image-electrical signal conversion unit is automatically recorded in a file for each classification.