JPH0667298A - Photograph forming device - Google Patents

Abstract

PURPOSE:To check the size of a face from a face image on a monitor so as to form a photograph wherein the face image is of a standard size. CONSTITUTION:A lens cluster 29 consists of four photographic lenses 29a-29d and a monitor lens 29e arranged in the center among them. A total reflecting mirror 34 and an image area sensor 33 which reads out the face image reflected by the total reflecting mirror 34 are provided behind the monitor lens 29e. An image processing part 36 composes an image picked up by the image area sensor 33 and the index 40 of an index signal generation part 37 and displays the composite image on a CRT 31. The face size is decided from the face image and index displayed on the CRT 31 and the photographing position is changed. The photographing position is variously changed within the focal depth of the photographic lenses 29a-29d to vary the image magnifications and the face image is put in the photograph at a proper position with a proper size.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for producing photographs used for certifying passports, licenses and the like, and more particularly to an apparatus for producing photographs in which a face image has a standard size. is there.

[0002]

2. Description of the Related Art Recently, with the introduction plan of a machine-readable passport (MRP), a standard for photographs to be submitted at the time of applying for a passport is being considered. According to this new standard, as shown in FIG. 2, the size of the photograph is 45 mm in length A and 35 mm in width B. The size of the face image on the photo (length from the chin to the top of the head) C is 25-
29mm, length D from the left edge of the photo to the center of the face image is 16 ~
19mm, the length E from the top of the photo to the top of the head of the face image
It is 5 to 9 mm.

A conventional photographic production apparatus is disclosed in JP-A-1-193.
As described in Japanese Patent No. 824, it is composed of a photography room and a photo production room. The person to be photographed sits on a chair in the photographing room and adjusts the height of the chair so that the eyes of his / her own face reflected in the photographing window substantially coincide with the eye marks on the photographing window.
After adjusting the height of this chair, insert a specified number of coins,
When the start button is operated, the device in the photo production room is activated and the photo is taken automatically. By this photography, for example, a photograph in which a face image of four frames is recorded by the lens clusters arranged in two rows and two columns is produced.

[0004]

However, since the conventional photographic production apparatus is not designed in consideration of the above-mentioned standard, when the face is too small or too large,
There is a drawback that the size of the face image is all outside the standard.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a photographic production apparatus capable of producing a photograph in which a face image has a predetermined standard.

[0006]

In order to achieve the above object, in the invention according to claim 1, an image pickup means for picking up a face of a photographed person, an index for judging the picked up face image and face size. And a monitor for displaying and. According to the second aspect of the invention, the monitor is provided with an index for determining the face size. The index consists of a reference line for matching the chin and multiple judgment lines that indicate the position of the top of the head according to large, medium, and small face sizes. You can know the size.
Based on this face size, the position of the chair or headrest is manually or automatically shifted back and forth to shift the image magnification so that the face image falls within the standard. Alternatively, the photographing optical system is adjusted according to the face size. For example, converter lenses may be inserted before and after the lens cluster, or the subject distance may be changed by moving the photographing exposure unit.

In the invention according to claim 4, the reference line is constituted by two lines for aligning the chin and the top of the head, and the chair or headrest is moved back and forth manually and automatically along the optical axis direction of the taking lens. Move and align the face image with the reference line on the monitor.

[0008]

[Example] In order to make a face image satisfy the passport photo standard, the image magnification on the photo may be changed according to the face size. When we studied the adjustment of this image magnification, the focal length of the lens cluster currently in use f = 117 mm, the lens magnification
In the case of 0.11 times, as shown in FIG. 3, it was found that the distance from the reference position to about 10 cm forward and about 15 cm behind was within the depth of field. If you change the subject position within this depth of field,
Up to 21 cm-29 cm face size, you can get pictures according to the standard,
I was able to confirm that I was able to shoot with the subject in focus. To change the position of the subject, it is first necessary to know the face size of the subject.

FIG. 4 shows a photograph making apparatus capable of determining the face size of a subject by using a monitor. The interior of the photo production device 10 is divided into a photography room 12 and a photo production room 13 with a partition wall 11 interposed therebetween, and an outer wall beside the entrance of the photography room 12 is provided with cosmetics for confirming personal appearance. A mirror 14 is attached. A black-and-white or color CRT 31 is attached to the partition wall 11, and a face image is displayed when the face size is determined.

As shown in FIG.
A magazine 21 is provided which contains a photosensitive material 20 for heat development in a roll form. The roll-shaped photosensitive material 20 is pulled out from the magazine 21 by a pair of pull-out rollers 22 for one photographing, and is cut by a cutter 23. The sheet-shaped photosensitive material 20a is conveyed to the photographing exposure section 24 before photographing. At the time of photographing, the strobe device 26 arranged on the photographing window 25 operates to illuminate the person to be photographed through the diffusion plate 26a. The photographing exposure section 24 is provided with an exposure frame 27, a shutter device 28, and a lens cluster 29, and exposes a person image on the sheet-shaped photosensitive material 20a.

The lens cluster 29 is arranged in two rows vertically and horizontally, and four small lenses for photographing 29a to 29 having the same focal length.
d and the monitor small lens 29 arranged at the center of these
e (see FIG. 11) and a lens board 32 that holds the small lenses 29a to 29e so that the optical axes L1 to L5 thereof are parallel to each other. Four small lenses 29a to 29d
Imprints the face image of the subject on the photosensitive material 20a.

As shown in FIG. 1, a small lens 29 for a monitor.
Behind e, there is provided a total reflection mirror 34 which makes the subject light incident therethrough enter the image area sensor 33. The video signal output from the image area sensor 33 is sent to an image processing unit 36 that performs gradation and color correction and image combination. The image processing unit 36 includes an index signal generation unit 37 that generates a video signal of the index 40.
Are connected, and the video signal of the index 40 and the image signal of the face from the image area sensor 33 are combined, and this combined signal is sent to the CRT 31. When the coin insertion signal is input, the controller 39 comprehensively controls the image processing unit 36 and the index signal generation unit 37 to display a monitor on the CRT 31. Further, when a start signal is input from the start button 58, control is performed so that shooting is performed after a certain time has elapsed.

The index 40 includes a reference horizontal line 40a for fitting the jaws and four horizontal lines 40b to 40b provided above the reference horizontal line 40a.
40e, and three vertical areas partitioned by these horizontal lines 40b to 40e, in order from the bottom, composed of characters 40f of "S", "M", and "L" indicating the size range of the face. There is.

The horizontal line 40b has a face size of the photographed person of 19
In the case of cm, the image of the top side of the head displayed on the CRT 31 is displayed so as to be positioned. The horizontal line 40c corresponds to 22 cm, the horizontal line 40d corresponds to 27 cm, and the horizontal line 40e corresponds to 30 cm. Therefore, in the case of "S", the face size is 19-
If the size is less than 22 cm or "M", the face size is less than 22-27 cm,
In the case of "L", the face size is less than 27 to 30 cm.

In this way, the range of face size can be known from the position of the top of the face, with the chin displayed on the CRT 31 being aligned with the reference horizontal line 40a during monitoring. Figure 1
In the example, since the image of the top of the head is between the horizontal lines 40b and 40d, it can be seen that the face size is “M”. The index 40 uses the chin position as a reference and determines the face size from the position of the top of the head, but conversely, an index based on the top of the head may be used. In addition, "S",
Instead of the "M" and "L" characters 40f, each horizontal line 40
You may display the dimensional scale showing the length of the face beside b-40e.

The photographing room 12 is provided with a chair 43 and a photographing position index 45 described on a side wall 44 at the back of the chair 43. The shooting position index 45 is obtained by dividing the adjustment range of the shooting distance into three areas, and a character 45a corresponding to the character 40f representing the size of the face is displayed in these areas. The person to be photographed sits on the chair 43 so that the face is located in a predetermined area according to the size of the face.

Since the photo-making room 13 is a dark room,
The photographing window 25 provided on the partition wall 11 acts as a mirror, on which the face of the person to be photographed is projected, and the photographing window 25
A line 46 (see FIG. 6) showing the position of the chin of the person to be photographed in the photographing window 25 when seated is written on both sides of the line. The height of the chair 43 can be adjusted by rotating the buttocks 43a with respect to the support shaft 43b fixed to the photographing room 12. As a result, the person to be photographed adjusts the height when seated so that his / her chin shown in the photographing window 25 is aligned with the line 46. Note that the line 46 may be written at the position where the eyes are fitted instead of being written at the position where the chin is fitted.

The photographic material 20a after the photographic exposure is coated with a small amount of water in the water coating section 48, and then the image receiving material accommodating section 49.
It is sent to the heat developing section 51 together with the sheet-shaped image receiving material 50 sent from. In the heat developing section 51, the photosensitive material 2
The image of the photosensitive material 20a is transferred to the image receiving material 50 by heating the image receiving material 0a and the image receiving material 50 in close contact with each other.
The photosensitive material 20a and the image receiving material 50 after the heat development transfer are separated from each other at the separating and taking-out portion 52, and the image receiving material 50 showing a positive image is discharged as a photograph 50a to the taking-out port 54, and the photosensitive material 20a is disposed in a waste box. Discarded in 55. In the taken-out photograph 50a, as shown in FIG. 7, face images having the same image magnification are shown in four frames of the same size partitioned in a matrix.

Next, the operation of the above embodiment will be described.
First, grooming is adjusted by the mirror 14 attached to the entrance of the photographic production apparatus 10 and the photograph room 12 is entered. Shooting room 1
In step 2, first, the user sits on the chair 43 and looks at the photographing window 25 to check whether or not the image of the jaw matches the line 46. If the image of the chin is higher than the line 46, the buttocks 43a
Turn to adjust the height of the chair 43.

When a coin is inserted into the coin insertion slot 57, a coin insertion signal is sent to the controller 39. When the coin insertion signal is input to the controller 39, the image processing unit 36 and the index signal generation unit 37 are activated, and the CRT 31
The face image and the index 40 are displayed on the screen. The image of the chin displayed on the CRT 31 is in a state of matching the reference horizontal line 40a because the height of the chair 43 is adjusted, and the person being photographed has the head displayed on the CRT 31 while sitting on the chair. A character 40f, for example, "S", corresponding to the range in which the image of the top of is located is read.

The person to be photographed has an index 4 drawn on the lateral side wall 44.
Adjust the position of the face so that the face fits 7. In this state, looking at the photographing window 25, it is confirmed again whether or not the image of the jaw matches the line 27. After that, when the start button 58 is operated, a start signal is input to the controller 39, and after a certain period of time has elapsed, shooting is started. Since the photosensitive material 20a that has been pulled out from the magazine 21 and cut into a sheet shape is preset in the photographing exposure section 24, when the photographing is started, the photosensitive material 20a is printed on the photosensitive material 20a.
Individual face images are captured. After the addition of water, the photosensitive material 20a is superposed on the image receiving material 50 and thermally developed. This heat-developable image receiving material 50 is sent to the take-out port 54 as a certification photograph 50a. By changing the shooting distance within the depth of field for each frame of this certification photograph 50a,
A face image conforming to the standard is captured.

In the above embodiment, the subject position is adjusted while watching the photographing position display 45 on the wall of the photographing room 12. However, as shown in FIG. You may use the elongate string 60 which attached the knots 60a-60c to the position. One end of the string 60 is fixed to the partition wall 11 below the photographing window 25, and the seated photographed person 61 puts one of the knots 60a to 60c on the chest, and along the optical axes L1 to L5. Chair 62
Adjust the position of. The chair 62 comprises a height-adjustable buttocks 62a and a screw cylinder 62b, and a horizontal mounting plate 63 is fixed to the lower end of the screw cylinder 62b.
A pair of sleeves 64 are fixed to both ends of the mounting plate 63, and the sleeves 64 are slidably fitted to two guide rods 65 arranged in parallel. In addition,
In the case of this example, it is desirable to display an index indicating the position of the chair 62 when determining the face size on the side wall 44.

FIG. 9 shows an example in which the chair 62 is automatically moved to adjust the subject position. In this example,
Selection buttons 77 to 79 for inputting the size of the face obtained from the display of the CRT 31 are attached to the side wall 44. When any one of these selection buttons 77 to 79 is pressed, a signal is input to the control unit 81. The control unit 81 controls the rotation direction and the rotation amount of the motor 82, and rotates the screw shaft 84 via the gear 83. A nut 85 is screwed onto the screw shaft 84. A guide rod is arranged parallel to the screw shaft 84, and a sleeve is slidably fitted therein. A mounting plate 63 similar to that shown in FIG. 8 is installed on the sleeve and the nut 85.

The controller 39 is activated by a coin insertion signal.
First, the controller 81 is controlled to move the chair 62 to the reference position. In this state, the face image is displayed on the CRT 31, and the face size is determined by looking at it. After that, if any one of the selection buttons 77 to 79 is operated according to the face size, the motor 82 is rotated and the nut 85 is moved back and forth via the screw shaft 84. The movement of the nut 85 causes the chair 62 supported by the screw shaft 84 and the guide rod to move back and forth toward a position corresponding to the face size. It should be noted that the chair 62 may be automatically returned to the reference position at the end of photographing.

FIG. 10 shows an example in which the headrest is moved in the optical axis direction according to the face size instead of the chair. Behind the headrest 87, a tip of a screw shaft 88 is rotatably attached, and a slide rod 89 is fixed. The screw shaft 88 is adapted to be screwed into a nut 91 fixed to a wall 90 and rotated by a motor 93 via a gear 92 fixed to the rear end thereof. A slide rod 89 for preventing the headrest 87 from rotating is slidably fitted in a hole of the wall 90.

In this example, since the headrest 87 is set at a position corresponding to the face size, this headrest 8
By hitting 7 on the head, the size of the face image is adjusted. Here, the headrest 87 needs to have a size that does not appear in the photograph. If the same color as the wall 90 is used, there is no problem even if the headrest 87 is slightly protruding from the head. Also in the case of this example, the headrest 87 is moved to the reference position when the face size is determined.

As another example of adjusting the size of the face image, there is a method of adjusting the photographing optical system. As shown in FIG. 11, the camera housing 100 of the photographing exposure unit 24 is supported by a feed screw 101 and a guide rod 102, and when the feed screw 101 is rotated by a motor 103, the housing 100 moves to the optical axes L1 to L5. Move in the direction. Reference numerals 29a to 29d are small lenses for photographing, reference numeral 29e is a small lens such as a monitor, and reference numeral 104 is a lens board. Camera housing 10 depending on face size
Since 0 moves in the direction of the optical axes L1 to L5 together with the lens cluster 29 and the photosensitive material 20a, the size of the face image can be changed within the depth of field. Also in the case of this example, when determining the face size, the camera housing 100 is moved to the reference position.

In the example shown in FIG. 12, three types of lens clusters 110 to 112 in which the focal lengths of the photographing small lenses are different according to the face size are selected and used. The specifications of the three types of lens clusters 110 to 112 are as follows.
a to 110d has a focal length f = 117 mm, and lens cluster 1
Each of the photographing small lenses 111a to 111d of 11 has a focal length f = 128.6 mm, and each of the photographing small lenses 112a to 112d of the lens cluster 112 has a focal length f = 104.71 mm.
Then, in each of the lens clusters 110 to 112, 4
Small lens for monitor 2 in the center of the two small lenses for shooting
9e are provided respectively. By using these three types of lens clusters 110 to 112, as can be seen from the graph shown in FIG. 13, it is possible to imprint a face having a size of 19 to 30 cm in a size according to the standard.

The lens clusters 110 to 112 are attached to the plate 113. This plate 11
3 is movably supported by a feed screw 114 and a guide rod 115. The motor 116 receives a signal from the control unit 81.
When the plate rotates, the lead screw 114 causes the plate 113 to rotate.
Moves in the direction of the arrow, a desired lens cluster is selected, and a person image is transferred to the photosensitive material 2 by this lens cluster.
It is exposed to 0a. Note that the type of lens cluster is not limited to three types, and for example, four types of lens clusters to which a lens cluster with a focal length f = 139.63 mm is added as shown by a chain line in FIG. 13 may be used. Good. In this case, a face with a size of 18.5 to 30 cm can be imprinted according to the standard.

The example shown in FIG. 14 is behind the master lens cluster 120 and the small lens 120 for photographing.
Two types of converter lens clusters 121 and 122 are provided on the optical axes L1 to L4 of a to 120d so that they can freely move in and out. Lens cluster 121 for each converter,
122 is a small lens for photographing 121a to 121d, 122
It has a to 122d. A master lens cluster 120 and two types of converter lens clusters 121,
Any one of 122 and 122 can be combined to form three photographing optical systems.

Lens cluster 12 for these converters
1, 122 are provided on the panel 123 and move in a direction orthogonal to the optical axes L1 to L5 by the rotation of the motor 126. Note that reference numeral 127 is an aperture, and when only the master lens cluster 120 is used, the optical axis L1
~ Set on L4. Reference numerals 121e and 122e are apertures, and when the master lens cluster 120 and any one of the two types of converter lens clusters 121 and 122 are combined, the monitor photographing lens 29e.
Is located on the optical axis L5.

As another example of adjusting the photographing optical system, each photographing small lens of the lens cluster is a zoom lens, and these zoom lenses are driven by one motor,
The focal length may be converted according to the face size.

FIG. 15 shows another example of the index displayed on the CRT 31. The index 130 is composed of two lines 130a and 130b for aligning the chin and the top of the head. While observing the CRT 31 during imaging, the person to be photographed adjusts the subject position so that the images of the chin of the face image and the top of the head match the lines 130a and 130b, respectively. As a method of adjusting the subject position, as shown in FIGS. 8, 9 and 10, the chair 62 or the headrest 8 is used.
7 is moved manually or automatically.

In the photograph producing apparatus described in the above embodiment, a photograph in which a face image is imprinted in a 2 × 2 matrix arrangement is produced, but photographs imprinted in four vertical columns are produced. May be. Also, as a monitor, a CRT
Although 31 is used, a liquid crystal display may be used. Further, in the hope of a CRT and a liquid crystal display, a judgment line may be provided with black tape or the like. By doing so, the index signal generator 37 can be omitted.

[0035]

As described above in detail, according to the present invention, the image pickup means for picking up the face of the photographed person, the picked-up face image and the index for judging the face size of the photographed person are provided. Since the monitor for displaying is provided, by observing the monitor, the person to be photographed can easily know his / her face size, and thereby, it is possible to obtain a photograph conforming to the standard.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a main part of the present invention.

FIG. 2 is an explanatory diagram showing standard dimensions of a face image on a photograph.

FIG. 3 is a graph showing the correlation between the size of the face of the person to be photographed and the size of the face image.

FIG. 4 is a perspective view showing the external appearance of a photographic production apparatus.

FIG. 5 is a cross-sectional view of a photographic production apparatus.

FIG. 6 is an explanatory diagram of a partition wall viewed from a photographing room.

FIG. 7 is an explanatory diagram showing a photograph produced by a photograph producing apparatus.

FIG. 8 is a cross-sectional view of an application example in which the position of the subject's face is adjusted using a string.

FIG. 9 is a cross-sectional view of an application example in which the position of the chair is automatically changed according to the face size.

FIG. 10 is a cross-sectional view showing an application example in which the position of the headrest is automatically changed.

FIG. 11 is a perspective view showing an application example in which a camera housing is moved to change an image magnification.

FIG. 12 is a perspective view showing an application example in which a plurality of lens clusters are selected to change the image magnification.

FIG. 13 shows the focal length of each lens cluster, the size of the face,
It is a graph which shows the correlation of a face image.

FIG. 14 is a perspective view showing an application example using a lens cluster for a converter.

FIG. 15 is an explanatory diagram showing another example of the index.

[Explanation of symbols]

10 Photographic Equipment 29,110,111,112,120,121,12
2 lens cluster 31 CRT 33 image area sensor 34 total reflection mirror 36 image processing unit 37 index signal generation unit 39 controller 40, 130 index 43, 62 chair 47 shooting position index 50a photo 87 headrest

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[Procedure amendment]

[Submission date] November 2, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0008

[Correction method] Change

[Correction content]

[0008]

[Example] In order to make a face image satisfy the passport photo standard, the image magnification on the photo may be changed according to the face size. When we studied the adjustment of this image magnification, the focal length of the lens cluster currently in use f = 117 mm, the lens magnification
In the case of 0.11 times, as shown in FIG. 3, it was found that about 10 cm forward and about 15 cm backward from the reference position fall within the depth of focus . Approximately 21 cm when changing the subject position within this depth of focus
I was able to obtain the standard photographs up to a face size of ~ 29 cm, and I was able to confirm that I could shoot with the subject in focus. To change the position of the subject, it is first necessary to know the face size of the subject.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0011

[Correction method] Change

[Correction content]

[0011] Lens cluster 29 is arranged vertically and horizontally two rows, lenses 29a~29d for the same four photographing focal length
With, (see FIG. 11) disposed to these central the monitor lenses 29e and the lens board 3 which these optical axes L1~L5 holds the lenses 29a~29e in parallel
It consists of 2. Four lenses 29a~29d is imprint the face image of the person to be photographed on the photosensitive material 20a.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0012

[Correction method] Change

[Correction content]

[0012] As shown in FIG. 1, the monitor lenses 29e
Behind is provided a total reflection mirror 34 that makes the subject light incident therethrough enter the image area sensor 33. The video signal output from the image area sensor 33 is sent to an image processing unit 36 that performs gradation and color correction and image combination. The image processing unit 36 includes
An index signal generation unit 37 that generates a video signal of the index 40 is connected, the video signal of the index 40 and the image signal of the face from the image area sensor 33 are combined, and the combined signal is sent to the CRT 31. When the coin insertion signal is input, the controller 39 comprehensively controls the image processing unit 36 and the index signal generation unit 37 to display a monitor on the CRT 31. Further, when a start signal is input from the start button 58, control is performed so that shooting is performed after a certain time has elapsed.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0021

[Correction method] Change

[Correction content]

The person to be photographed has an index 4 drawn on the lateral side wall 44.
Adjust the position of the face so that the face fits 7. In this state, looking at the photographing window 25, it is confirmed again whether or not the image of the jaw matches the line 27. After that, when the start button 58 is operated, a start signal is input to the controller 39, and after a certain period of time has elapsed, shooting is started. Since the photosensitive material 20a that has been pulled out from the magazine 21 and cut into a sheet shape is preset in the photographing exposure section 24, when the photographing is started, the photosensitive material 20a is printed on the photosensitive material 20a.
Individual face images are captured. After the addition of water, the photosensitive material 20a is superposed on the image receiving material 50 and thermally developed. This heat-developable image receiving material 50 is sent to the take-out port 54 as a certification photograph 50a. A face image conforming to the standard is shown in each frame of the certification photograph 50a by changing the shooting distance within the depth of focus .

[Procedure Amendment 5]

[Document name to be amended] Statement

[Name of item to be corrected] 0027

[Correction method] Change

[Correction content]

As another example of adjusting the size of the face image, there is a method of adjusting the photographing optical system. As shown in FIG. 11, the camera housing 100 of the photographing exposure unit 24 is supported by a feed screw 101 and a guide rod 102, and when the feed screw 101 is rotated by a motor 103, the housing 100 moves to the optical axes L1 to L5. Move in the direction. Reference numeral 29a~29d the lenses for photographing, 29e are lenses for monitor, reference numeral 104 is a lens board. Depending on the face size designation, the camera housing 100
However, since it moves in the direction of the optical axes L1 to L5 together with the lens cluster 29 and the photosensitive material 20a, the size of the face image can be changed within the depth of focus . Also in the case of this example, when determining the face size, the camera housing 100 is moved to the reference position.

[Procedure correction 6]

[Document name to be amended] Statement

[Correction target item name] 0028

[Correction method] Change

[Correction content]

The example shown in Figure 12, in accordance with the face size is obtained by so selecting and using three types of lens clusters 110 to 112 having different focal lengths of photographic lenses. 3 specification of the type of lens cluster 110 to 112, each photographic lenses 110a~ of the lens cluster 110
110d is the focal length f = 117 mm, and the lens cluster 111
Focus the imaging lenses 111a~111d of distance f = 12
8.6mm, each imaging lenses 112 of the lens cluster 112
The focal length f = 104.71 mm is from a to 112d. And
In each of the lens cluster 110-112, four arranged to center the monitor lenses 29e of imaging lenslets are provided. These three types of lens cluster 11
When 0 to 112 are used, as can be seen from the graph shown in FIG. 13, a face having a size of 19 to 30 cm can be imprinted in a size according to the standard.

[Procedure Amendment 7]

[Document name to be amended] Statement

[Name of item to be corrected] 0030

[Correction method] Change

[Correction content]

Further, the example shown in FIG. 14, behind the master lens cluster 120, and imaging lenses 120a
Two kinds of converter lens clusters 121 and 122 are provided on the optical axes L1 to L4 of up to 120d so that they can freely move in and out. Lens clusters 121, 1 for each converter
22, imaging lenses 121a~121d, 122a~
I have 122d. Master lens cluster 12
0 and 2 types of converter lens clusters 121 and 12
It is possible to configure three photographing optical systems by combining any one of the two.

[Procedure Amendment 8]

[Document name to be amended] Statement

[Name of item to be corrected] 0032

[Correction method] Change

[Correction content]

[0032] As another example of adjusting the imaging optical system, each imaging lenses of the lens cluster and a zoom lens, and drives the zoom lens in one motor, the focal length corresponding to the face size May be converted to

[Procedure Amendment 9]

[Document name to be amended] Statement

[Correction target item name] 0034

[Correction method] Change

[Correction content]

In the photograph producing apparatus described in the above embodiment, a photograph in which a face image is imprinted in a 2 × 2 matrix arrangement is produced, but photographs imprinted in four vertical columns are produced. May be. Also, as a monitor, a CRT
Although 31 is used, a liquid crystal display may be used. Further, a judgment line may be provided on the screen of the CRT and the liquid crystal display with black tape or the like. By doing so, the index signal generator 37 can be omitted.

[Procedure Amendment 10]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 1

[Correction method] Change

[Correction content]

[Figure 1]

[Procedure Amendment 11]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 3

[Correction method] Change

[Correction content]

[Figure 3]

[Procedure Amendment 12]

[Document name to be corrected] Drawing

[Name of item to be corrected] Fig. 11

[Correction method] Change

[Correction content]

FIG. 11

[Procedure Amendment 13]

[Document name to be corrected] Drawing

[Name of item to be corrected] Fig. 12

[Correction method] Change

[Correction content]

[Fig. 12]

[Procedure Amendment 14]

[Document name to be corrected] Drawing

[Name of item to be corrected] Fig. 14

[Correction method] Change

[Correction content]

FIG. 14

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshiaki Aono 210 Nakamura, Minamiashigara-shi, Kanagawa Fuji Photo Film Co., Ltd. (72) Inventor Nobuyuki Iwasaki 2-26-30 Nishiazabu, Minato-ku, Tokyo Fuji Photo Film Co., Ltd. Within

Claims (4)

[Claims] 1. A photograph producing apparatus comprising: an image pickup means for picking up an image of a face of a person to be photographed; and a monitor for displaying an imaged face image and an index for determining a face size. 2. An image pickup means for picking up a face image of a person to be photographed, a monitor for displaying the picked up face image, and an index drawn on this monitor for judging a face size. Characteristic photo production equipment. 3. The index comprises a reference line for aligning the chin and a plurality of determination lines indicating the position of the top of the head according to large, medium and small face sizes. The photographic production apparatus according to 1 or 2. 4. The photographic production apparatus according to claim 1, wherein the index comprises two lines for aligning the chin and the top of the head.