JP3286253B2 - Stereo photography system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stereo photographing system comprising a stereo camera, a stereo slide mount and peripheral devices, and more particularly to a stereo photographing system which facilitates mounting work and reproduces a stereo image accurately. It is about.

[0002]

2. Description of the Related Art When mounting a reversal film of two frames of a stereo photograph on a stereo slide mount, it is necessary to pay attention to the positional relationship between the left and right films. Of the film (the degree of influence differs depending on the size, position, color, contrast, etc., and especially the effect of the close-up subject) is positioned at the same position in the left and right screens. It is important to adjust the mounting offset.

[0003] If the film is mounted at an appropriate position, a natural stereoscopic effect can be obtained when viewing with a stereo slide viewer. However, if the position of the subject that most affects the matching does not match on the left and right screens, In addition, the viewer feels discomfort at the time of watching and is accompanied by a remarkable fatigue.

Further, in a pair of left and right reversal films photographed by a stereo camera, non-overlapping portions where the photographing ranges do not coincide with the outer edges of the screens of the left and right films due to the difference in the visibility of the left and right photographing lenses of the stereo camera. Occurs. This non-overlapping portion is a portion where a stereoscopic image is not formed when viewed with a stereo slide viewer, and when a stereo photograph not masking the non-overlapping portion is viewed with both eyes, the other portion is located at the boundary between the overlapping portion and the non-overlapping portion. Vertical lines with overlapping window edges are visible, which detracts from interest. Therefore, in order to prevent this, the window width of the stereo slide mount is formed narrower than the screen width of the film, and the non-overlapping parts are masked so that the subject that most affects the matching of the left and right screens is located in the left and right screens of the stereo slide mount. Is located at a position substantially equal to.

[0005] Since the ratio of the non-overlapping portion to the screen increases as the shooting distance decreases, a plurality of types of stereo slide mounts having different window widths in a stepwise manner are prepared. The film is mounted with a window width that is the same as the mask amount.

However, it is not easy to visually determine the appropriate screen mask amount and offset amount of the film, and there are many stereo slide mounts in which the three-dimensional effect is unnatural due to an inappropriate mounting.

Therefore, there arises a technical problem to be solved in order to provide a stereo photographing system capable of easily determining a mounting position of a film on a stereo slide mount and an appropriate screen mask amount and mounting work. It is an object of the present invention to solve the above problems.

[0008]

SUMMARY OF THE INVENTION The present invention proposes to achieve the above-mentioned object. The present invention is provided with two left and right photographing lenses, and displays an index above or below a pair of left and right screens of a film at the time of photographing. A stereo camera equipped with an exposure device and multiple types of stereo slides with different window widths
Consists of a mounting system comprising a mounting, mount system, Ri window width is different stepwise, the inner edges of the right and left windows of the stereo slide mount and Phil
When the inner edge of the screen of the
Multiple types of stereo with indicators at positions that match the indicators
The slide mount and the window width differ gradually, and the stereo
Outer edges and flanges of the left and right windows of the slide mount
When you match the outer edge of the screen
Multiple types of switches with indicators at positions that match
Consists of a teleo slide mount and a stereo
Outside of film screen depending on slide mount window width
Configured to adjust the amount of mask in the area or inside area
Stereo photo system, and includes an imaging lens of the left and right dual, and a stereo camera having a device for exposing an indicator above or below the pair of right and left pictures of the films at the time of shooting, and the stereo slide mount, the window width is out Strangely different
With multiple types of framing masks
Under or above a pair of left and right windows on the slide mount,
Align the Leo slide mount window with the film screen.
Index that matches the index of the film when
The mounting mask on the film
The film width depending on the window width of the framing mask.
Stereo photography system configured to be able to adjust the amount of mask in the outer or inner area of the surface , and two left and right systems
Equipped with a photographic lens, and a pair of left and right
Vernier scale or main scale scale at the top or bottom edge of the screen
Camera equipped with a device for exposing
System, and the mounting system
A base with a main or vernier scale below or above
Frame and window width equal to film screen width
Window width gradually decreases, and the pitch of the left and right
Multiple types of cover frames equal to the pitch of the window of the frame
And the frame of the base frame.
Use the vernier scale composed of the rum scale and
We have to adjust the installation position of the film, the mounting film
The inner or outer edge of the
Cover that matches the inside or outside edge of the
-By selecting and mounting a frame,
You can adjust the amount of mask on the outside or inside area of the screen
Stereo photography system configured as above
Equipped with a photographic lens, and a pair of left and right
Vernier scale or main scale scale at the top or bottom edge of the screen
Camera equipped with a device for exposing
It consists of a slide mount and a stereo slide mount.
Window width narrower than the film screen width,
Beneath the left and right windows of the base frame of the slide mount.
Or a vernier scale or a main scale scale on the
It consists of a frame scale and a film scale.
Stereo slide mount using a vernier scale
Left and right offset of the film screen with respect to the window
Stereo photography system configured to adjust
The camera has two left and right shooting lenses,
To expose marks on the upper or lower edge of the left and right screen
With a stereo camera equipped with
The distance of the stereoscopic image while viewing the screen of the film
And a window whose window width is smaller than the screen width of the film.
Teleo slide mount and stereo slide mount
Indicators below or above the left and right windows of the base frame
The verification device consists of a projection lens
And the collimation pattern is narrower than the width of the projection screen
The optical system consisting of the reticle and the eyepiece
Arrange two systems, adjust the distance between the left and right projection lens or reticle
A knot mechanism and an interval detection mechanism are provided, and a pair of left and right films
The screen is individually projected on the left and right reticle, and the left and right projection levels are projected.
Adjusting the distance between the lens and the reticle
A projected image that changes the sense of distance to obtain an appropriate three-dimensional effect
It is formed so that the offset amount of the surface can be verified,
The detector detects the off-state detected by the interval detection mechanism of the verification device.
Print position of index of base frame based on set data
The printer has a control unit that corrects the
Index and film printed on stereo slide mount
Mount the film by matching the recorded indices.
By doing so, the stereo slide mount window
The offset amount of the film screen is verified by the verification device
Relative to the offset of the projection screen with respect to the focused reticle
Stereo photography system configured to be equal, and
And see the film screen shot with a stereo camera
The inspection device that can adjust the sense of distance of the three-dimensional image while
Stereo slide mount narrower than film width
And the left and right sides of the stereo slide mount base frame.
From the printer device to print the indicators below or above the window
The verification device is more than the projection lens and the width of the projection screen.
A reticle with a narrow width and a collimation pattern;
Two optical systems consisting of a lens and
Provide a mechanism for adjusting the distance between the shadow lens and the reticle
Projecting the screen of the film individually on the left and right reticle,
To adjust the distance between the left and right projection lenses or reticle
By changing the sense of distance of the three-dimensional image, an appropriate three-dimensional effect can be obtained.
To be able to verify the offset of the projected projection screen
The image sensor above or below the reticle.
Or light spot detector, and check the image sensor or light
Perforations on the edge of the film projected on the dispenser
Or the position of the index previously recorded on the edge of the film.
A printer is provided with a position detection unit for detecting
Perforation detected by the position detector of
Indicates the index in the base frame based on the index position data.
Equipped with a control unit for printing,
Indicators and film perforations
By mounting the film to match the index
The film against the stereo slide mount window.
Focusing plate whose screen offset amount has been verified by the verification device
Relative to the offset of the projection screen with respect to
Stereo photography system configured as
Three-dimensional while viewing the screen of the film taken with the O camera
Inspection device that can adjust the sense of distance between images and film with window width
Thermoplastic slide stereo that is narrower than the screen width
Und and stereo slide mount base frame
Protrusion processing device that processes projections under or above the left and right windows
The verification device consists of a projection lens and the width of the projection screen.
A reticle having a narrower width and a collimation pattern,
An optical system consisting of an eyepiece and two systems are arranged on the left and right,
A right projection lens or reticle spacing adjustment mechanism is provided.
Project the screens of a pair of right films onto the left and right focusing screens individually.
Adjust the distance between the left and right projection lenses or reticle
By changing the sense of distance of the three-dimensional image,
To be able to test the amount of offset on the projection screen where results are obtained
And image area above or below the reticle
Sensor or light point detector, and
Perforations on the edge of the film projected on the spot detector
A position detection unit that detects the position of the
The device consists of a die and a heat plunger.
The position data of the perforation detected by the position detector
Base die by die and heat plunger
The frame is equipped with a control unit that heats and melts the projections.
Of the film on the projections formed on the base frame
Engage the perforations and mount the film
By doing so, the stereo slide mount window
The offset amount of the film screen is verified by the verification device
Relative to the offset of the projection screen with respect to the focused reticle
A stereo photographic system configured to be equal is provided.

[0009]

[0010]

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to the drawings. Note that, for convenience of explanation,
The technical matters to be performed shall be explained at the same time. Claim 1 及
The stereo photographic system described in Paragraphs 2 and 3 comprises a stereo camera having a function of exposing an index to a film at the time of photographing, and a stereo slide mount provided with an index that is an even number with the index of the film.

FIG. 1 shows a state in which a back cover of a stereo camera 1 is removed. In the same manner as a general camera, a 135 type film is loaded into a patrone loading chamber 2 at the left end of the body.
The leading end of the 35-type film is locked to the film winding shaft 3 at the right end, and the film is wound by the film winding shaft 3. A pair of left and right photographing windows 4L are provided between the patrone loading chamber 2 and the film winding shaft 3. , 4R are provided.

A pair of left and right index exposure devices 6L and 6R are disposed on the upper film guide 5 in the film traveling path. The index exposure devices 6L and 6R, like a general data recording device for recording date and photographing data, expose a film by emitting an LED in conjunction with a shutter and expose the film to an edge portion outside the screen. It is formed so as to record a thin vertical line.

FIG. 2 shows a filmstrip F photographed by the stereo camera 1, and each screen 1R, 2R, 1L, 2
L,... Are exposed above the vertical line index Mf, and the positional relationship between the right screen R and the index Mf on the screen, and the position of the left screen L and the index Mf on the screen. The relationship is constant.

The image projected on the film via the lens of the stereo camera 1 is turned upside down and left and right as viewed from the rear side of the camera. Since the image is mounted in the normal image state, the index Mf is located at the lower edge of the film in the mounted state.

[0016] FIG. 3 shows a stereo slide mount in the stereo photographic system, a base frame 11,
And the cover frame 12. The base frame 11 and the cover frame 12 formed by resin injection molding have windows 13L, 13R,
14L and 14R are provided. Windows 13L, 13R,
The pitch P of the windows 14L and 14R is set to approximately 63 mm which is close to the pitch of both eyes of the human being.
The vertical and horizontal dimensions of 3R, 14L, 14R are the same as the screen dimensions of the reversal film, so that the entire screen of the film can be seen.

At each of the four upper, lower, left and right positions of the windows 13L, 13R of the base frame 11, cylindrical pins 15 are erected, and the distance between the upper and lower pins 15 is equal to the width of the film F in the vertical direction. Position the film F on the upper and lower positioning pins
5, the window 13L of the base frame 11,
The vertical center of 13R and the vertical center of the screen of the film F coincide with each other.

Below the windows 13L and 13R of the base frame 11, in order to align the film in the left-right direction,
A vertical line index Mm corresponding to the index Mf recorded on the film F is printed. If the index Mf of the film F placed on the base frame 4 is matched with the index Mm of the base frame, the screen of the film F and the base frame are displayed. 11 windows 13
L and 13R exactly match.

As shown in FIG. 4, a wedge-shaped rib 15a is provided on the surface of the pin 15 in contact with the film, and when the film is pressed between the pins 15 after the left and right positions of the film are determined, the rib 15a is The film F is fixed by penetrating into the edge of the film F.

As shown in FIG. 3, a pin hole 16 is provided in the cover frame 12 at a position symmetrical to the pin 15 of the base frame 11, and if the pin 15 and the pin hole 16 are fitted, the base The frame 11 and the cover frame 12 are joined.

A longitudinal groove-shaped hinge portion 12a is formed at the left and right center of the cover frame 12, so that the cover frame 12 can be bent at the center. Films are adhered to predetermined positions of the left and right windows of the base frame 11, the left portions of the cover frame 12 bent at the center are overlapped, and the positioning pins 15 and the pin holes 16 are fitted. The right part of the frame 12 is
The base frame 11 and the cover frame 12 are joined by being fitted to the base frame 11.

In order to facilitate the mounting operation, it is effective to apply an adhesive around the left and right windows of the base frame 11. In this case, if a pressure-sensitive adhesive in which an adhesive or adhesive is encapsulated in microcapsules is used, the film will not be inadvertently adhered before positioning the film, but will be pressed or rubbed against the surface after positioning. Is fixed, so that the mounting operation is easy.

Also, a shallow groove having a width equal to the vertical width of the film is formed in the base frame, the groove is used as a means for positioning the film in the vertical direction, and the pins and the pin holes are simply used as means for joining the base frame and the cover frame. Good.

[0024] In Thus, mounting system in the stereo photographic system of claim 1, wherein the stereo slide mount shown in FIG. 3, and in addition a plurality of types of cover frame 12 shown in FIGS.

The cover frame 12 is provided on the left and right shown in FIG.
The gap width G of the windows 14L and 14R and the width W of the windows are
Gap width G between windows of base frame 11₀As well as windows
Width W ₀5 except for the cover frame 12 of # 0
As shown in FIG.₀Are the same and the window width W
Are gradually reduced (# 1 to # 5) and FIG.
As shown, between the outer edges of the left and right windows 14L, 14R.
Width L₀Are left and right windows 13L, 13L of the base frame 11.
Width L between outer edges of R₀And the window width W gradually increases
There are some that shrink (# -1 to # -3).
For each identification number of the cover frame 12 joined to the
The outside or inside shielding area of the left and right film screens
It changes on the floor.

The cover frames # -1 to # -3
Is used to adjust the mask amount at the inner edge of the film photographed in a state where the parallax correction is excessive due to an erroneous operation (when the lens interval is too small) in a stereo camera provided with an optical axis distance adjusting mechanism. , Usually # 0 to # 5
The parallax correction is performed by adjusting the mask amount at the outer edge of the screen using the stereo slide mount. Therefore, in a stereo photography system using a fixed optical axis distance stereo camera, a mount system that does not include a cover frame of # -1 or less can be used.

The operation of selecting a cover frame having an appropriate window width for a set of stereo photographs from the cover frame 12 can be accurately performed by using a mask amount verification apparatus already proposed by the present applicant. Can be.

To briefly explain an example of the test apparatus, two optical systems including a projection lens, a reticle provided with a collimation pattern, and an eyepiece are arranged on the left and right, and the projection lens is moved in the optical axis direction. A projection magnification adjusting mechanism, a focusing screen interval adjusting mechanism, and an adjusting knob for interlocking the two adjusting mechanisms are provided.

When a developed film strip is loaded into a film guide disposed behind the projection lens, the left and right projection lenses change the pair of left and right stereo photograph screens to the left and right focal points provided with the same collimation pattern. Projected individually to the board.

The adjustment knob is provided with a dial on which a number corresponding to the identification number of the cover frame 12 is written. When the dial is set to a fixed index, the entire screen of the film is projected on the reticle. When the adjustment knob is rotated in the plus or minus direction, the projection magnification and the reticle spacing change.

When the image is rotated in the plus direction, the interval between the reticle plates is reduced in conjunction with the increase in the projection magnification, and the inner edges of the left and right reticle plates and the inner edges of the projection screen coincide with each other regardless of the amount of rotation. The projection magnification changes. In addition, when rotated in the minus direction, the focusing screen interval is expanded in conjunction with the increase in the projection magnification, and the outer edges of the left and right focusing screens and the outer edges of the projection screen are aligned regardless of the amount of rotation. The projection magnification changes.

That is, when the adjustment knob is rotated in the plus direction, the outer edges of the left and right projection screens exceed the outside of the reticle as the projection magnification increases, and the outsides of the left and right projection screens are masked. , The inner edges of the left and right projection screens are masked beyond the inside of the reticle as the projection magnification increases.

When the projection magnification is changed by rotating the adjustment knob while observing the screen on the reticle through the eyepiece, the perspective between the collimation pattern of the reticle and the stereoscopic image fluctuates. The state in which the stereoscopic image is visible on the same plane as the collimation pattern or behind the collimation pattern is the state of the optimal screen mask ratio for the stereo photograph. If you look at it, you can see the number of the cover frame with the optimal screen mask ratio.

FIG. 7 shows another embodiment of the stereo slide mount system. This stereo slide mount 21 is a punched product of a cardboard formed in a vertically symmetrical shape with a folding line 22 in the middle between the upper and lower sides as a symmetry axis. At the position of the folding line 22, the upper half cover frame 23 is bent toward the front side and is formed so as to adhere to the lower half base frame 24. Although not shown, the stereo slide mount described above is omitted. Similarly to the system, the mount system is configured by a plurality of types (# -3 to # 5) having different window widths in a stepwise manner.

Cover frame 23 and base frame 24
Has left and right windows 25L, 25R, 26L, 26R, respectively.
Are punched out and the windows 26L, 2 of the base frame 24 are
A horizontal reference line Lh for positioning the upper and lower edges of the reversal film is printed above and below 6R, and a vertical line positioning index Mm is printed downward from the center of the lower horizontal reference line Lh.

A stereo slide mount is completed when a pair of films are aligned and bonded to the left and right windows of the base frame 24, and the cover frame 23 is bent and bonded to the base frame 24. If the pressure-sensitive adhesive is applied, the work of bonding the film and the work of bonding the cover frame 23 and the base frame 24 are easy.

The mounting system of the stereo photographic system according to the second aspect comprises a stereo slide mount shown in FIG. 3 and a framing mask 31 shown in FIG. 8, and the framing mask 31 adjusts the mask amount of the film screen. .

The framing mask 31 is formed by punching a window out of a light-shielding material such as paper or a black resin film, and the upper and lower widths are larger than the width of the film, and are formed on the pins 15 of the base frame 11 shown in FIG. Hole 3 for engaging
1a are provided above and below both left and right ends. The framing mask 31 is similar to the cover frame 12 described above.
There are a plurality of types (# 1 to # 5) in which the width of the window changes stepwise. The dimensions of the windows of each framing mask 31 correspond to the dimensions of the windows of the various cover frames 12 shown in FIG. ing.

When masking the screen with the framing mask 31, the masking amount is verified by the above-described verification device, the identification number of the framing mask 31 is read, and as shown in FIG. The framing mask 31 is positioned and overlapped on the film F so that the outside is shielded. When the cover frame 12 of # 0 is attached to the base frame 11, the film F
And the framing mask 31 are sandwiched in a laminated state.

When the number of the verified mask amount is a negative number (# -1, # -2,...), A plus-number framing mask having the same absolute value as the verification amount may be mounted by inverting left and right. For example, if the verified mask amount is # -2, the framing mask of # 2 is mounted left-right inverted and the inside of the screen of the film F is masked.
The mask amount is # -2.

Next, a mounting system of the stereo photographic system according to the third aspect will be described. 10A shows the base frame 41, (# 3) and (# 5) show the cover frame 42, and the dimensions of the base frame 41 are as follows.
The same as the base frame 11 shown in FIG.
Below the 3L and 43R, a main scale graduation Sm of a verna consisting of a plurality of vertical lines is printed.

The cover frame 42 is provided with a window 4 to keep the convergence angle of the line of sight of both eyes irrespective of the screen mask amount.
There are a plurality of types (# 0 to # 5) in which the pitch P of the 4L and 44R is constant and the window width W varies stepwise, and the pins 45 of the base frame 41 and the pin holes 4 of the cover frame 42 are provided.
6 is the same as the stereo slide mount of FIG.

FIG. 10 shows only two types (# 3, # 5) of cover frames 42. The window pitches P of all the cover frames are the same, and the window widths (W ₀ , W ₁ ,...) Are gradually reduced, whereby the gap width (G ₀ , G ₁ ,...) Between the left and right windows is gradually increased. The gap width between the left and right windows is # 0 stereo slide mount 4.
Based on the gap width G _{0 of} 1 as a reference, the following relationship is obtained.

(# 0) G ₀ (# 1) G ₁ = G ₀ + W ₀ −W ₁ (# 2) G ₂ = G ₀ + W ₀ −W ₂ (# 3) G ₃ = G ₀ + W ₀ −W ₃ FIG. 11 shows a stereo camera 47 of this stereo photographic system, in which index exposure devices 49L and 49R for exposing a plurality of vertical lines serving as vernier scales of a vernier are provided on an upper film guide 48 of a film traveling path. I have. FIG.
Indicates a film strip F photographed by the stereo camera 47 shown in FIG. 11, and vernier vernier scales Ss are recorded on the upper side of each of the screens 1R, 2R, 1L, 2L,.

The numbers of the main scale Sm of the base frame 41 and the vernier scale Ss recorded on the film F correspond to the dial numbers of the above-described verification device. As shown in FIG. 13A, when 0 of the main scale graduation Sm of the base frame 41 is matched with 0 of the sub scale memory Ss of the film, the offset amount of the film becomes 0, and the cover frame 42 of # 0 is moved. If it is mounted, a stereo slide mount with zero mask is completed.
FIG. 7B shows the film position when the offset amount is # 3. When the cover frame 42 of # 3 is attached, the inner edge of the screen of the film and the inner edge of the window of the cover frame 42 coincide with each other. The outer mask amount becomes 0.3 mm. If the offset amount is # -2 and the cover frame 42 of # 2 is attached as shown in FIG.
The outer edge of the film screen coincides with the outer edge of the window of the cover frame 42, and the mask amount inside the screen is 0.2.
mm.

[0046] Figure 14 shows another embodiment of the stereo slide mount using vernier, using one type of stereo slide mount which is narrower than the screen width W ₀ of the window width film, the stereo slide mount The parallax is corrected by adjusting the mounting position of the film with respect to the right and left directions and masking a portion of the film outside or inside the screen.

The base frame 51 shown in FIG.
Like the base frame 41, the main scale scale Sm is printed, and the film F exposed to the sub-scale scale Ss shown in FIG. 12 can be positioned.
The window width of the base frame 51 and the cover frame 52 is, for example, the same as the window width W of the cover frame # 2 in FIG.
_2, but is slightly narrower than the screen width of the film F, the window width of the base frame 51, like the base frame 41 of FIG. 10 may be identical to the screen width W ₀ of the film.

In this stereo slide mount of the vernier type, the inspection device for inspecting the film mounting position has a constant projection magnification except for the projection magnification adjustment mechanism from the above-described inspection device, and rotates the adjustment knob to adjust the left and right. Of the projection lens or the focusing screen in the direction perpendicular to the optical axis.

When the adjustment knob of this test device is set to the offset amount 0
When rotated from the position, the distance between the projection lens and the distance between the focusing screens fluctuates relatively, and the outside or inside of the left and right projected images is deviated outside the focusing screen, and the outside or inside of the left and right screens is masked. Can be observed.

While observing the perspective of the stereoscopic image with respect to the collimation pattern of the reticle, the adjustment knob is rotated so that the stereoscopic image can be seen on the same plane as the collimation pattern or at the back of the collimation pattern. The number of the vernier scale that provides the optimum parallax correction state for the stereo photograph can be found by looking at the dial number indicated by the same as the above-described verification apparatus.

Next, a stereo photographic system according to claim 5 will be described. This stereo photography system includes a stereo camera 1 shown in FIG. 1 and one type of stereo slide mount (not shown) having the same shape as the stereo slide mount shown in FIG.
And a printer for printing a positioning index corresponding to the film offset position detected by the testing device on a stereo slide mount.

FIG. 15 shows a testing device 61 which can output offset amount data of a projected image based on what has already been proposed by the present applicant.
Respective focusing plates 63L, 63
R and a film guide 64 are fixed, and brackets 66L,
A screw bearing (not shown) is formed on each of the 66Rs, and a left-right feed screw 67 provided on the frame 62 and the screw bearings of the left and right projection lens holders 65L and 65R are connected by a ball screw mechanism.

The feed screw 67 has a left-hand screw and a right-hand screw that are symmetrically cut from the middle part. When the adjustment knob 68 at the end of the feed screw 67 is turned clockwise, the left and right projection lens holders 65 are turned.
L and 65R move away from each other in the direction perpendicular to the optical axis, and when the adjustment knob 68 is rotated counterclockwise, the left and right projection lens holders 65L and 65R approach in the direction perpendicular to the optical axis.

A rotation position detector 69 such as a potentiometer or a resolver is connected to the end of the feed screw 67.
The rotation position data of the feed screw 67 is input to a control unit (not shown).

The width of the reticle 63L, 63R is determined by the projection magnification =
r, the screen width of the film = w, which is r · w. The dial 70 coaxial with the adjustment knob 68 has a number (−3 to # 5) corresponding to each mount number (# -3 to # 5) of the stereo slide mount system. 5) is engraved. Dial 7
When the number 0 of 0 is matched with the fixed index 71, the projection lenses 72L and 72R are positioned on a straight line connecting the centers of the left and right screens of the filmstrip F loaded in the film guide 64 and the centers of the focusing plates 63L and 63R. The principal point is located.

Then, as the dial 70 is rotated from 0 to the plus direction, the left and right projection lenses 72L, 72R
Expands the interval, the projection screen is offset to the outside, and the outside area in the screen protrudes outside the focusing screens 63L and 63R. On the other hand, when the dial 70 is rotated in the negative direction from 0, the distance between the left and right projection lenses 72L and 72R is reduced, the projection screen is offset inward, and the inner areas of the projection screen become focusing plates 63L and 63R. And the state of parallax correction can be observed. The position of the left and right projection lens holders 65L and 65R is directly detected by a direct-acting position detector such as a magnetic scale or an inductosin as the offset position detector instead of the rotation position detector 69. It may be configured as follows.

On the back of the film guide 64, there is provided a laser emitter 73 for writing a frame number in an area outside the screen of the film. It is not easy to write a frame number on the black unexposed part of a developed reversal film with a thermal transfer printer or an ink jet printer, but when a laser beam is applied to the emulsion surface of the film using a laser light emitter, the film base Is heated to destroy the arrangement of the pigment particles in that portion, so that the film base can be seen through transparently, and fine characters and the like can be accurately recorded, and a favorable result can be obtained.

Then, when the adjustment knob 68 is operated to enter an appropriate parallax correction state, if an enter key (not shown) on the operation panel is pressed, the offset amount data and the frame based on the rotation position of the feed screw 67 are pressed. The number and the number are input and stored in the memory of the control unit, and the
Operates to record the frame numbers (nL, nR) at the lower edges of the left and right screens of the film F. Although not shown, a film feeder is provided for feeding the stereoscopic images of the filmstrip one set at a time, and the laser emitter 73 records the frame numbers (nL, nR) in ascending order in conjunction with the film feed. Then, the offset amount verification work can be performed efficiently.

FIG. 16 shows a printer device 81 to be combined with the verification device 61, and the Y rail 8 fixed to the base 82.
3, the Y carriage 84 is engaged, and the X carriage 86 is engaged with the X rail 85 formed on the upper surface of the Y carriage 84. An ink jet printer head 87 is mounted on the X carriage 86 so as to be able to move up and down in the Z direction. A mount holder 88 fixed to the base 82 is attached to the printer head 8.
7 below.

The feed mechanism of the Y carriage 84, the X carriage 86 and the printer head 87 is not particularly limited, and various known feed mechanisms can be applied. For example, the feed mechanism is constituted by a ball screw 89 and a servo motor 90, A control unit (not shown) drives the servomotor 90 to control the three-dimensional coordinates of the printer head 87.

When the base frame 51a of the stereo slide mount on which no scale or index is printed is mounted on the mount holder 88 and a print execution command is input, the printer control unit shifts the offset position from the data processing unit of the verification device 61 to the offset position. Read the data and move the printer head 87 to XYZ
In the direction, the index is printed at a position below the window of the base frame 51a based on the offset position data, and the frame number is printed at the center of the base frame 51a or around the window.

The film corresponding to the frame number printed on the base frame is placed on the base frame 51a on which the frame number is printed, the index of the film matches the index of the base frame 51a, and the cover frame 52 is mounted. Then, a stereo slide mount with an appropriate film offset amount will be completed.

Incidentally, a large number of data can be stored in the verification device or the printer device. After the index marking position verification operation of one or a plurality of films, the index printing process on many base frames is performed. Naturally, it can be performed continuously.

Next, a stereo photographic system according to claim 6 will be described. This stereo photography system is described in claim 5
The same stereo slide mount as the described stereo photographic system is used, and the optical system of the verification device is the same as the verification device 61 shown in FIG. 15, but a rotation for detecting the position of the projection lens or the reticle is used. Instead of the position detector 69, as a film offset position detecting means,
As shown in FIG. 17, reticle 92L, 9
Image sensors 93L and 93R (such as a CCD image sensor and a light spot detector (PSD) using a photodiode) are arranged in the left and right directions below the 2R, and as shown in FIG. Windows 95L, 9
The slits 96L and 96R are provided on the upper part of the 5R to form a pair with the image sensors 93L and 93R of the focusing screens 92L and 92R.

The index of the film loaded in the film guide 94 is exposed in the slits 96L and 96R and
The image is projected onto 2L and 92R image sensors 93L and 93R. The light receiving surfaces of the image sensors 93L and 93R are located on the same plane as the light receiving surfaces of the focusing screens 92L and 92R so that the position of the index Mf of the film can be accurately detected.

As in the case of the test device 61 shown in FIG. 15, when the adjustment knob of the test device 91 is operated, the reticle 92L, 9
Along with the image on the 2R, the index of the film relatively moves right and left. The positional relationship between the focusing plates 92L and 92R and the projected index is equal to the positional relationship between the window and the index of the film when the film is mounted on one type of stereo slide mount having a smaller window width than the screen width of the film. Therefore, by observing the images on the focusing screens 92L and 92R and detecting the position of the index of the film when the appropriate offset adjustment state is obtained by the image sensors 93L and 93R,
The position data of the index to be printed on the base frame 51a of the stereo slide mount is obtained.

The index position data is input to the printer 81 to print the index on the base frame 51a, and the film is mounted with the index Mm of the base frame 51a coincident with the index Mf of the film. You can reproduce the offset state of the screen visually recognized with the stereo slide mount. The focusing screen 92
When the width of L, 92R is different from the width of the window of the stereo slide mount, the Y coordinate of the index printing position may be corrected according to the size ratio.

As described above, the position of the index of the film on the actual projection screen is detected, and the index at the same position as that of the index of the film is printed on the stereo slide mount. Therefore, the index position of the film is not necessarily constant. There is no. Therefore, instead of exposing the index to the film at the time of photographing, a latent image of the index may be formed in advance in the film manufacturing stage, and the index appearing after development may be used. Further, a laser light emitter may be provided on the film guide 94 of the verification device 91, and the index Mf may be marked on the upper part of the film before the verification.

As described above, in addition to using the index recorded on the film as the offset amount detecting means, in the case of a film having a perforation such as a 135-type film, the perforation is used as a positioning index as follows. It is also possible to use it.

When the perforations are used as positioning indices, the perforated portions of the film are exposed at the slits 96L and 96R of the film guide 94 shown in FIG. 18, and the image sensors 93L and 93L provided below the focusing screens 92L and 92R. The image is projected onto the pixel 93R, and the perforated portion is scanned in the horizontal direction by the image sensors 93L and 93R.

For example, assuming that scanning is performed in a direction slightly inward from the outside vertical frame position of the left and right focusing screens 92L and 92R, the outputs of the image sensors 93L and 93R at the start of scanning are at the white level. As shown in (a), even if the film F is cut at the position of the perforations P, as shown in FIG. Changes to a black level in the black portion of

When the position of the _first complete perforation P1 is reached after passing through the gap, the level changes to a white level. This position is detected and the position data is stored. That is, the position of the outer edge of the _first complete perforation P1 from the scanning start point is detected, and the index is printed on the mount by the printer device 81 based on this position data.

FIG. 19 shows a case where the film pitch of the stereo camera is set such that the pitch of the screen of the stereo photograph is an integral multiple of the perforation pitch and the gap between the screens on the filmstrip is arranged at the perforation position. As shown in FIG.
Are cut one by one at the position of the perforation P, so that the image sensors 93L and 93R change from the white level to the black level after the start of scanning, and
The position where the black level changes from the black level to the white level at the end of the film area, that is, the positions of the inner edges of the cut perforations P ₀ and P ₇ at both ends of the film may be detected and used as the index printing position data.

FIG. 20 is a printing example of an index corresponding to the perforation of the film. The shape of the index Mm is
As shown in (a), a vertical line at the edge position of the perforation may be used. A template of a square mark having the same shape as that of the perforation is stored in the drawing memory of the printer device 81, and as shown in FIG. May be printed. Further, the entire width of the film is scanned by the image sensors 93L and 93R to detect the perforation positions at the left and right ends of the film, and an index Mm corresponding to the perforations at the left and right ends of the film is obtained as shown in FIG. You may comprise so that it may print.

Incidentally, in the current various films, the marking such as the frame number is exposed on the upper and lower edges of the film, and the one-dimensional line sensor may confuse the frame number and the like with the perforation.
If the two-dimensional image pattern scanned along the perforation by the two-dimensional area sensor is analyzed by the pattern recognition processing unit so as to identify the pattern of the perforation and the pattern of the other marking, the risk of the confusion described above is eliminated. Will be resolved.

Next, a stereo photographic system according to claim 7 will be described. In this stereo photographic system, a protrusion for positioning the film in the left-right direction is formed on a base frame of a thermoplastic resin stereo slide mount having one kind of window width.

As shown in FIG. 21, the stereo slide mount has the same shape as that shown in FIG. 14, but the base frame 101 is not provided with scales or indicators. Also, windows 102L and 102 of base frame 101
At the four peripheral corners of R, projections for engaging the perforation of the film are formed by a projection processing device to be described later. Therefore, the rear surfaces (surfaces that contact the base frame) of the four peripheral corners of the windows 104L and 104R of the cover frame 103 are formed. ,
Recesses 105L and 105R are formed to avoid interference with projections formed on the base frame 102.

FIG. 22 shows a projection processing apparatus 111 in which a Y-rail 114 is fixed on a portal frame 113 provided on a base 112, and an electromagnetic induction heater 115 is arranged on the left side of the portal frame 113. A mount feeder 116 is arranged on the right side of the gate-shaped frame 113.

A plunger carriage 117 is mounted on the Y rail 114, and a Z-axis actuator 118 is attached to the front of the plunger carriage 117 driven by a linear servomotor (not shown). The lower end of a ram 118a of the Z-axis actuator 118 Plunger holder 1
19 is attached.

On the lower surface of the plunger holder 119, four round bar heat plungers 120 are mounted.
X-axis direction of heat plunger 120 (up and down in the figure)
Is equal to the pitch of the upper and lower perforations of the 135-type film, and the pitch in the Y-axis direction (left and right in the figure) is formed slightly larger than the pitch of the perforations at the left and right ends of the film cut into one frame.

At the right end of the gate-shaped frame 113, a die plate elevating device 121 is attached.
1, a die plate 122 is attached. Four holes 123 corresponding to the four heat plungers 120 of the plunger holder 119 are formed in the die plate 122. As shown in FIG. A circular recess 123 a eccentric to the left and right center direction of 122 is formed. The space between the outer peripheral surfaces of the left and right recessed portions 123a is equal to the space between the perforations at the left and right ends of the film cut into one frame. In addition, plunger holder 1
It is preferable that the heat plunger 120 and the die plate 122 be formed using a material having a low expansion coefficient in order to prevent a dimensional change due to a temperature change, and the heat plunger 120 is mounted on the plunger holder 119 via a heat insulating support.

The mount feeding device 116 mounts the mount carriage 125 on the Y rail 124 on the upper surface and slides the mount carriage 125 by a linear servomotor (not shown). The Y-coordinate of the mount carriage 125 is controlled by the position data input from the controller. A mount holder 125a is provided on the upper surface of the mount carriage 125. The mount holder 125a is formed so that the base frame 101 of the stereo slide mount can be mounted and fixed to the mount holder 125a.

When the plunger carriage 117 is moved to the left end of the movement range and the plunger holder 119 is lowered, four heat plungers 120 are inserted into four holes on the upper surface of the electromagnetic induction heater 115, and the electromagnetic induction heater 115 is used. Heat plunger 120 is heated. Further, the plunger carriage 117 is moved rightward to control the feed amount so that the four heat plungers 120 of the plunger holder 119 stop at positions matching the four holes 123 of the die plate 122. Plunger holder 1
By descending 19, the tip of heat plunger 120 is inserted into hole 123 of die plate 122.

A series of operations of the projection processing device 111 are controlled by the control device, and the projection processing device 111 performs the projection processing on the base frame 101 based on the perforation position data on the left and right ends of the film detected by the above-described verification device 91.

Hereinafter, the operation will be described. First, when the stereo slide mount base frame 101 is mounted on the mount holder portion 125a of the mount carriage 125 and a processing execution command is input, perforation position data is transferred from the verification device 91 to the projection processing device 111, and the left end is Plunger carriage 1
The plunger holder 119 of No. 17 is lowered, and the heat plunger 120 is inserted into the hole of the electromagnetic induction heater 115 to heat the heat plunger 120. At the same time, the control unit drives the mount carriage 125 based on the perforation position data, and the upper die plate 122
The mount carriage 125 is moved to a position where the relative position between the hole 123 and the left window 102L of the base frame 101 matches the relative position between the left screen and the perforation tested by the testing device 91.

Then, the die plate lifting / lowering device 121 descends the die plate 122, and the die plate 122 is brought into close contact with the left window 102 L of the base frame 101, and the die plate 122 is moved to the exact processing position of the left window 102 L of the base frame 101. Position and fix. Subsequently, the heated heat plunger 120 is moved to the electromagnetic induction heating device 11.
5, the plunger carriage 117 is moved to the right, and stopped at the same position as the die plate 122.
Lower the plunger holder 119 and move the heat plunger 1
20 is inserted into the hole 123 of the die plate 122 and brought into contact with the base frame 101.

As a result, as shown in FIG. 24, the portion of the base frame 101 in contact with the heat plunger 120 is melted, and the melted resin flows into the recess 123 a of the die plate 122. And plunger holder 1
19, the melted resin is
The heat is deprived of heat and solidifies, and the crescent-shaped projection P shown in FIG.
Is molded.

Subsequently, the die plate 122 is raised,
Similarly to the projection forming step of the left window 102L, the mount carriage 125 is moved to a position where the four points where the projections of the right window 102R of the base frame 101 are to be formed coincide with the holes 123 of the upper die plate 122. Is lowered to be pressed against the base frame 101, the plunger holder 119 is lowered, and the base frame 1 is moved in the same manner as the left window.
Four projections P are formed around the right window 102R of No. 01.

Although illustration is omitted, it is convenient if a printer device such as an ink jet printer is juxtaposed in the vicinity of the mount feeding device 116 and the frame number is printed on the base frame 101 together with the projection forming step. is there.

When mounting the film on the base frame 101 on which the projections P are formed, the film is placed at the position of the window of the base frame 101, and the cover frame 103 is engaged with the perforations on the left, right, upper and lower projections P, and the cover frame 103 is attached. Is mounted in a state in which the offset amount of the screen of the film is relatively equal to the offset amount verified by the verification device 91.

The present invention is not limited to the above embodiment, and various modifications are possible within the technical scope of the present invention, and it goes without saying that the present invention extends to those modifications. is there.

[0092]

As described above, in the stereo photographic system according to the first and second aspects, since the index is provided on each of the film and the stereo slide mount, it is easy to position the film when mounting the film. Can be done accurately.

In the stereo photographic system according to the third and fourth aspects, since scales constituting a vernier scale are provided on the film and the stereo slide mount, the amount of offset of the film with respect to the window of the stereo slide mount is adjusted to reduce the parallax. In the correction system, the offset amount can be accurately adjusted.

In the stereo photographic system according to the fifth to seventh aspects, an index or a projection for positioning the film screen at an appropriate position with respect to the window of the stereo slide mount is formed on the stereo slide mount, so that one type of stereo slide is provided. The mount can handle all stereo photographs, does not require various types of stereo slide mounts, and can constitute a reasonable system.

[Brief description of the drawings]

FIG. 1 is a rear view of a stereo camera.

FIG. 2 is a front view of a filmstrip taken by the stereo camera of FIG. 1;

FIG. 3 shows a stereo slide mount of a stereo photographic system, (a) is a front view of the base frame, (b)
3 is a side view of the base frame, FIG. 3C is a front view of the cover frame, and FIG. 3D is a side view of the cover frame.

4A is an enlarged front view of a pin portion of a base frame, and FIGS. 4B and 4C are side views.

FIGS. 5A and 5B are front views of a cover frame, respectively.

FIGS. 6A and 6B are front views of a cover frame, respectively.

FIG. 7 is a development view of a paper stereo slide mount.

FIGS. 8A and 8B are front views of a framing mask, respectively.

FIG. 9 is a front view showing a state where a framing mask is mounted on a base frame.

10A is a front view of a base frame, and FIG.
3) (# 5) is a front view of each cover frame.

FIG. 11 is a rear view of the stereo camera.

FIG. 12 is a front view of a filmstrip taken by the stereo camera of FIG. 11;

13 (a), (b) and (c) are explanatory views of a vernier scale of a base frame and a film, respectively.

14A is a front view of a base frame, and FIG.
Is a front view of the cover frame.

FIG. 15 is a plan view showing the structure of an inspection device of the stereo photographic system.

FIG. 16 is a perspective view of a printer device of the stereo photographic system.

17A and 17B show a reticle and an image sensor of the inspection apparatus, wherein FIG. 17A is a front view as viewed from the projection lens side, and FIG.

FIG. 18 is a front view showing a film guide portion of the inspection device.

FIGS. 19A and 19B are front views of a film cut into one frame.

FIGS. 20A, 20B, and 20C are front views of a base frame on which indices are printed.

21A is a front view of a base frame, and FIG. 21B is a front view of a cover frame.

FIG. 22 is a perspective view of a projection processing device.

FIG. 23 shows a die plate, (a) is a plan view,
(B) is a side sectional view, and (c) is a bottom view.

FIG. 24 is a sectional view showing a step of forming a projection of the base frame.

FIG. 25 is a perspective view showing the shape of a projection.

[Explanation of symbols]

 Reference Signs List 1 stereo camera 6L, 6R index exposure device 11 base frame 12 cover frame 21 stereo slide mount 31 framing mask 41 base frame 42 cover frame 47 stereo camera 49L, 49R index exposure device 51 base frame 52 cover frame 61 testing device 63L, 63R focus Plate 64 Film guide 68 Adjustment knob 69 Rotational position detector 70 Dial 72L, 72R Projection lens 73 Laser light emitter 81 Printer device 87 Printer head 91 Verification device 92L, 92R Focus plate 93L, 93R Image sensor 94 Film guide 96L, 96R Slit 101 Base frame 102 Cover frame 105 Recess 111 Projection processing device 115 Electromagnetic induction heating device 116 Mount feeding device 1 0 Heat plunger 122 die plate 125 mounted carriage

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G03B 35/00-35/14 G03B 21/64

Claims (7)

(57) [Claims] 1. A stereo camera having a left and right two-system photographing lens, and a device for exposing an index above or below a pair of left and right screens of a film at the time of photographing, and a window width that differs stepwise.
Composed of multiple types of stereo slide mounts
Consists of a mount system that is, mount system
Is, unlike the window width is stepwise, inner edge of the screen of the inner edge and the film of the right and left windows of the stereo slide mount
When you match
Multiple types of stereo slide mounts with indicators,
The window width varies step by step, the left of the stereo slide mount
The outer edge of each of the right windows and the outer edge of the film screen
Matches the film index when matching
Multiple types of stereo slide mounts with indicators at positions
And a stereo slide mount window
Of the outer or inner area of the film screen, depending on the width
A stereo photography system configured so that the amount of mask can be adjusted . 2. A stereo camera comprising two left and right photographing lenses, and a device for exposing an index above or below a pair of left and right screens of a film during photographing, and a stereo slide.
Multiple types of frame with different mounts and window widths
Left of the stereo slide mount
Stereo slide mount below or above a pair of right windows
When the window of the film matches the screen of the film,
Set an index that matches the index and set the framing mask
Framing mask by mounting
Area outside or inside the screen of the film, depending on the window width of the disc
A stereo photography system configured so that the amount of mask in the side area can be adjusted . 3. A comprises a photographing lens of the left and right dual, the edge of the top or bottom of the pair of left and right pictures of the films at the time of shooting, sub
A stage equipped with a device for exposing the scale or main scale
The mount consists of a Leo camera and a mount system.
The system is equipped with a major scale below or above the left and right windows or
Base frame with vernier scale and window width on film
The window width gradually decreases from the same as the screen width of
The pitch of the left and right windows is equal to the pitch of the base frame window.
The base consists of multiple types of cover frames
It consists of a frame scale and a film scale.
Adjust the film mounting position using the vernier scale
Knotted and attached film screen inside edge or outside
Edge and the inside edge or outside of the cover frame window
Select and attach a cover frame that matches the edge
A stereo photographic system configured to be able to adjust the mask amount in the outer region or the inner region of the screen of the film. 4. A comprises a photographing lens of the left and right dual, the edge of the top or bottom of the pair of left and right pictures of the films at the time of shooting, and the stereo camera having a device for exposing a vernier scale or main scale graduation, stereo Consisting of a slide mount ,
The window width of the stereo slide mount narrower than the screen width of the film, of the stereo slide mount Besufu
A vernier scale or a main scale scale is provided below or above the left and right windows of the frame, and the barna scale consisting of the scale of the base frame and the scale of the film is used .
Film screen against Teleo slide mount window
A stereo photography system configured so that the amount of offset in the horizontal direction can be adjusted. 5. A stereo camera comprising two left and right photographing lenses, and a device for exposing an index on an upper or lower edge of a left and right screen of a film during photographing, and a stereo camera.
3D image distance while viewing the screen of the film taken at
Inspection device that can adjust the feeling and the window width is smaller than the film width
Stereo slide mount and stereo slide
Beneath or above the left and right windows of the base frame
The verification device consists of a printer device that prints the index.
Projection lens, narrower than projection screen and collimated
Optics consisting of a reticle with a pattern and an eyepiece
Left and right projection lens or focus
Providing a plate spacing adjustment mechanism and a spacing detection mechanism, a pair of left and right
Project the film screen separately on the left and right reticle,
By adjusting the distance between the right projection lens or reticle
Change the sense of distance of the three-dimensional image to obtain an appropriate three-dimensional effect.
Is formed so that the offset amount of the projected screen
Printer device is detected by the interval detection mechanism of the verification device.
Finger of the base frame based on the offset data
A control unit that corrects the printing position of the mark and prints
Index printed on the stereo slide mount with
Match the index recorded on the film
By mounting, the stereo slide mount
The offset amount of the film screen with respect to the window is
Of the projected screen with respect to the reticle verified by
Stereograph system configured to relatively equal to. 6. A test device capable of adjusting the sense of distance of a three-dimensional image while visually recognizing a screen of a film photographed by a stereo camera , a stereo slide mount having a window width narrower than the screen width of the film, and a base of the stereo slide mount. A testing device that prints indices below or above the left and right windows of the frame, the testing device comprises a projection lens, a reticle having a width narrower than the width of the projection screen and provided with a collimation pattern, and an eyepiece. An optical system consisting of a lens and two optical systems is arranged on the left and right, a left and right projection lens or a focusing plate interval adjusting mechanism is provided, and a pair of left and right film screens are individually projected on the left and right focusing plates, and a left and right projection lens is provided. or by changing the sense of distance of a stereoscopic image by adjusting the spacing of the focusing, formed so as to be able to test the offset amount of projection screen suitable steric effect is obtained Then DOO The image above or below the reticle
Image sensor or light spot detector
Or a perf at the edge of the film projected onto the light spot detector
Or finger pre-recorded on the edge of the film
A position detection unit for detecting the position of the target, and a printer device
Is the perforation detected by the position detector of the verification device.
Based on the location data of the
A control unit for printing the indicators over arm, Pafore indicators printed on the base frame by the printer device and the film
By mounting the film so that the alignment or the index is matched, the offset of the screen of the film with respect to the window of the stereo slide mount is relatively equal to the offset of the projection screen with respect to the reticle that has been verified by the verification device. Stereo photography system. 7. A testing device capable of adjusting the sense of distance of a three-dimensional image while visually recognizing a screen of a film photographed by a stereo camera, and a thermoplastic resin having a window width narrower than the screen width of the film.
And manufacturing stereo slide mount, a projection above or below the right and left windows of the base frame of the stereo slide mount
The inspection apparatus comprises a projection lens, a projection lens, a reticle having a width narrower than the width of the projection screen, and provided with a collimation pattern, and an optical system comprising an eyepiece and two systems, left and right. Arrangement mechanism for adjusting the distance between the left and right projection lenses or reticle is provided, and the screens of the pair of left and right films are individually projected on the left and right reticle, and the distance between the left and right projection lenses or reticle is adjusted to achieve three-dimensional. By changing the sense of distance of the image and forming so as to be able to test the offset amount of the projection screen where an appropriate three-dimensional effect is obtained, an image sensor or a light point detector is arranged above or below the reticle,
Providing a position detection unit that detects the position of perforation at the edge of the film projected on the image sensor or the light point detector, the projection processing device includes a die, a heat plunger,
The parf detected by the position detector of the verification device
Die and heat plug based on the
And heat-melt the protrusions on the base frame
Equipped with a control unit, formed on a base frame with a projection processing device
Engage the perforations of the film
Stereo slide by mounting film
Offset of film screen with respect to mount window
Is the projection screen for the reticle
A stereo photography system configured to be relatively equal to the offset amount .