JP3824399B2 - Data imprinting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data copying apparatus, and more particularly to a data copying apparatus that prevents exposure by external light.
[0002]
[Prior art]
In recent years, in order to expand the appeal and enjoyment of print photographs to general users, print photographs having different aspect ratios are provided depending on the types and sizes of subjects photographed with a camera or a film unit with a lens. In addition to the conventional standard size C size print (89 mm x 127 mm), this print photo has a panoramic print (89 mm x 252 mm) that doubles the length in the horizontal direction, and an aspect ratio for high-definition television broadcasting. An approximate high-definition print (89 mm × 158 mm) is generally known.
[0003]
In order to obtain printed photographs with different aspect ratios, all frames are exposed at full size (24 mm x 35 mm) at the time of shooting, and shooting data indicating the print range outside the exposure range of each frame is optically recorded. In addition, there has been proposed a photographing data imprinting device and a camera equipped with the photographing data imprinting device in which the photographing data is read at the time of printing and each frame is printed within a designated print range.
[0004]
As such a data copying apparatus, as described in, for example, Japanese Patent Laid-Open No. 54-26721, a plurality of LEDs are provided as light emitting elements on one side of a film passage, and a photographic film is recorded at the time of photographing each frame. It is known that a dot-shaped optical mark is imprinted outside the photographing range, and the print range is designated by the number of the optical marks. Further, for example, as described in JP-A-7-84309, a film pressure plate having two imprint openings, a light-shielding plate slidably provided behind the film pressure plate, and one piece provided behind the film pressure plate There are known LEDs that change the dot pattern to be imprinted on the photographic film in accordance with the type of print range to be designated by changing the position of the light shielding plate.
[0005]
[Problems to be solved by the invention]
In a data copying apparatus that optically records data on a photographic film, light other than the light emitting element that serves as a light source, for example, external light, is prevented from entering the recording aperture so that erroneous data copying is not performed. Must be. The external light enters the reflection aperture from the base portion of the light emitting element attached to the printed circuit board.
[0006]
In order to prevent intrusion of external light from the base of the light emitting element, there is a printed board colored black. The black substrate prevents external light from being transmitted through the printed circuit board, and prevents external light incident from the end surface of the printed circuit board from being reflected by the inner surface of the substrate and entering the base of the light emitting element. Further, in the invention described in US Pat. No. 5,574,521, a data copying apparatus is proposed in which a pedestal into which a lead terminal is inserted is provided between a light emitting element and a printed board. In this pedestal, the lead terminals are bent at a plurality of positions inside and attached to the printed circuit board in a state where the pitch is widened, thereby holding the light emitting element and preventing intrusion of external light.
[0007]
However, the black substrate and the pedestal for the light emitting element have a problem that the printed circuit board is colored or the cost increases because it is difficult to cope with an automatic machine. In addition, since the pitch of the lead terminals attached to the printed circuit board becomes large in the pedestal of the light emitting element, the position where it is attached to the printed circuit board is limited, or the printed circuit board needs to be enlarged.
[0008]
The present invention is for solving the above-described problems, and provides a data imprinting device that can save light and light at the base portion of a light emitting element.
[0009]
[Means for Solving the Problems]
  In order to solve the above problems, the data copying apparatus of the present invention is attached to a printed circuit board in a state where the lead terminal of the light emitting element is inserted into a light shielding member having light shielding properties and flexibility, and the light shielding member is attached to the printed circuit board. Intrusion of external light from the base portion of the light emitting element to the copying opening is prevented by sandwiching and crushing with a light shielding cover.
  Further, an identification protrusion representing the polarity of the lead terminal is provided on the light shielding member, and the lead terminal is inserted into the hole in accordance with the identification protrusion.
  Further, a protrusion that contacts the light emitting element is provided on the upper surface of the light shielding member, and the upper and lower surfaces of the light shielding member are identified by this protrusion, and the position of the light emitting portion of the light emitting element is defined.
  Further, the hole into which the lead terminal of the light shielding member is inserted may have an inner diameter smaller than the diameter of the lead terminal, or may be formed so as not to penetrate and be pierced by inserting the lead terminal. May be.
  Furthermore, the light-shielding member may be provided with a cylindrical portion that inserts the light-emitting portion of the light-emitting element and shields the outer periphery thereof, and this cylindrical portion may be in contact with the light-shielding member.
  Moreover, the work efficiency of soldering the light emitting element to the printed circuit board is improved by molding the light shielding member with silicon rubber.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 2 shows the appearance of the lens-fitted photo film unit 2 incorporating the data copying apparatus of the present invention. On the front surface of the lens-fitted photo film unit 2, a photographing lens 3, an object-side finder window 4, a strobe light emitting unit 5 that emits strobe light, a charging operation member 6 that switches on / off the strobe unit, and a view field range of the finder are switched. A finder switching operation knob 7 is provided.
[0011]
Further, on the upper surface of the lens-fitted photo film unit 2, the shutter button 8, the counter window 9 for displaying the remaining number of shootable images, the opening 11 for projecting the display light guide 10 for displaying the completion of strobe charging, and all the photos A display opening 12 is provided for displaying the completion of winding of the film and closing of the light shielding lid of the film cartridge. Further, from the back side of the lens-fitted photo film unit 2, a winding knob 13 that is rotated every time one frame is photographed is exposed, and the eyepiece side finder window 14 (see FIG. 3) at a position facing the object side finder window 4. Is provided.
[0012]
As shown in FIG. 3, the lens-fitted photo film unit 2 includes a main body 19 in which a film cartridge 18 including a photographic film 16 and a substantially cylindrical cartridge main body 17 is loaded, and an exposure assembled to the front surface of the main body 19. The unit 20 and the strobe unit 21, and a front cover 22 and a rear cover 23 that are assembled so as to cover the front side and the back side of the main body 19 are configured. These are removably assembled by claw engagement.
[0013]
In the cartridge body 17, a spool 25 to which one end of the photographic film 16 is locked is rotatably incorporated, and a film feeding mechanism as disclosed in Japanese Patent Laid-Open No. 6-266053 is incorporated. In addition, a film-shaped light entrance lid (not shown) through which the photographic film 16 enters and exits the cartridge main body 17 is incorporated with a rod-shaped light-shielding lid 26 that opens and closes the film entrance by rotating from the outside, instead of the conventional telem. It is.
[0014]
In the photographic film 16, two large and small perforations 28 and 29 having different sizes are alternately arranged at two kinds of intervals along one side edge. The perforations 28 and 29 are used to set the head side and the rear side of each frame 30 in the film feeding direction. The lens-fitted film unit 2 winds the photographic film 16 into the cartridge body 17 every time it is photographed. The large perforation 28 indicates the leading side in the film feeding direction, and the small perforation 29 indicates the rear side. Each perforation 28, 29 is provided in a number corresponding to the number of frames 30.
[0015]
A light shielding cylinder 32 is provided at the center of the front surface of the main body 19 to shield the photographing optical path from the exposure unit 20 assembled on the front surface side to the photographic film 16. An aperture that defines the exposure range of the photographic film 16 is formed on the back side of the light shielding cylinder 32.
[0016]
On the front side of the light shielding tube 32, an opening 34 for guiding the subject light transmitted through the photographing lens 3 to the aperture is formed. In addition, an opening 32 a for exposing a sprocket incorporated in the exposure unit 20 and meshing with the perforations 28 and 29 of the photographic film toward the photographic film 16 is formed above the light shielding cylinder 32. A cartridge chamber 35 and a film roll chamber 36 in which the cartridge main body 17 and the photographic film 16 wound in a roll shape are respectively stored in the manufacturing stage are integrally formed on the left and right sides of the light shielding cylinder 32.
[0017]
A winding knob 13 and a light shielding lid closing mechanism 38 for closing the light shielding lid 26 of the cartridge body 17 are incorporated in the upper portion of the cartridge chamber 35. A gear is formed on the outer periphery of the winding knob 13, and a drive shaft formed on the lower surface is engaged with the spool 25 of the cartridge body 17. Then, the photo film 16 is wound up by the spool 25 by being rotated counterclockwise in the drawing every time one frame is shot. The light shielding lid closing mechanism 38 counts the number of rotations of the winding knob 13, and closes the light shielding lid 26 of the cartridge body 17 when the winding knob 13 is rotated by the amount that the photographic film 16 is entirely wound into the cartridge body 17. At the same time, a member having a different color from the front cover 12 is moved below the display opening 12 of the front cover 22 to indicate that the winding of the photographic film 16 is completed.
[0018]
In addition, a data copying device for copying an optical mark representing the print size on the photographic film 16 is incorporated around the light shielding tube 32 on the front side of the main body 19. This data copying device is switched by operating the finder switching operation knob 7 provided on the front cover 22.
[0019]
The exposure unit 20 is charged by a sprocket that is rotated by the transfer of the photographic film 16 and is released by pressing the shutter button 8, and the remaining number of shootable pictures of the photographic film 16 is counted and displayed from the counter window. In addition to a counter mechanism that detects the winding of one frame of the photographic film 16 and a film winding mechanism that locks the rotation of the winding knob 13, the photographing lens 3, the finder optical system 40, and the like are integrated into a unit. Has been. The film winding mechanism does not lock the winding knob 13 when the photographing of all the frames of the photographic film 16 is completed.
[0020]
In addition, a display light guide 10 for displaying the completion of charging of the strobe unit 21 is slidably attached to the exposure unit 20 in the vertical direction. The display light guide 10 projects outward from the upper surface of the lens-fitted photo film unit 2 in conjunction with an upward sliding operation of the charging operation member 6.
[0021]
The strobe unit 21 includes a printed circuit board 42 on which various electric components are attached to form a strobe circuit, and a strobe light emitting unit 5 that is attached to the printed circuit board 42 and includes a discharge tube, a reflector, a diffusion plate, and the like. A metal contact piece 44 that holds a dry battery 43 used as a power source of the strobe unit 21 and is electrically connected to the strobe circuit is attached to the lower portion of the printed circuit board 42. A plurality of contact portions 45 are provided on the front side of the printed circuit board 42. When the charging operation member 6 is slid toward the upper ON position on the front side of these contact portions 45, the printed circuit board is pressed by a protrusion (not shown) formed on the back surface of the charging operation member 6. A metal charging switch contact piece 46 is disposed so as to come into contact with the contact portion 45 of 42 and cause the strobe circuit to perform strobe charging.
[0022]
The printed circuit board 42 is provided with a synchro switch 48 for strobe light emission. The sync switch 48 is composed of two elastic metal contact pieces. One metal contact piece is pushed by a shutter blade incorporated in the exposure unit 20 that is opened when the shutter button 8 is pressed, and the other metal contact piece. Turns on by touching a piece.
[0023]
On the back side of the printed circuit board 42 are a display LED (not shown) that is a display light-emitting element that faces the display light guide 10 and emits light upon completion of charging, and a light-emitting element that serves as a light source of the data copying device. An imprinting LED is attached. The imprinting LED emits light when the synchro switch 48 is turned on regardless of whether the strobe is charged or not.
[0024]
The rear cover 23 is assembled on the back side of the main body 19 to cover the inside of the main body 19 in a light-tight manner. Further, a film support surface 23a for supporting the back side of the photographic film 16 facing the aperture is formed at the center of the front side of the rear cover 23. Below the rear cover 23, bottom lids 50 and 51 are provided to cover the lower surfaces of the cartridge chamber 35 and the film roll chamber 36. These bottom lids 50 and 51 are formed to be bendable with respect to the rear cover 23. The bottom lid 50 is opened when the film cartridge 18 is taken out from the cartridge chamber 35.
[0025]
As shown in FIG. 4, the front cover 22 includes a front cover main body 53 and a front panel 54 attached to the front surface of the front cover main body 53, and the front cover main body 53 includes an objective formed on the front panel 54. A finder opening 55 having the same shape as the side finder window 4 is formed. In addition, a charging operation member 6, a visual field switching plate 56, and a toggle spring 57 are incorporated between the front cover main body 53 and the front panel 54.
[0026]
The charging operation member 6 is attached to the front surface side of the opening 59 formed in the front cover main body 53, and is exposed from the front cover 22 and actually operated, and a board attached to the front surface of the front cover main body 53. A portion 61 and an engaging portion 64 that is inserted into a slit 62 formed on the front surface of the front cover main body 53 and engages with a pin 63 formed integrally with the display light guide 10. The charging operation member 6 is slidable in the vertical direction along the slit 62 of the front cover body 53.
[0027]
A slit 66 extending in the vertical direction is formed in the substrate portion 61, and a pin 67 protruding from the front surface of the front cover body 53 is inserted into the slit 66. Then, when the charging operation member 6 slides in the vertical direction, a recess formed on the inner wall surface of the slit 66 engages with the pin 67 and gives a click feeling to the sliding operation of the charging operation member 6.
[0028]
The operation unit 60 is disposed so as to face the opening 59 of the front cover main body 53, and the metal contact piece 46 of the strobe unit 21 is pressed through the opening 59 on the back surface of the operation unit 60 when it is slid upward. A protrusion (not shown) that is brought into contact with the contact portion 45 is formed. As a result, the strobe unit 21 continuously performs strobe charging while the charging operation member 6 is slid upward.
[0029]
The display light guide 10 is formed using transparent plastic, and has a mounting portion 69 that is slidably mounted on the exposure unit 20 in the vertical direction, and a pin 63 that engages with the engaging portion 64 of the charging operation member 6. When facing the display LED attached to the back side of the printed circuit board 42 when being slid upward by the charging operation member 6, the light from the LED is guided by internal reflection to be outside the film unit with lens 2 And a guide portion 70 that radiates the light.
[0030]
The field switching plate 56 is formed in a substantially disc shape by the same plastic as the front cover body 53 and the front panel 54, and a circular opening 72 formed in the center portion is formed in the front surface of the front cover body 53. By being fitted on the outer periphery of the lens barrel 73, the lens barrel 73 is rotatably attached to the front cover body 53. The toggle spring 57 has a pin 74 on the front surface of the front cover body 53 inserted in a coil portion 57a formed at one end, and the other end 57b is inserted into a hole 56a in the field switching plate 56, so that the field switching plate 56 is placed in the middle. Energize in two directions across the position.
[0031]
A boss 76 is integrally formed at the lower front portion of the field switching plate 56, and this boss 76 is inserted into an arc-shaped slit 78 formed below the convex portion 77 of the front panel 54. A finder switching operation knob 7 formed larger than the boss 76 is attached to the boss 76 inserted into the slit 78 from the front side of the front panel 54.
[0032]
On the outer periphery of the field switching plate 56, an aspect, which is a switching finder frame, is inserted / removed in front of the finder optical system 40 incorporated in the exposure unit 20 between the objective finder window 4 and the finder opening 55. A panorama size (P size) finder frame 80 having a ratio of 3.0 and a C size finder frame 81 having an aspect ratio of 1.5 are formed. In addition, a notch 82 is formed between the panoramic finder frame 80 and the C size finder frame 81 so as to open the space between the objective finder window 4 and the eyepiece finder window 14 which are standard finder frames. Has been.
[0033]
In the lens-fitted photo film unit 80 of the present embodiment, a high-definition size (H size) with an aspect ratio of 1.8 is a standard size, and the object-side finder window 4 that is a standard finder frame has an aspect ratio of 1.8. . Therefore, in the film unit 2 with a lens at the start of use, the notch portion 82 of the field switching plate 56 faces the object side finder window 4, so that the space between the eyepiece side finder window 4 and the object side finder window 14 is open. Thus, the visual field range becomes H size.
[0034]
Further, when the finder switching operation knob 7 is operated to rotate the visual field switching plate 56 counterclockwise in the figure, the C size finder frame 81 is inserted between the eyepiece finder window 4 and the finder optical system 40. The Thereby, the visual field range becomes C size. Further, by operating the finder switching operation knob 7 to rotate the visual field switching plate 56 in the clockwise direction in the drawing, the P size finder frame 80 is inserted between the eyepiece side finder window 4 and the finder optical system 40, The visual field range is P size.
[0035]
On the outer periphery of the opening 72 of the visual field switching plate 56, a cam groove 84 having a bent shape is formed by changing the distance from the center of the opening 72. The cam groove 84 is attached to the main body portion 19 and is formed on one arm portion 86 of the two arm portions 86 and 87 formed on the rotation lever 85 constituting the data copying device. A pin 88 is inserted. Further, a concave portion 84b with which the pin 88 engages is formed in the central portion of one inner wall surface 84a of the cam groove 84.
[0036]
As shown in FIG. 5, the rotation lever 85 is pivotally supported by a pin 90 that protrudes above the light shielding cylinder 32 provided at the center of the main body 19. A pin 88 formed at the tip of the arm portion 86 of the rotation lever 85 passes through a lower portion of the finder optical system 40 of the exposure unit 20 and a notch 55a formed continuously to the finder opening 55 of the front cover body 53. It is inserted into the cam groove 84 of the switching plate 56. Thereby, when the visual field switching plate 56 rotates, the pin 88 moves in a direction substantially perpendicular to the rotation of the cam groove 84, and the rotation lever 85 rotates in conjunction with this.
[0037]
A concave portion 92 is formed below the light-shielding cylinder 32 along the film transfer direction, and imprint openings 93 and 94 for imprinting optical marks indicating the print size on the photographic film 16 are formed in the concave portion 92. Is formed. In the recess 92, a mark switching plate 95 made of a thin plastic material having a light shielding property is attached so as to be slidable in the left-right direction. The mark switching plate 95 is formed with an opening 95a for opening the printing openings 93 and 94 at a specific slide position.
[0038]
A pin 99 formed at one end of the slide lever 98 is engaged with a hole 97 formed at the end of the mark switching plate 95. The slide lever 98 is assembled below the light shielding cylinder 32 so as to be slidable in the left-right direction. Further, the other end of the slide lever 98 is formed with a fork portion 101 that extends around the side of the light shielding cylinder 32 and engages with the pin 100 formed on the arm portion 87 of the rotation lever 85. Has been. Accordingly, the mark switching plate 95 is slid in the left-right direction by the slide lever 98 that slides in conjunction with the rotation of the rotation lever 85.
[0039]
On the front side of the mark switching plate 95, a copying light guide 103 and a light shielding cover 104 are attached. The imprinting light guide 103 is made of transparent plastic, guides the light emitted from the imprinting LED 105 attached to the back side of the printed circuit board 42 of the strobe unit 21 by internal reflection, and imprints the aperture. Light is emitted from 93 and 94 toward the photographic film 16.
[0040]
The light shielding cover 104 is attached to the main body 19 so as to cover the printing openings 93 and 94, the mark switching plate 95, and the copying light guide, and external light that has entered the film unit 2 with a lens is projected into the opening. The light is shielded from reaching the photographic film 16 through 93 and 94. Further, the light shielding cover 104 does not leak the light emitted from the copying LED 105 into the lens-fitted photo film unit 2, and further prevents the light other than the copying LED 105 from entering the copying light guide. A cylindrical portion 107 into which the insertion LED 105 is inserted is integrally formed.
[0041]
As shown in FIG. 1 which is a cross-sectional view of the main part in a state in which the copying LED 105 is housed in the cylindrical portion 107 of the light shielding cover 104, the light shielding property and flexibility are provided between the copying LED 105 and the printed circuit board 42. A light shielding member 109 formed of a material having a property, for example, silicon rubber is disposed. The light shielding member 109 is sandwiched between the printed circuit board 42 and the cylindrical portion 107 of the light shielding cover 104 so as to be slightly crushed, so that external light enters the cylindrical portion 107 from the base of the LED 105 for copying, and a copy. The light of the LED 105 for insertion is prevented from leaking into the lens-fitted photo film unit 2.
[0042]
The imprinting LED 105 and the light shielding member 109 are the leads protruding from the opposite surface of the light shielding member 109 by inserting the lead terminals 105a and 105b of the imprinting LED 105 into the holes 109a and 109b formed in the light shielding member 109. The terminals 105a and 105b are inserted into the through holes 42a and 42b of the printed board 42. The diameter of the holes 109a and 109b formed in the light shielding member 109 is almost the same as the thickness of the lead terminals 105a and 105b, but the fitting amount between the holes 109a and 109b and the lead terminals 105a and 105b is long. Further, external light does not enter the cylindrical portion 107 from between the hole of the light shielding member 109 and the lead terminal of the copying LED 105. As described above, since the appropriate light shielding property can be obtained without bending the lead terminals 105a and 105b, the light shielding member 109 can be made small, and the size of the printed circuit board 42 can be maintained.
[0043]
Further, a protrusion 111 for integrally controlling the height of the LED 105 for copying with respect to the printed circuit board 42 and identifying the upper and lower sides of the light shielding member 109 is integrally formed on the upper surface 109c of the light shielding member 109 that supports the LED 105 for copying. Has been.
[0044]
Further, an identification protrusion 112 for identifying the polarity of the imprinting LED 105 is integrally formed on the side surface of the light shielding member 109 when the imprinting LED 105 to which the light shielding member 109 is attached is attached to the printed circuit board 42. ing. When the copying LED 105 is attached to the light shielding member 109, the longer lead terminal of the copying LED 105, for example, the lead terminal 105a is inserted into the hole 109a on the side where the identification protrusion 112 is provided. Thus, the polarity of the imprinting LED 105 can be confirmed by the identification protrusion 112 and attached to the printed circuit board 42.
[0045]
Furthermore, since silicon rubber is resistant to heat, the imprinting LED 105 can be attached to the printed circuit board 42 using dip solder in a state where the light shielding member 109 is attached to the lead terminals 105a and 105b. As a result, the imprinting LED 105 can be soldered to the printed circuit board 42 together with other electrical components by an automatic machine, so that the same manufacturing efficiency as when the light shielding member 109 is not used can be ensured. Further, since silicon rubber has little change over time with respect to changes in temperature and humidity, it does not deteriorate the reusability of the strobe unit 21.
[0046]
Further, by molding the light shielding member 109 with a flexible material, even if there is a variation in the assembly accuracy between the main body portion 19 and the front cover 22, the light shielding member 109 can absorb it, and the film unit with a lens can be absorbed. Even when vibration or impact is applied to 2, the light shielding property can be maintained. Further, since the light shielding member 109 also serves as a cushion, the copying LED 105 can be protected from impact, and the reuse rate of the strobe unit 21 can be improved.
[0047]
As shown in FIG. 5, the slide lever 98 is slidably attached to the front side of the light shielding cover 104 in the left-right direction. Further, when the other end of the coil spring 114 having one end hooked on the light shielding cover 104 is hooked on the pin 115, the slide lever 98 is biased toward the right in the drawing. As a result, the pin 88 of the arm portion 86 of the rotation lever 85 always comes into contact with the inner wall surface of the cam groove 84 of the visual field switching plate 56, and the rotation of the visual field switching plate 56 is reliably transferred to the mark switching plate 95. Can communicate.
[0048]
As shown in FIG. 6, when the finder switching operation knob 7 is operated so that the notch 82 faces the object side finder window 4 and the finder field of view becomes H size, the coil spring 114 urges it counterclockwise in the figure. The pin 88 of the rotation lever 85 engages with a recess 84 b formed on one inner wall surface 84 a of the cam groove 84. As a result, a feeling of clicking is given to the finder switching operation knob 7 and the visual field switching plate 56 is positioned at a position where the finder visual field becomes the H size.
[0049]
When the pin 88 of the rotation lever 85 is engaged with the recess 84b, the slide lever 98 slid by the rotation lever 85 slides the mark switching plate 95. At this time, since the mark switching plate 95 blocks both the printing openings 93 and 94, the optical mark is not copied onto the photographic film 16.
[0050]
When the finder switching operation knob 7 is operated so that the C size finder frame 81 faces the object side finder window 4 and the finder visual field becomes C size, the visual field switching plate 56 is rotated counterclockwise in the figure by the toggle spring 57. Energized and positioned at a position where the viewfinder field becomes C size. At this time, the mark switching plate 95 is moved to the left in the figure, and the opening 95a matches the opening 93. As a result, both the imprinting openings 93 and 94 are opened, so that two optical marks are imprinted on the photographic film 16.
[0051]
Further, when the finder switching operation knob 7 is operated so that the P size finder frame 80 faces the object side finder window 4 and the finder visual field becomes P size, the visual field switching plate 56 is attached clockwise by a toggle spring 57 in the drawing. And is positioned at a position where the viewfinder field becomes P size. The mark switching plate 95 is moved to the right in the figure, and the opening 95a matches the imprinting opening 94 and closes one imprinting opening 93. Thereby, one optical mark is imprinted on the photographic film 16.
[0052]
Next, the operation of the above embodiment will be described. In the lens-fitted photo film unit 2 shown in FIG. 2, an exposure unit 20 and a strobe unit 21 assembled on another assembly line are attached to a main body 19 to be conveyed. When the film cartridge 18 is loaded into the main body 19, the rear cover 23 is attached to the back of the main body 19, and the front cover 22 is assembled to the front of the main body 19.
[0053]
In the assembly line of the strobe unit 21, the lead terminals 105a and 105b of the copying LED 105 are inserted into the holes 109a and 109b of the light shielding member 109 formed of silicon rubber. When inserting the lead terminals 105 a and 105 b, the longer lead terminal, for example, the lead terminal 105 a is inserted into the hole 109 a on the identification protrusion 112 side of the light shielding member 109. Thus, the polarity of the imprinting LED 105 can be easily confirmed without confirming the length of the lead terminal of the imprinting LED 105, and can be set on the printed circuit board 42 without making a mistake.
[0054]
Further, since the light shielding member 109 is formed of heat-resistant silicone rubber, it can be soldered to the printed circuit board 42 with dip solder together with other electrical components, and the manufacturing efficiency of the strobe unit 21 is improved. Can do.
[0055]
The completed lens-fitted film unit 2 is shipped in a moisture-proof bag after undergoing a function test. A user who has purchased the lens-fitted photo film unit 2 performs a film winding operation by rotating the winding knob 12 of the lens-fitted photo film unit 2 shown in FIG. The spool 25 of the cartridge main body 17 shown in FIG. 3 is rotated while winding the photographic film 16 by the rotation of the winding knob 12, and accordingly, the shutter charging of the exposure unit 20 is performed by the shutter mechanism. The user slides the finder switching operation knob 7 according to the print size to be photographed.
[0056]
When the finder switching operation knob 7 is slid, as shown in FIG. 4, the field switching plate 56 connected to the finder switching operation knob 7 moves around the photographing lens 3 between the front cover body 53 and the front panel 54. Rotate. Although not shown, three types of indices (H size, P size, and C size) for matching the finder switching operation knob 7 are provided outside the slit 78 through which the finder switching operation knob 7 moves. When the switching operation knob 7 is set to one of the indexes, the field switching plate 56 is positioned, and a P size finder frame 80, a C size finder frame 81, or a notch 82 formed on the outer periphery of the field switching plate 56. Either of them faces the object side viewfinder window 4 and switches the field of view.
[0057]
Further, in conjunction with the rotation of the visual field switching plate 56, the rotation lever 85 engaged with the cam groove 84 rotates. For example, when the finder switching operation knob 7 is rotated from the H size shown in FIG. 6 toward the C size counterclockwise in the figure, the C size finder frame 81 of the field switching plate 56 is moved to the objective finder window 4. Facing each other, the shape of the visual field range is C size.
[0058]
The rotation lever 85 engaged with the cam groove 84 is rotated in the clockwise direction in the drawing by the rotation of the visual field switching plate 56, and the slide lever 98 is slid to the left in the drawing in conjunction with this. In the mark switching plate 95, since the opening 95a faces the printing opening 93, both the printing openings 93 and 94 are opened.
[0059]
In the above state, external light may be incident between the main body 19 and the front cover 22, but the light shielding member 109 attached to the lead terminals 105 a and 105 b of the copying LED 105 is connected to the light shielding cover 104. The tube portion 107 and the printed board 42 are sandwiched and slightly crushed. Thereby, external light does not enter the light shielding cover 104 from the root portion of the LED 105 for printing.
[0060]
When shooting without using a strobe, framing is performed with the viewfinder and the shutter button 8 is pressed. Then, the shutter mechanism of the exposure unit 209 performs a release operation, and in synchronization with this, the sync switch 48 of the strobe unit 21 is turned on. When the sync switch 48 is turned on, the imprinting LED 105 lights up for a predetermined time regardless of whether the strobe is used.
[0061]
The light emitted from the copying LED 105 passes through the inside of the cylindrical portion 107 and enters the copying light guide 103. The light incident on the copying light guide 103 is reflected in the copying light guide 103 and reaches the photographic film 16 through the mark switching plate 95 and the copying openings 93 and 94, and the optical of the photographic film 16. Expose the mark. Note that the light emitted from the imprinting LED 105 does not leak into the lens-fitted photo film unit 2 due to the light shielding between the cylindrical portion 107 of the light shielding cover 104 and the light shielding member 109, and the light from the imprinting LED 105 is not converted into the lens. The photographic film 16 is not exposed by entering the film passage through the gap in the attached film unit 2.
[0062]
In the above embodiment, the cylindrical portion 107 into which the copying LED 105 is inserted is provided in the light shielding cover 104, but as shown in FIG. 7, the copying LED 105 is inserted into the light shielding member 120 formed of silicon rubber. A cylindrical portion 121 may be provided, and the tip portion of the cylindrical portion 121 may be pressed against the light shielding cover 122. According to this, the light from the root and the side of the copying LED 105 can be blocked by the light blocking member 120, and the height and inclination of the copying LED 105 can be easily controlled.
[0063]
When the fitting amount between the lead terminals 105a and 105b and the light shielding member 120 is small, the diameter φA of the holes 120a and 120b of the light shielding member 120 is imprinted as shown in FIG. The diameter is smaller than φB. According to this, since the inner walls of the holes 120a and 120b of the light shielding member 120 are in close contact with the lead terminals 105a and 105b due to elasticity, external light is incident between the hole of the light shielding member 120 and the lead terminal of the LED 105 for copying. There is nothing.
[0064]
Further, as shown in FIG. 9, the thin portions 126a and 126b are formed so as to remain without completely penetrating the holes 125a and 125b of the light shielding member 125, and the thin portions 126a and 126b are imprinted as leads of the LED 105 for imprinting. You may make it break by terminal 105a, 105b. According to this, since the thin portions 126a and 126b become elastic burrs and are in close contact with the lead terminals 105a and 105b, external light is incident between the hole of the light shielding member 125 and the lead terminal of the LED 105 for copying. There is nothing.
[0065]
Further, when dip solder is not used for soldering the imprinting LED 105 to the printed circuit board 42, as shown in FIG. 10, the plate-shaped malt plain 130 is connected to the cylindrical portion 132 of the light shielding cover 131 and the printed circuit board 42. It is good also as a light-shielding member by inserting | pinching between. In addition, other materials having light-shielding properties and flexibility, such as clay, can be used instead of malt plain.
[0066]
Furthermore, although the said embodiment demonstrated and demonstrated the film unit with a lens which uses a film cartridge, it can be used also for the film unit with a lens which uses a 135 type photographic film. In addition to the lens-fitted photo film unit, it can be used for a camera.
[0067]
【The invention's effect】
As described above, according to the data copying apparatus of the present invention, since the light shielding member is formed of a flexible material, even if there is a dimensional variation between the printed board and the light shielding cover, it is ensured. Shading can be performed. In addition, the lead terminal does not need to be bent and the light shielding member is small, so that the lead terminal can be attached to the printed circuit board at low cost and space saving. Further, since the light shielding member is flexible, the light shielding can be maintained even when vibration or impact is applied, and the light emitting element can be protected.
[0068]
In addition, since the light shielding member is formed of heat-resistant silicon rubber, the light emitting element can be attached to the printed circuit board using dip solder, and the manufacturing efficiency can be improved and the cost can be reduced.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a main part showing a configuration in the vicinity of a copying LED of a data copying apparatus of the present invention.
FIG. 2 is a perspective view showing an external appearance of a lens-fitted photo film unit incorporating a data copying apparatus according to the present invention.
FIG. 3 is an exploded perspective view showing a configuration of a lens-fitted photo film unit.
FIG. 4 is an exploded perspective view showing a configuration of a front cover.
FIG. 5 is an exploded perspective view showing a configuration of a data copying apparatus.
FIG. 6 is a schematic front view showing a configuration of a data copying apparatus.
FIG. 7 is a cross-sectional view of an essential part showing a configuration in the vicinity of a copying LED of a data copying apparatus according to another embodiment of the present invention.
FIG. 8 is an explanatory view showing a dimensional difference between a light shielding member and a copying LED of another embodiment.
FIG. 9 is a cross-sectional view showing a light shielding member using different hole shapes according to another embodiment.
FIG. 10 is a cross-sectional view of an essential part showing a configuration in the vicinity of a copying LED of a data copying apparatus according to still another embodiment.
[Explanation of symbols]
2 Film unit with lens
16 Photo film
19 Body
20 exposure units
21 Strobe unit
42 Printed circuit board
103 Light guide for imprinting
104 Shading cover
105 LED for imprinting
109, 120, 125, 131 Shading member

Claims (6)

A printing aperture provided facing the exposure surface of the photographic film;
A light emitting device that emits light by being attached to a printed circuit board, radiates the emitted light, irradiates the photographic film through the aperture,
A light shielding cover that covers the imprint opening and the light emitting element and shields light other than the light emitting element from entering the imprint opening;
A light-shielding member made of a material having light-shielding properties and flexibility, and inserting a lead terminal of the light-emitting element into a hole for a lead terminal provided in the light-shielding member, thereby interposing the light-emitting element and the printed board. A data copying device that incorporates a light shielding member and inserts the light shielding member between a printed circuit board and a light shielding cover to perform light shielding,
The light shielding member has a substantially disk shape in which the hole for the lead terminal is provided so as to penetrate the upper and lower surfaces, and an identification protrusion representing the polarity of the lead terminal on the side surface close to the hole for one lead terminal is provided, the data imprinting device characterized by inserting the lead terminals into the holes in accordance with the identification protrusion.   The data copy according to claim 1, wherein a protrusion that contacts the light emitting element is provided on the upper surface of the light shielding member, and the upper and lower surfaces of the light shielding member are identified by the protrusion and are contacted with the light emitting portion of the light emitting element. Device.   3. The data copying apparatus according to claim 1, wherein an inner diameter of the hole into which the lead terminal of the light shielding member is inserted is made thinner than a diameter of the lead terminal.   4. The data imprint according to claim 1, wherein the hole into which the lead terminal of the light shielding member is inserted is formed so as not to penetrate, and is pierced when the lead terminal is inserted. apparatus. 5. The light-shielding member is provided with a cylindrical portion in which a light-emitting portion of a light-emitting element is inserted to shield the outer periphery thereof, and the cylindrical portion is in contact with the light-shielding cover. Or a data imprinting device.   6. The data copying device according to claim 1, wherein the light shielding member is formed of silicon rubber.

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