JP3990222B2 - Shutter device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a kick-off shutter device that can reduce the shutter speed without causing uneven exposure.
[0002]
[Prior art]
In a simple camera such as a lens-fitted photo film unit, a so-called kicking-type shutter device is employed for thorough cost reduction. The kicking-type shutter device urges the rotating shutter blade to the initial position to close the exposure opening with a return spring, and kicks the shutter blade in a direction opposite to the urging direction to rotate the shutter blade back and forth. Open and close the exposure aperture.
[0003]
In a simple camera, the shutter speed of the shutter device is set to 1/100 seconds to 1/150 seconds, and the aperture of the photographing lens is a fixed aperture of F8 to F11. When the photographic film is ISO400, the appropriate brightness is about LV11, and the amount of outdoor light during the day is about LV10 (cloudy) to 15 (clear). In the case of a negative film, the latitude is wide on the overexposed side.
[0004]
Then, under shooting conditions such as night scene shooting where the amount of shooting light is insufficient, the built-in flash device is driven to perform flash shooting. However, in this strobe shooting, a person located 2 to 3 m from the camera is exposed to the strobe light for proper exposure, but the background does not reach the strobe light, and the light amount is about LV 6-7. The difference is about 4-5 EV and it is almost completely black. This results in a very unnatural photo.
[0005]
If the difference of 4 to 5 EV is set to appropriate exposure by changing the stop, the stop becomes F1.4 to F2.8. That is, the photographic lens itself needs to have this brightness, which cannot be realized with a low-cost camera. In addition, since the depth of field becomes shallow, problems arise in terms of focusing and image quality. With regard to the depth of field, a simple camera that cannot adjust the focus requires at least about F5.6 when the focal length of the taking lens is 35 mm, for example. Therefore, it is necessary to slow down the shutter speed.
[0006]
Japanese Patent Application Laid-Open No. 2001-22035 discloses a lens-fitted photo film unit capable of making the shutter speed during strobe shooting slower than that during normal shooting. This lens-equipped film unit switches the tension of the return spring of the shutter blade during strobe shooting to make it weaker than during normal shooting, so that the shutter speed during normal shooting is 1/150 seconds down to 1/60 seconds. It is late. In order to reduce the shutter speed, there is a method of delaying the opening and closing of the shutter blades by a governor mechanism.
[0007]
[Problems to be solved by the invention]
As a means for slowing down the shutter speed, an electric means such as a plunger is used even in a relatively low-cost camera, and cannot be adopted in a simple camera such as a lens-fitted photo film unit. In the above publication, the shutter speed is slowed down to 1/60 seconds during strobe shooting, but even 1/60 seconds is insufficient to support night scene shooting of about LV6-7. To further reduce the shutter speed by the same method, the tension of the return spring is further weakened during flash photography, but the opening speed of the exposure opening by kicking is almost the same as that during normal photography, but the shutter by the return spring is used. Since the return speed of the blades is slowed down, the closing speed of the exposure opening is significantly slowed down, resulting in a light quantity difference in the film exposure screen. Also, the slow shutter with the governor mechanism has a closing speed much slower than the opening speed of the shutter blades, so that a light amount difference occurs in the exposure screen of the film.
[0008]
SUMMARY OF THE INVENTION An object of the present invention is to provide a kicking-type shutter device that can reduce the shutter speed without causing uneven exposure at low cost.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the shutter device of the present invention is urged in the direction to close the exposure opening, and the shutter blade that opens and closes the exposure opening and the shutter blade against the bias in response to the shutter release operation. While turning In a kick-off type shutter device comprising a shutter driving member that opens and closes an exposure opening by kicking, the shutter blade projects onto the rotation trajectory of the shutter blade with the exposure opening open, and locks the shutter blade. The shutter blade locking position that prevents the shutter blade from closing the exposure opening, and the shutter blade closing operation by retreating from the shutter blade rotation trajectory and releasing the shutter blade locking is permitted. It is provided so as to be movable between the shutter blade lock release position. The spring is biased from the shutter blade locking release position toward the shutter blade locking position. Delay lever, A governor mechanism that is charged by the rotation of the shutter driving member to the initial position and is locked by the shutter driving member, and is released when the shutter driving member kicks the shutter blade and starts driving; After the shutter blade is kicked Said The governor mechanism is rotated over a predetermined time, and the delay lever is Against the spring bias A delay release lever that moves from the shutter blade engagement position to the shutter blade engagement release position is provided.
[0010]
Also, A delay prohibiting means for prohibiting the closing operation of the exposure opening by the delay lever and opening and closing the exposure opening by the shutter blade without delay is provided. In conjunction with the delay inhibiting means, when the exposure aperture closing operation prevention is prohibited, an aperture that narrows the aperture area of the exposure aperture is inserted into the photographing optical axis, and the exposure aperture closing operation prevention is allowed. In the state, there is provided a diaphragm / filter insertion means for inserting a predetermined filter into the photographing optical axis instead of the diaphragm. Is.
[0011]
Further, after being kicked and rotated by a shutter driving member that responds to a shutter release operation, the spring is biased. The kicking force by the shutter drive member is eliminated. A kicked member that returns to its original position; It has a rod-like protrusion provided on the kicked-off member, a crest that engages with the rod-like protrusion, and a skirt of the arc, and the rod-like protrusion pushes the crest at the beginning of rotation of the kicked-off member. To rotate against the spring bias from the initial position, and then the rod-like protrusions climb over the peaks and engage with the skirts of the arc to stop the rotation, and the kicked member is returned to the original position. When returning, return to the initial position by spring bias A drive lever; The drive lever is pivotably engaged, and is provided so as to be rotatable between an open position for opening the exposure opening and a closed closed position. When the drive lever is rotated from the initial position, it is opened from the closed position. While rotating to the position, the rotation of the drive lever is stopped while the rotation of the drive lever is stopped. When the drive lever returns to the initial position, it is rotated from the open position to the closed position. With shutter blades Is provided.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
In FIG. 1 showing a simple camera 10 using the shutter device of the present invention, a photographing lens 12, an objective finder window 13, a strobe light emitting unit 14, a mode switching knob 15, a lens barrier opening / closing knob are provided on the front surface of the camera body 11. 16 is provided. Further, on the upper surface of the camera body 11, a shutter button 17, a counter window 18 for displaying the number of shot frames, a charging completion display window 19 and a rewinding rotating crank 20 are provided. Further, on the back side of the camera body 11, a winding dial 21, which is rotated every time one frame is photographed, an eyepiece finder window, and a back cover (not shown) that is opened and closed when the film is loaded are provided.
[0013]
The mode switching knob 15 is operated when switching from the normal shooting mode to the strobe shooting mode or the night scene shooting mode. When the mode switching knob 15 is moved upward in the recess 22a formed in the cover 22, the strobe shooting mode is displayed. You can switch to night view mode by turning. In the flash photography mode and the night scene photography mode, the flash device 23 (see FIG. 2) built in the camera body 11 is continuously charged. When the charging of the strobe device 23 is completed, the light emitting diode is turned on, and the photographer can check this through the charging completion display window 19. When the shutter button 17 is pressed after the charging is completed, strobe light is emitted from the strobe light emitting unit 14 simultaneously with the operation of the shutter.
[0014]
As shown in FIG. 2, a main body base 25 is provided in the camera main body 11. In the main body base 25, there are formed a cartridge chamber 25a and a film take-up chamber 25b for loading the cartridge main body of the photographic film cartridge, and an aperture 25c and a dark box 25d are formed in the middle of these. A strobe device 23 is attached above the cartridge chamber 25a.
[0015]
A winding dial 21 is rotatably disposed above the film winding chamber 25b, and a winding shaft in the film winding chamber 25b is integrally attached to the lower portion thereof. By rotating the winding dial 21 counterclockwise in the figure, the photographic film drawn out from the cartridge main body is wound around the winding shaft and wound into the film winding chamber 25b. In this embodiment, the ISO 400 negative film is used as the photographic film.
[0016]
An opening 25e through which the sprocket 28 engaged with the perforation of the photographic film is inserted and a light shielding cylinder 25f are formed on the dark box 25d. In addition, a clutch 29 that restricts the rotation of the sprocket 28 in one direction is incorporated in the sprocket 28.
[0017]
The shutter unit 30 is attached to the dark box portion 25d. The shutter unit 30 incorporates a shutter charge mechanism and the like, and includes a shutter base 31 having an exposure opening 31a formed in the front portion, and a shutter blade 32 that is rotatably attached to the front portion and opens and closes the exposure opening 31a. , A partition plate 33, a diaphragm plate 34, a shutter cover 35, a lens unit 36 in which the photographing lens 12 is incorporated, and a sync switch 37. The partition plate 33 is provided between the shutter blade 32 and the diaphragm plate 34 so that they do not interfere with each other, and a circular opening 33a is formed in the photographing optical path.
[0018]
Behind the mode switching knob 15 is provided a mode switching plate 38 that moves in conjunction with the mode switching knob 15. A long hole 38a is formed in the mode switching plate 38, and a pair of bosses 25g and 25h formed on the wall surface of the cartridge chamber 25a are inserted into the long hole 38a, so that the mode switching plate 38 is movable in the vertical direction. . A small protrusion 38b is formed on the side of the mode switching plate 38, and a click stop mechanism is formed between the small protrusion 38b and the protrusion 25i formed on the wall surface of the cartridge chamber 25a. A long hole 38c is formed in the vicinity of the protrusion 38b to give elasticity to the protrusion 38b.
[0019]
An aperture switching lever 39 is disposed above the mode switching plate 38, and an elastic lever 38d that protrudes in the horizontal direction of the mode switching plate 38 due to the rising of the mode switching plate 38 is formed on the rod-shaped protrusion 39a of the aperture switching lever 39. Engage and push this up. Thereby, the aperture switching lever 39 is rotated counterclockwise.
[0020]
A diaphragm plate 34 is engaged with the diaphragm switching lever 39, and the diaphragm plate 34 rotates with the rotation of the diaphragm switching lever 39, and a diaphragm opening 34 a formed at the tip of the diaphragm plate 34 is photographed. The lens 12 is inserted into and removed from the photographing optical axis L. Note that the photographing aperture only by the exposure aperture 31a is F5.6 (night scene shooting mode), and when the aperture opening 34a is inserted into the shooting optical axis L of the shooting lens 12, the shooting aperture is F8 (normal shooting mode). And strobe shooting mode). Further, a gear portion 40a of a shutter speed switching lever 40 described later meshes with a gear portion 39b of the aperture switching lever 39.
[0021]
A boss 16 a formed on the back surface of the lens barrier opening / closing knob 16 is inserted into the hole 41 a of the shooting mode reset lever 41. When the lens barrier opening / closing knob 16 is slid horizontally in the closing direction of the lens barrier 42 fixed integrally therewith, the shooting mode reset lever 41 is also slid horizontally and the shooting mode reset lever 41 is tapered. Since the tip end portion 41b formed on the engaging portion engages with the roller portion 38f of the inclined bar 38e formed obliquely below the mode switching plate 38, the mode switching plate 38 is pulled back downward. As a result, the charging switch 23a (see FIGS. 15 to 18) of the strobe device 23 is turned off, and wasteful power consumption can be prevented.
[0022]
3 to 5 showing the basic configuration of the shutter unit 30 in the shutter charge state, the shutter blade 32 is rotatably attached to a pin 31 b formed on the shutter base 31. The shutter blade 32 is biased counterclockwise by the coil spring 44 and is held at an initial position that closes the exposure opening 31a.
[0023]
At the upper part of the shutter base 31, a shutter drive lever 45 that opens and closes the exposure opening 31a by kicking the shutter blade 32 at the time of shooting, a locking lever 46 that locks this at the charging position, and the sprocket 28 are provided coaxially. A set cam 47 is provided for setting a shutter drive lever 45 and a governor lever 52 (see FIGS. 9 and 10), which will be described later, to the charge position as the film is conveyed.
[0024]
The shutter drive lever 45 includes a kick arm 45 a for kicking the claw portion 32 a of the shutter blade 32, a hook 45 b that contacts the semicircular plate 48 of the set cam 47, and a protrusion that contacts the protrusion 46 a provided on the locking lever 46. 45c, a protrusion 45d provided on a lower surface that engages with a protrusion 52a of a governor lever 52 of a governor mechanism, which will be described later, and a protrusion 45e that abuts the shaft portion of the governor lever 52 and defines the position after kicking (FIG. 9). reference). Further, one end 51a of a torsion spring 51 that urges the shutter drive lever 45 counterclockwise in FIG. 5 is engaged with the rear portion of the protrusion 45c.
[0025]
The locking lever 46 is formed with a locking claw 46 a, a projection 46 b, a release portion 46 c, and a winding stopper 46 d, and is rotatably attached to a shaft provided on the upper portion of the shutter base 31. The locking lever 46 is urged clockwise in the drawing by a torsion spring (not shown). The protrusion 46b of the locking lever 46 contacts the protrusion 45c of the shutter drive lever 45, and holds the shutter drive lever 45 in the charge position.
[0026]
The locking claw 46 a is provided so as to enter the notch 55 a of the deformable disk 55. The winding stopper 46d engages with a groove 21a formed on the outer peripheral portion of the winding dial 21 when the shutter drive lever 45 rotates clockwise in the drawing, and locks the rotation of the winding dial 21. When the shutter button 17 is pressed, the release portion 46c is pressed by a pressing piece (not shown) formed under the shutter button 17, and the locking lever 46 rotates counterclockwise in the drawing.
[0027]
The set cam 47 is provided with a deformed disc 55, a semi-disc 48 below it, and another semi-disc 49 below it. As described above, the deformed disk 55 is formed with the notch 55a for receiving the locking claw 46a of the locking lever 46. The semi-circular plate 48 is in contact with the hook 45b of the shutter drive lever 45 on the outer periphery thereof. Further, the semicircular plate 49 abuts the hook 52b of the governor lever 52 on the outer periphery thereof. A single-tooth gear 56 that rotates a counter plate (not shown) that displays the number of frames taken from the counter window 18 is provided above the deformed disc 55.
[0028]
The shutter blade 32 is biased counterclockwise in the figure by a coil spring 44, and is normally held at an initial position that closes the exposure opening 31a. At the time of shooting, the claw portion 32a is kicked by the shutter drive lever 45 that operates in conjunction with the pressing of the shutter button 17, and rotates clockwise in the figure to open the exposure opening 31a. Thereafter, the shutter blade 32 returns to the initial position by the bias of the coil spring 44. The rod-like protrusion 32b of the shutter blade 32 turns on the sync switch 37 (see FIG. 2) simultaneously with the opening of the exposure opening 31a.
[0029]
In FIG. 7, a fan-shaped protrusion 32c is formed on the shutter blade 32 in the vicinity of the claw portion 32a. An arc-shaped surface 32 d of the fan-shaped protrusion 32 c is an arc along the rotation path of the shutter blade 32. Further, a groove 32e is provided between the claw portion 32a and the fan-shaped protrusion 32c. A delay lever 60 as a closing operation preventing means is provided rotatably at a position facing the fan-shaped protrusion 32 c coaxially with the set cam 47. The delay lever 60 is urged clockwise by a torsion spring 61.
[0030]
The delay lever 60 is allowed to be urged clockwise in the night scene shooting mode, and its tip 60a is in contact with the arcuate surface 32d of the fan-shaped protrusion 32c (FIG. 7A). Therefore, when the shutter blade 32 is kicked by the shutter drive lever 45 that operates in response to the pressing operation of the shutter button 17, the distal end portion 60a of the delay lever 60 enters the groove 32e while the shutter blade 32 opens the exposure opening 31a. Then, the shutter blade 32 is prevented from returning in the closing direction of the exposure opening 31a (FIG. 7B).
[0031]
The delay lever 60 is provided with a pin 60b. The pin 60b is pushed from the left hand side to the right side of the drawing by a delay release lever 70 (see FIG. 10) as a closing operation permitting means of the governor mechanism after a predetermined time, and the delay lever 60 is biased by the torsion spring 61. It is counterclockwise rotated. As a result, the blocked return of the shutter blade 32 in the closing direction is released, and the exposure opening 31a is closed. That is, the shutter speed is slowed down for the time that the shutter blade 32 is stopped by the delay lever 60.
[0032]
As shown in FIG. 8, in the normal shooting mode and the flash shooting mode, the shutter speed is about 1/125 seconds (A), whereas in the night view shooting mode, the shutter speed is about 1/15 seconds by the delay lever 60. It becomes a slow shutter (B). Also in this slow shutter, the opening speed and the closing speed of the exposure opening 31a are not different from the normal shutter speed, so that there is no light amount difference (unevenness of exposure) in the exposure screen of the film. In the normal photographing mode and the strobe photographing mode, the diaphragm aperture 34a of the diaphragm plate 34 whose photographing aperture is F8 is retracted from the photographing optical axis L in the night scene photographing mode (B), so that the photographing aperture is F5 by the exposure aperture 31a. .6.
[0033]
9 to 12, the governor mechanism 65 for driving the delay release lever 70 is composed of a governor lever 52, a speed increasing gear train 67, an escape wheel 68 and an ankle 69 provided coaxially with the locking lever 46, respectively. Arranged at the top of the base 31. The governor lever 52 is formed with a gear portion 52c in addition to the projection 52a and the hook 52b, and is biased counterclockwise in FIG. 10 by a torsion spring 71 abutted on the hook 52b.
[0034]
A fan-shaped guide projection 72 and a gear 73 are integrally formed on the delay release lever 70. The gear 73 meshes with the gear portion 52 c of the governor lever 52 and meshes with the gear 67 a of the speed increasing gear train 67. The guide protrusion 72 supports and guides the lower surface of the elongated gear portion 52c formed in a hook shape, and ensures that the gear portion 52c of the governor lever 52 and the gear 73 are engaged.
[0035]
In FIG. 9 showing the relationship between the shutter drive lever 45 and the governor lever 52 from the back side, in the shutter charge state, the protrusion 52a of the governor lever 52 is engaged with the protrusion 45d of the shutter drive lever 45, and the governor lever 52 is locked at the charge position. (A). When the shutter drive lever 45 is rotated clockwise in the drawing during photographing, the protrusions 45d and 52a are disengaged, and the governor lever 52 is rotated clockwise in the drawing (B).
[0036]
As a result, the governor lever 52 starts to rotate counterclockwise in the figure from the shutter charge state shown in FIG. 10, but the rotation speed of the escape wheel 68 is adjusted by the ankle 69, so the rotation speed of the delay release lever 70 is delayed. The When the clockwise rotation of the delay release lever 70 proceeds, the delay release lever 70 pushes the pin 60b to rotate the delay lever 60 counterclockwise, and the tip end portion 60a retracts from the engagement position with the fan-shaped protrusion 32c, The return operation of the shutter blade 32 is started (see FIG. 11).
[0037]
As shown in FIGS. 13 to 18, below the delay release lever 70, a delay switching lever 75 as a delay prohibiting means is rotatably attached coaxially therewith. The delay switching lever 75 is urged clockwise by a torsion spring 76, and the claw portion 75a has a pin 60b against the urging of the torsion spring 61 except in the night scene shooting mode shown in FIGS. Is pushed to rotate the delay lever 60 counterclockwise to a position where it does not engage with the fan-shaped protrusion 32c.
[0038]
In the night scene shooting mode, the bar 40b of the shutter speed switching lever 40 pushes the protrusion 75b formed at the lower part of the delay switching lever 75, and the delay switching lever 75 is counterclockwise against the bias of the torsion spring 76. Turn to. As a result, the delay lever 60 is rotated clockwise by the urging of the torsion spring 61 to a position where it can engage with the fan-shaped protrusion 32c.
[0039]
The mode switching knob 15 is attached to a long hole (not shown) formed in the front wall of the camera body 11 through a boss 15a erected slightly downward from the center of the back surface so as to be movable up and down. Yes. Further, a pin 15b is erected slightly below the boss 15a, and engages with a hole 38g of the mode switching plate 38. The protrusion 25i is formed with an edge 25j, a recess 25k, and an edge 25l that engage with the protrusion 38b of the mode switching plate 38. Further, on the back surface of the mode switching plate 38, a short-circuiting electrical contact 78 constituting the charging switch 23a of the strobe device 23 is provided between the pair of terminals 77 provided on the side surface portion of the cartridge chamber 25a. (See FIGS. 15 to 18).
[0040]
In order to use the camera 10 configured in this way, after film loading, the winding dial 21 is turned to set the first frame in the aperture 25c. At this time, the sprocket 28 rotates following the film, and the set cam 47 rotates counterclockwise in the drawing. The semi-discs 48 and 49 integrated with the set cam 47 are rotated, and the hooks 45b and 52b that are in contact therewith are pushed, so that the shutter drive lever 45 and the governor lever 52 are rotated and set to the charging position. The sprocket 28 is rotated only in the film winding direction by the clutch 29 and does not reversely rotate.
[0041]
The lens barrier opening / closing knob 16 is slid in the opening direction (leftward in FIG. 1) to expose the photographing lens 12. Immediately after this, the mode switching knob 15 is at the lowermost position, and the normal photographing mode in which the protrusion 38b is engaged with the edge portion 25l is set. To switch from the normal shooting mode to the flash shooting mode, the mode switching knob 15 is moved upward. The projection 38b engaged with the edge 25l is engaged with the recess 25k, and the mode switching plate 38 is click-stopped (see FIG. 17). At this time, the short-circuiting electrical contact piece 78 short-circuits the pair of terminals 77 with the movement of the mode switching plate 38, the charging switch 23a of the strobe device 23 is turned on, and the charging operation of the strobe device 23 is started.
[0042]
To switch to the night scene shooting mode, the mode switching knob 15 is turned to the right from the position of the flash shooting mode. As shown in FIG. 18, the pin 15b pushes the edge of the hole 38g, and the mode switching plate 38 is pushed up further from the position of the flash photography mode. Thereby, the protrusion 38b moves from the recess 25k, engages with the upper edge 25j, and is click-stopped. Even in this state, the charging switch 23a remains on.
[0043]
The elastic lever 38d engages with the rod-shaped protrusion 39a of the aperture switching lever 39 and pushes it up, so that the aperture switching lever 39 is rotated counterclockwise. The diaphragm aperture 34a of the diaphragm plate 34 is retracted from the photographing optical axis L, and the photographing diaphragm is changed from F8 by the diaphragm aperture 34a to F5.6 by the exposure aperture 31a. Further, as the aperture switching lever 39 rotates counterclockwise, the shutter speed switching lever 40 rotates clockwise, and the bar 40b pushes the protrusion 75b.
[0044]
As shown in FIG. 14, the delay switching lever 75 is rotated counterclockwise, and the prevention of the rotation of the delay lever 60 by the claw portion 75 a is released. Therefore, the delay lever 60 is rotated clockwise by the urging of the torsion spring 61. Is rotated. As a result, as shown in FIG. 7A, the distal end portion 60a of the delay lever 60 is brought into contact with the arcuate surface 32d of the fan-shaped protrusion 32c.
[0045]
When the photographer confirms the completion of charging of the flash device 23 in the charging completion display window 19 and presses the shutter button 17, the release portion 46c is pressed by the pressing piece of the shutter button 17, and the locking lever 46 is shown in FIG. It rotates counterclockwise in the figure from the state toward the state shown in FIG. As a result, the engagement of the protrusions 45 c and 46 b is released and the shutter drive lever 45 in the charge position is rotated counterclockwise by the urging of the torsion spring 51.
[0046]
The kicking arm 45a kicks the claw portion 32a of the shutter blade 32, and the shutter blade 32 rotates clockwise in the drawing to open the exposure opening 31a. At the same time, since the bar-shaped protrusion 32b turns on the sync switch 37, the flash light is emitted from the flash light emitting unit 14 toward the subject. Further, immediately after the shutter blade 32 fully opens the exposure opening 31a, as shown in FIG. 7B, the tip end portion 60a of the delay lever 60 enters the groove 32e. As a result, the tip end portion 60a engages with the stepped portion of the fan-shaped protrusion 32c of the shutter blade 32 that attempts to return to the direction in which the exposure opening 31a is closed, thereby preventing the shutter blade 32 from returning.
[0047]
On the other hand, the protrusions 45d and 52a are disengaged with the rotation of the shutter drive lever 45, and the governor lever 52 starts to rotate counterclockwise from the charge position shown in FIG. The governor lever 52 rotates the delay release lever 70, but the delay release lever 70 rotates slowly by the governor mechanism composed of the speed increasing gear 67, the escape wheel 68, and the ankle 69.
[0048]
The delay release lever 70 pushes the pin 60b and rotates the delay lever 60 counterclockwise after a lapse of a fixed time (30 ms to 125 ms) from the start of rotation of the shutter drive lever 45. As a result, the distal end portion 60a of the delay lever 60 is retracted from the engagement position with the fan-shaped protrusion 32c, and the shutter blade 32 returns to the initial position and closes the exposure opening 31a (see FIG. 7C). As a result, the shutter speed in the night scene shooting mode is about 1/30 second to 1/8 second.
[0049]
As a result, a main subject such as a person is properly exposed with strobe light, and if the light amount is about LV 6 to 7 (when using an ISO 400 photographic film), the background where the strobe light does not reach is almost appropriate. It is exposed at a level (1 to 2 EV under), and a photograph with an atmosphere can be taken. In addition, since both the opening speed and the closing speed of the shutter blade 32 are the same as in the normal shooting mode and the strobe shooting mode, even with one shutter blade 32, there is no difference in the amount of light on the exposure screen and uneven exposure. Can take no photos.
[0050]
In the normal photographing mode and the strobe photographing mode, the diaphragm plate 34 is inserted into the photographing optical axis L, and the delay switching lever 75 prevents the delay lever 60 from rotating toward the shutter blade side. The shutter blade 34 opens and closes the exposure opening 31a at a high speed by the kicking operation by the shutter drive lever 45 accompanying the depression of. As a result, photographing is performed at an aperture F8 and a shutter speed of about 1/125 seconds. In the strobe shooting mode, strobe light is emitted from the strobe light emitting unit 14 at the same time when the exposure opening 31a is fully opened. Note that overexposure is about 2EV in shooting under clear sky, but it is within the negative range of the negative film and is not harmful.
[0051]
When the photographing is interrupted or ended, the photographing lens 12 is closed by sliding the lens barrier opening / closing knob 16 in the closing direction (rightward in FIG. 1). As a result, as shown in FIG. 15, the tip 41b of the photographing mode reset lever 41 engages with the roller 38f and pulls the mode switching plate 38 downward, so that the short-circuiting electrical contact 78 is separated from the terminal 77, The charging switch 23a of the strobe device 23 is turned off to prevent wasteful power consumption.
[0052]
Further, the diaphragm plate 34 returns to the initial position and is inserted into the photographing optical axis L, and the pressing of the projection 75b by the bar 40b of the shutter speed switching lever 40 is released, so that the claw portion 75a of the delay switching lever 75 is The pin 60b is pushed and the delay lever 60 is rotated to the retracted position where it does not engage with the fan-shaped protrusion 32c. That is, immediately after the lens barrier opening / closing knob 16 is moved in the opening direction and the photographing lens 12 is opened, the normal photographing mode is always set.
[0053]
After shooting all the number of frames of the loaded photographic film, when a rewind button (not shown) is pushed in, the engagement between the groove 21a of the winding dial 21 and the winding stopper 46d is released and the winding dial 21 is locked. Canceled. Next, after raising the rewinding rotary crank 20, it is rotated to rewind the photographed photographic film to the cartridge body. After this, the cartridge body can be recovered by opening the case back.
[0054]
Next, in FIG. 19 showing an embodiment in which the kicked-off member kicked by the kick-off arm 45a of the shutter drive lever 45 and the shutter blade are separate members, the kicked-off member 80 is a portion that closes the exposure opening from the shutter blade 32. And is biased counterclockwise by a coil spring 44. Like the shutter blade 32, the kicked member 80 is provided with a claw portion 80a kicked by the kicking arm 45a and a fan-shaped protrusion 80c having an arcuate surface across the groove 80b. A rod-shaped protrusion 80d is erected on the side surface of the fan-shaped protrusion 80c.
[0055]
A drive lever 82 for driving the shutter blade 81 is provided on the side of the kicked member 80 so as to be rotatable about a rotation shaft 83. The drive lever 82 has two arm portions 82 a and 82 b and is urged clockwise by a torsion spring 84. The arm portion 82a formed in one hem shape is in contact with the rod-shaped protrusion 80d, and a pin 85 standing at the tip of the other elongated arm portion 82b is a long hole 81a in the shutter blade 81. Is inserted.
[0056]
Before the shutter release operation is performed, as shown in (A), the rod-shaped protrusion 80d is in contact with the peak portion 82c of the arm portion 82a. When the shutter release operation is performed and the claw portion 80a of the kicked-off member 80 is kicked by the kicking arm 45a, the kicked-off member 80 is rotated clockwise against the bias of the coil spring 44, and the rod-shaped protrusion 80d is The mountain portion 82c of the portion 82a is strongly pressed. Since the peak portion 82c, which is the power point, is located close to the rotation shaft 83, and the pin 85, which is the point of action on the shutter blade 81, is located far from the rotation shaft 83, the rod-shaped protrusion 80d gets over the mountain portion 82c. Sometimes the pin 85 rotates the shutter blade 81 counterclockwise at high speed (B).
[0057]
After the rod-shaped protrusion 80d gets over the peak portion 82c, the rod-shaped protrusion 80d comes into contact with the skirt portion 82d of the arc close to this track, so that the rotation of the shutter blade 81 in the opening direction almost stops. Thereafter, the kicked-off member 80 is rotated counterclockwise by the urging of the coil spring 44, the driving lever 82 is rotated clockwise by the urging of the torsion spring 84, and the shutter blade 81 is rotated clockwise. Then, each of the initial positions shown in FIG.
[0058]
Next, in FIG. 20 showing another embodiment of the diaphragm plate, a diaphragm plate 90 attached to a diaphragm / filter switching lever 89 (a member similar to the diaphragm switching lever 39) as a diaphragm / filter insertion means is shown in FIG. A cross filter 92 made of transparent plastic is integrally fixed to a free end 90a in which an opening 91 is formed. The cross filter 92 is a filter used when, for example, six light streaks (light beams) centered on a point light source, and can take a glittering photograph like a star with a bright night view. In FIG. 20, the same members as those in the above embodiment are denoted by the same reference numerals.
[0059]
When the mode switching knob 15 is turned right from the position of the flash photography mode and set to the night scene photography mode, the mode switching plate 38 is pushed further upward from the position of the flash photography mode, and the elastic lever 38d is moved to the aperture / filter switching lever 89. The aperture / filter switching lever 89 is rotated counterclockwise because the rod-shaped projection 89a is engaged and pushed up. Accordingly, the cross filter 92 is inserted into the photographing optical axis L instead of the aperture opening 91. Note that the number and angle of light beams of the cross filter can be arbitrarily set, and may be, for example, four cross shapes. Various filters such as a soft filter and a foggy filter may be used instead of the cross filter.
[0060]
In the embodiment described above, the ISO 400 photographic film is used. However, when the ISO 800 photographic film is used, the diaphragm F11 and the shutter speed are approximately 1/125 seconds in the normal shooting mode and the strobe shooting mode. In the night scene shooting mode, it is preferable that the aperture is F6.7 and the shutter speed is about 1/15 seconds. In this case, an exposure difference of about 4.5 EV can be taken corresponding to the light quantity value LV11 in the normal photography mode and the strobe photography mode, and the light quantity value LV6.5 in the night scene photography mode. Can be taken.
[0061]
In the above embodiment, the shutter charge is performed by the sprocket driven by the photographic film transferred by winding, but may be directly performed by rotating the winding dial. Further, the film conveyance and the shutter charge may be performed by a motor.
[0062]
In the above embodiment, the governor mechanism is used to delay the return operation of the shutter blades. However, for example, using a mechanical or electric timer, the shutter drive lever performs the kicking operation and a certain time has elapsed. The delay lever may be moved from the insertion position to the retracted position.
[0063]
In the above embodiment, at the time of slow shutter, the aperture is opened corresponding to night scene shooting, but conversely, close-up shooting may be supported by reducing the aperture. That is, a photograph with proper exposure can be taken by reducing the aperture by the amount corresponding to the slower shutter speed. For example, when a photographing lens having a focal length f = 28 mm is used and a negative film of ISO400 is used, the shutter speed is 1/125 seconds in the normal photographing mode, and the aperture F8 (EV value = 13, LV value 11) is 1.2 m or more. In the close-up mode, the shutter speed is 1/15 seconds, and the aperture is set to a distance of 0.55 m or more as the aperture F22 (EV value = 13, LV value 11).
[0064]
In the above embodiment, the pair of terminals constituting the charging switch of the strobe device is provided on the side surface of the cartridge chamber. However, the pair of terminals is mounted on the strobe board of the strobe device, and this is connected to the short-circuit electric contact piece. You may make it short-circuit. Further, a small switch may be provided on the strobe board of the strobe device, and this may be turned on / off by a protrusion provided on the back surface of the mode switching plate. Further, a small switch may be provided separately from the strobe substrate, and turned on / off by a protrusion provided on the mode switching plate. Moreover, although the said embodiment was a simple camera, this invention is not limited to this, A film unit with a lens may be sufficient.
[0065]
【The invention's effect】
As described above, according to the shutter device of the present invention, the shutter blade is locked in a state where the shutter blade opens the exposure opening to prevent the shutter blade from closing the exposure opening, and the shutter blade is kicked off. Since the shutter blade is unlocked and the exposure opening closing operation is permitted after a predetermined delay time has elapsed, the opening operation and the closing operation itself of the shutter blade are not changed. A slow shutter can be realized by stopping the movement of the shutter blades. As a result, the shutter speed can be reduced at low cost without causing uneven exposure.
[0066]
Further, the movement of the kicked-off member is stopped with the shutter blades opening the exposure opening to prevent the shutter blade from closing the exposure opening, and the kicked-off member is passed after a predetermined delay time has elapsed since the kicked-off member is kicked off. Since the movement of the shutter blades is allowed, the opening operation and the closing operation of the exposure opening of the shutter blade itself are not changed, and the movement of the shutter blade is stopped in the middle to realize a slow shutter. As a result, the shutter speed can be reduced at low cost without causing uneven exposure.
[0067]
In addition, it has a delay prohibiting means that prohibits the closing operation of the exposure aperture and opens and closes the exposure aperture with the shutter blades without delay, so that the shutter speed can be switched between high speed and low speed, and it can be used for both daytime and night scenes. Correspondingly, proper exposure can be obtained. In addition, the aperture is inserted into the photographic optical axis when the exposure aperture closing operation is prohibited, and the predetermined filter is inserted into the photographic optical axis instead of the aperture when the exposure aperture closing operation is prohibited. Therefore, you can shoot sharply with a small aperture and high-speed shutter in scenes with high subject brightness such as during the daytime, and with a large aperture and low-speed shutter in scenes with low brightness such as night scenes, and use a filter to make a special exposure. You can take night view photos that produce effects.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an appearance of a camera embodying the present invention.
2 is an exploded perspective view showing a main internal structure of the camera shown in FIG. 1. FIG.
FIG. 3 is a perspective view illustrating a basic configuration of a shutter device.
FIG. 4 is a plan view showing the shutter device from the front side of the camera.
FIG. 5 is a plan view showing the shutter device in a charged state from above.
FIG. 6 is a plan view showing the shutter device in a release completed state from above.
FIG. 7 is an explanatory diagram showing a relationship among a shutter drive lever, a shutter blade, and a delay lever.
FIG. 8 is a graph showing each movement of the shutter blades in a normal shooting mode, a flash shooting mode (A), and a night scene shooting mode (B).
FIG. 9 is an explanatory diagram showing the relationship between the shutter drive lever and the governor lever from the back side.
FIG. 10 is a plan view showing a governor mechanism in a charged state.
FIG. 11 is a plan view showing the governor mechanism in a release completed state.
FIG. 12 is a plan view showing a relationship between an escape wheel and an ankle of the governor mechanism.
13 is a plan view showing the relationship between the delay lever and the delay switching lever 75 in the normal shooting mode and the strobe shooting mode. FIG.
FIG. 14 is a plan view showing a relationship between a delay lever and a delay switching lever in the night scene shooting mode.
FIG. 15 is an explanatory diagram showing a relationship among a mode switching knob, a mode switching plate, a diaphragm plate, a delay lever, and the like when the lens barrier is closed.
FIG. 16 is an explanatory diagram showing a relationship among a mode switching knob, a mode switching plate, a diaphragm plate, a delay lever, and the like immediately after opening the lens barrier.
FIG. 17 is an explanatory diagram showing a relationship among a mode switching knob, a mode switching plate, a diaphragm plate, a delay lever, and the like in the flash photography mode.
FIG. 18 is an explanatory diagram showing a relationship among a mode switching knob, a mode switching plate, a diaphragm plate, a delay lever, and the like in the night scene shooting mode.
FIG. 19 is an explanatory view showing another embodiment of shutter blades.
FIG. 20 is an explanatory view showing a diaphragm plate provided with a cross filter.
[Explanation of symbols]
10 Camera
15 Mode switching knob
16 Lens barrier opening / closing knob
30 Shutter unit
31a Exposure aperture
32, 81 Shutter blade
32c, 80c Fan-shaped projection
34,90 Aperture plate
34a, 91 Aperture aperture
38 Mode switching plate
41 Shooting mode reset lever
42 Lens barrier
45 Shutter drive lever
45a Kicking arm
46 Locking lever
47 set cam
52 Governor lever
60 Delay lever
65 Governor mechanism
70 Delay release lever
75 Delay switch lever
80 Kick-off member
82 Drive lever 82
92 Cross filter

Claims (4)

A shutter blade that is biased in a direction to close the exposure opening and opens and closes the exposure opening, and a shutter driving member that opens and closes the exposure opening by kicking the shutter blade in response to a shutter release operation while rotating against the bias. In a kick-off type shutter device consisting of:
A shutter blade locking position that prevents the shutter blade from closing the exposure opening by projecting onto the rotation trajectory of the shutter blade and locking the shutter blade with the shutter opening opened. The shutter blade is provided so as to be movable between a shutter blade locking release position that allows the shutter blade to close the exposure opening by retreating from the rotation path and releasing the shutter blade locking. A delay lever spring-biased from the release position toward the shutter blade locking position ;
A governor mechanism that is charged by the rotation of the shutter driving member to the initial position and is locked by the shutter driving member, and is released when the shutter driving member kicks the shutter blade and starts driving;
Delay the from the shutter blade is kicked over a predetermined time by said governor mechanism rotates, moving the delay lever to the shutter curtain locking release position from the shutter curtain locking position against the biasing said spring A shutter device comprising: a release lever.   2. A shutter device according to claim 1, further comprising a delay prohibiting means for prohibiting the closing operation of the exposure opening by the delay lever and opening and closing the exposure opening by the shutter blade without delay.   In conjunction with the delay prohibiting means, an aperture that narrows the aperture area of the exposure aperture is inserted into the photographing optical axis in a state in which the exposure aperture closing operation is prohibited. 3. A shutter device according to claim 2, further comprising a diaphragm / filter insertion means for inserting a predetermined filter into the photographing optical axis in place of the diaphragm. A kicked member that is kicked and rotated by a shutter drive member that responds to a shutter release operation, and then the kicking force by the shutter driving member is canceled by the biasing force of the spring and returns to the original position;
A rod-shaped protrusion provided on the kicked member;
It has a crest that engages with the rod-shaped protrusion and a skirt of the arc. At the beginning of the rotation of the kicked-off member, the rod-shaped protrusion pushes the crest to rotate against the spring bias from the initial position. Then, the rod-like projections move over the peaks and engage with the skirts of the arc to stop the rotation, and when the kicked member returns to the original position, it is returned to the initial position by the spring bias. A return drive lever,
The drive lever is pivotably engaged, and is provided so as to be rotatable between an open position for opening the exposure opening and a closed closed position. When the drive lever is rotated from the initial position, it is opened from the closed position. While rotating to the position, the rotation of the drive lever is stopped while the rotation of the drive lever is stopped, and the rotation is stopped from the open position to the closed position when the drive lever returns to the initial position. A shutter device comprising: a shutter blade that performs the above operation .

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