JP3800700B2 - Aperture control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an aperture control device for a camera, and more particularly to an aperture control device provided with a safety mechanism for preventing malfunction.
[0002]
[Prior art]
Generally, a single-lens reflex camera has a built-in diaphragm on the interchangeable lens side, and a built-in diaphragm control mechanism for controlling the lens diaphragm on the body side. The aperture on the lens side changes the aperture diameter according to the rotation of the aperture operating ring. The diaphragm operating ring is rotatable between an open position where the diaphragm is opened and a diaphragm position where the diaphragm is at the minimum diaphragm, and is always biased toward the diaphragm position by a diaphragm spring, for example. The aperture operating ring is provided with an aperture operating lever for projecting from the lens mount for jointing with the aperture control mechanism on the body side.
[0003]
The aperture control mechanism on the body side is provided with an aperture control ring having an aperture control lever protruding from the body mount. The aperture control ring is held in an open position where the aperture is opened when preparation for shooting is completed. The aperture control lever is engaged with the aperture operating lever by using a lens mounting operation, and the aperture operating ring is attached with the aperture spring. Rotate to open position against force.
[0004]
The aperture control mechanism is linked to the mirror drive mechanism. In response to the shutter release, the mirror drive mechanism raises the mirror from the viewfinder observation position to the retracted position where the mirror is retracted from the photographing optical path. In conjunction with this lifting, the holding of the aperture control ring is released, and the aperture control ring rotates toward the aperture position by the biasing force of the aperture spring. During this rotation, the detecting means detects the amount of rotation of the aperture control ring, and stops the rotation of the aperture control ring when the predetermined amount of rotation is reached, and then performs exposure.
[0005]
An example of an outline of the aperture control device is shown in FIG. This state is a ready state for photographing. The aperture control device includes a ratchet gear 10, a cam 11, a holding lever 12, a stop lever 13, a release lever 14, a mirror lifting lever 15, an aperture control magnet 16, a spring 17, and the like. The rotation of the aperture control ring is linked to the ratchet gear 10. The ratchet gear 10 is urged counterclockwise by the above-described squeezing spring through the diaphragm control ring, and the holding lever 12 is urged by the spring 17 through the cam 11 provided coaxially. The rotation of the gear 10 in the counterclockwise direction is prevented.
[0006]
When the shutter release is performed, the mirror driving mechanism raises the mirror to the photographing position. In conjunction with this lifting, the mirror lifting lever 15 rotates clockwise, and the holding lever 12 rotates clockwise via the release lever 14. As a result, the rotation prevention of the ratchet gear 10 in the counterclockwise direction is released, and the aperture control ring is rotated by the biasing force of the aperture spring.
[0007]
The rotation of the aperture control ring is monitored by a detecting means such as an encoder. When the rotational position obtained from the detecting means reaches a position corresponding to exposure control, the stop control magnet 16 is turned off and the stop lever 13 is turned off. Rotate clockwise. The stop lever 13 is provided with a ratchet claw 13a. When the ratchet claw 13a is engaged with the teeth of the ratchet gear 10 by rotation in the clockwise direction, the rotation of the aperture control ring together with the ratchet gear 10 is prevented. During this period, the aperture is set to a predetermined aperture by the amount of rotation of the aperture control ring.
[0008]
[Problems to be solved by the invention]
The above-described ready state for photographing of the aperture control device is also a non-use state of the camera. In this non-use state, the energization of the aperture control magnet 16 is cut off. Further, the holding lever 12 is urged counterclockwise by the spring 17, and the one end 12a of the holding lever 12 is engaged with the one end 13b of the stop lever 13 to hold the stop lever 13 in the retracted position. . In this state, for example, if a strong impact is applied to the camera by dropping or the like, the iron piece 13c of the stop lever 13 is heavy, so that a large moment is applied to the stop lever 13 and the stop lever 13 rotates in the clockwise direction.
[0009]
When this happens, the other end 13 b of the stop lever 13 pushes down the other end 12 a of the holding lever 12 and rotates the holding lever 12 clockwise against the bias of the spring 17. Accordingly, the engagement of the holding claws 12 is released, and at this time, the aperture control ring rotates together with the ratchet gear 10 to the aperture position, so that aperture control cannot be performed in the next photographing.
[0010]
The present invention has been made in view of such a background, and provides an aperture control mechanism devised so that the rotation holding of the aperture control ring stored by the spring is not released even when a large shock is applied. Objective.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, the diaphragm control device of the present invention is rotatable between an open position for opening the diaphragm and a narrowing position for narrowing to the minimum, and one of the two positions is used.Position ofIs biased by a spring towardAndOf the two positions after the exposure is completedSaidPosition opposite to the spring biasing directionReturn positionAn aperture control member to be returned toA cam that rotates in conjunction with rotation of the aperture control member and has a stepped portion at one position in the rotation direction; and a holding claw that engages with the stepped portion when the aperture control member is in a return position; The holding claw engages with the stepped portion to hold the diaphragm control member at the return position, and the holding claw retracts from the stepped portion to release the holding of the aperture control member at the return position. It is movable between the retracted position and it is biased toward the holding position by a springA holding member;In response to the shutter release, the mirror moves to the flip-up position in conjunction with the mirror being lifted from the viewfinder observation position to the shooting position, and is returned to the initial position in conjunction with the return of the mirror to the viewfinder observation position after completion of exposure. A flip-up lever; one end linked to the holding claw, and the other end that enters a part of the movement locus of the mirror lift-up lever, and the mirror lift-up lever moves to a spring-up position so that the other end is The mirror moves up to a release position that abuts a part of the mirror lifting lever and moves the holding member to the retracted position, and the mirror lifting lever returns to the initial position so that the other end becomes a part of the mirror lifting lever. The holding member is allowed to move to the holding position and moves to the initial position when the holding claw is engaged with the stepped portion. MakeA release member;When the release member is in the initial position, the release member receives the other end of the release member from a direction opposite to the direction in which a part of the mirror lifting lever abuts the other end of the release member. The movement of the release member to the release position is permitted by retreating from the movement locus of the other end of the release member during shutter release.A preventive member;It is equipped with.
[0012]
  According to this,When the release member is in the initial position,,The prevention member receives from the direction opposite to the direction in which a part of the mirror lifting lever abuts the other end of the release member to prevent the release member from moving to the release position. Because the movement of the release member to the release position is permitted by retracting outside the movement locus of the other end of theReliable aperture control can be performed.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 2 shows an example of an outline of the aperture control device. The aperture opening / closing mechanism 19 of the single-lens reflex camera is built in the interchangeable lens 20 side. The aperture opening / closing mechanism 19 changes the aperture diameter by varying the plurality of aperture blades 18 according to the rotation of the aperture operating ring 21. The aperture operating ring 21 is rotated between a position where the aperture diameter is opened and a aperture position where the aperture is set to the minimum aperture, and is always biased by the aperture spring 22 toward the aperture position.
[0014]
The diaphragm operating ring 21 on the lens 20 side is provided with a diaphragm operating lever 23, and the lens 20 is attached to the body via a mount to engage with the body-side diaphragm control lever 24. The aperture control lever 24 is provided on an aperture control ring 25 that is rotatably provided at the back of the body mount. The aperture control ring 25 is held at an open position where the aperture is opened when preparation for photographing is completed. When the lens 20 is attached to the body, the aperture control lever 25 engages with the aperture operating lever 23 and the aperture operating ring 21 is moved. It is rotated to the open position against the biasing force of the narrowing spring 22.
[0015]
Opening / closing control of the lens aperture opening / closing mechanism 19 is performed by an aperture control mechanism 27 built in the body. In addition to the aperture control ring 25 described above, the aperture control mechanism 27 includes a holding lever 28, a release lever 29, a stop lever 30, a ratchet gear 31, an aperture control magnet 32, a cam 33, a mirror raising lever 34, and springs 35 and 38. Etc., and is linked to a mirror raising interlock mechanism 36 and an aperture return mechanism 37.
[0016]
The aperture control ring 25 is partially formed with a gear portion 39, and the gear 40 is engaged with the gear portion 39. The rotation of the gear 40 is transmitted to the cam 33 and the ratchet gear 31 via the gear train 41. The holding lever 28 is engaged with the cam 33, and together with the ratchet gear 31, the rotation of the aperture control ring 25 is prevented. The control unit 42 energizes the aperture control magnet 32 via the driver 44 in response to the half-pressing operation of the shutter button 43. The aperture control magnet 32 is held at a position where the stop lever 30 is retracted from the ratchet gear 31 by energization.
[0017]
The control unit 42 performs photometry in response to the half-pressing operation of the shutter button 43 and drives the mirror driving mechanism 45 in response to the full-pressing operation. The mirror driving mechanism 45 performs exposure after raising the mirror 46 from the finder observation position to the photographing position, and returns to the finder observation position again after the exposure is completed.
[0018]
  In the mirror 46, MiA ra-up mechanism 36 is connected. The mirror lift-up interlock mechanism 36 includes three levers 47, 48, 34, and a connecting rod 46 a provided on the mirror 46 pushes up the lever 47 in conjunction with the start of the mirror 46 spring-up. Each lever 47, 48, 34 is meshed with a gear provided to each lever, and the rotation of the lever 47 is sequentially transmitted to each lever 48, 34. This drive is transmitted to the aperture control mechanism 27 as a signal notifying the start of mirror raising. After the transmission, the connection between the connecting rod 46 and the lever 47 is released so that the drive due to shock or bouncing is not transmitted from the movable mirror 46, and only the connecting rod 46a is brought together with the mirror 46. Return to the viewfinder observation position.
[0019]
The aperture control mechanism 27 releases the engagement between the holding lever 28 and the cam 33 using the drive obtained from the mirror raising interlock mechanism 36. As a result, the diaphragm control ring 25 is rotated by the urging force of the diaphragm spring 22, and the diaphragm is throttled through the diaphragm opening / closing mechanism 19. The rotation of the aperture control ring 25 is detected by an encoder 51 including a photo reflector 49 and an impeller 50 connected to the gear 40.
[0020]
The control unit 42 monitors the rotation of the aperture control ring 25 via the encoder 51, and this rotation is set to an aperture value determined based on the subject brightness and film sensitivity obtained from the photometry unit 53 and the film sensitivity reading unit 54. When the corresponding rotation is reached, the power supply to the aperture control magnet 32 is cut off via the driver 44. When the energization is cut off, the aperture control magnet 32 engages the stop lever 30 with the ratchet gear 31 and stops the rotation of the aperture control ring 25 together with the ratchet gear 31. As a result, the aperture is set to a predetermined aperture just before exposure.
[0021]
After the exposure is completed, the control unit 42 drives the motor 56 via the driver 55. This drive is transmitted to the aperture return mechanism 37. The aperture return mechanism 37 includes a one-rotation gear 57, a rack plate 58, a pinion gear 59a, a reciprocating gear 59b, and the like. A pin 60 protrudes from the one-rotation gear 57 and is rotated once in one direction (the arrow direction shown in the figure) by driving the motor 56. The end portion of the rack plate 58 is positioned on the rotation locus of the pin 60, and the rack plate 58 moves straight forward by one rotation of the pin 60, and moves backward by the return spring 61 to return to the initial position. This reciprocating drive is transmitted to the pinion gear 59a.
[0022]
The pinion gear 59a meshes with the reciprocating gear 59b, and the reciprocating gear 59b is freely attached to the shaft of the gear 41a constituting the gear train. Pins 59c and 41b are respectively implanted in the reciprocating gear 59b and the gear 41a so as to face each other. These pins 59c and 41b are engaged with each other by the forward rotation of the reciprocating gear 59b, the gear 41a rotated in conjunction with the aperture control ring 25 is returned to the original position, and separated from each other by the backward rotation. Since the gear 41a is incorporated in a gear train 41 that connects the aperture control ring 25, the cam 33, and the ratchet gear 31, the ratchet gear 31, the cam 33, and the aperture control are performed when the gear 41a returns to the original position. The rings 25 return to their original positions.
[0023]
The drive of the motor 56 is also transmitted to the single-rotation gear 65 for returning the mirror raising interlock mechanism 36. The single rotation gear 65 is provided with a pin 66, and rotates once when the motor 56 is driven. The pin 66 pushes the lower end of the mirror raising lever 34 while the one-rotation gear 65 is rotating, and reverses the other levers 48 and 47 of the mirror raising interlock mechanism 36. Then, when the lever 48 abuts against the stopper pin 72, the lever 47 is connected to the connecting rod 46 a of the mirror 46. The holding lever 28 of the aperture control mechanism 27 is returned toward the position where it engages with the cam 33 in conjunction with the return movement of the mirror raising lever 34. The holding lever 28 is engaged when the cam 33 rotates toward the original position, and holds the aperture control ring 25 at the original position. During this time, film feeding is performed, and when the film feeding is completed, the camera is ready for photographing.
[0024]
FIG. 1 shows a main part of the aperture control mechanism 27. The rotation of the aperture control ring 25 is directly connected to the shaft of the ratchet gear 31. The ratchet gear 31 is biased counterclockwise about the shaft 65 by the above-described narrowing spring 22 through the throttle control ring 25.
[0025]
The aperture control magnet 32 holds the stop lever 30 at an initial position where the iron piece 30 a of the stop lever 30 is attracted when the preparation for photographing is completed and the ratchet pawl 30 b provided at one end of the stop lever 30 is retracted from the ratchet gear 31. . The stop lever 30 is rotatably provided about the shaft 66 between the initial position and the lock position where the ratchet pawl 30 b is engaged with the ratchet gear 31.
[0026]
A cam 33 is integrally provided on the same axis as the ratchet gear 31. A holding claw 28 a provided at one end of the holding lever 28 is positioned on the rotation locus of the cam 33. The holding lever 28 is in a holding position in which the holding claw 28a engages with the step portion 33a of the cam 33 to prevent the ratchet gear 33 from rotating counterclockwise when the photographing preparation is completed. The holding lever 28 rotates about the same rotation shaft 66 as the stop lever 30 between the holding position and the retracted position where the holding claw 28a is retracted from the step portion 33a, and is biased toward the holding position by the spring 38. Has been. The spring 38 has a weak biasing force so as not to cause a deviation in the rotation start timing of the aperture control ring 25.
[0027]
At the other ends 30c and 28b of the stop lever 30 and the holding lever 28, a pulling spring 35 for pulling them is hung. In the state shown in the figure, that is, when the holding lever 28 is in the holding position and the stop lever 30 is in the initial position, the other springs 30c and 28b are close to each other, so that the energizing force is released. Yes. Further, the other end 30 c of the stop lever 30 is integrally formed with a pin 30 d that protrudes on the rotation locus of the other end 28 b of the holding lever 28. The pin 30d contacts the other end 28b of the holding lever 28 by rotating the holding lever 28 toward the holding position when the stop lever 30 is in the locked position and the stop lever 28 is in the retracted position. The stop lever 30 is rotated toward the initial position following the rotation of the holding lever 28.
[0028]
One end 29 a of a release lever 29 is connected to the holding claw 28 a side of the holding lever 28. The release lever 29 is rotatably provided between an initial position where the holding lever 28 is rotated to the holding position and a release position where the holding lever 28 is rotated to the retracted position about a shaft 67 parallel to the shafts 65 and 66. Yes. In this example, the holding lever 28 is rotated to the retracted position by rotating counterclockwise. The other end 29 b of the release lever 29 is provided on the opposite side to the one end 29 a across the shaft 67, and enters the recess 34 a of the mirror raising lever 34.
[0029]
The mirror flip-up lever 34 is arranged in a direction in which the rotation shaft 68 is orthogonal to the shaft 67 of the release lever 29, and the left side surface is indicated by a two-dot chain line in FIG. The state of the left side surface is the initial position, and it rotates between this initial position and the flip-up position rotated by a predetermined amount in the clockwise direction in conjunction with the mirror 46 flip-up. Since the release lever 29 is biased toward the holding position by the spring 38 by the spring 38, the release lever 29 is biased in the clockwise direction following this, and the other end 29b comes into contact with the upper end 34b of the recess 34a. . As described above, the mirror lift lever 34 has its initial position determined by the lever 48 abutting against the stopper pin 72. The holding position of the holding lever 28 is determined by bringing the other end 29b of the release lever 29 into contact with the upper end 34b of the mirror raising lever 34 in the initial position. At this time, the other end 30c of the stop lever 30 is pushed up by the other end 28b of the holding lever 28 and is held at the initial position, and close to a range where the iron piece 30a can contact or be attracted to the aperture control magnet 32. Yes.
[0030]
In this example, the diaphragm control magnet 32 is energized in response to the half-pressing operation of the shutter button 43. Accordingly, when the shutter button 43 is not half-pressed, the aperture control magnet 32 does not attract the iron piece 30a. Therefore, the stop lever 30 is held at the initial position only by the other end 28b of the holding lever 28 urged toward the holding position by the spring 38. At this time, if a large vibration or the like is applied to the camera, a large moment is applied to the iron piece 30a, and the stop lever 30 rotates toward the lock position (clockwise). When the stop lever 30 rotates toward the lock position, the other end 30c pushes the other end 28b of the holding lever 28 downward, causing the holding lever 28 to rotate toward the retracted position (clockwise).
[0031]
In order to prevent this, the mirror raising lever 34 is provided with a prevention member 70. The prevention member 70 is provided on the opposite side of the upper end 34b of the recess 34a, and enters the lower side of the other end 29b of the release lever 29 toward the retracted position of the holding lever 28 when the mirror raising lever 34 is in the initial position. Further, the mirror lifting lever 34 is slightly rotated from the initial position toward the lifting position so that it is retracted from the rotation locus of the other end 29b of the release lever 29 to the retracted position of the holding lever 28. Allow rotation of The prevention member 70 is provided integrally with the mirror lifting lever 34 and retracts as the mirror lifting lever 34 moves. Therefore, it is not necessary to increase the number of parts for the prevention member 70, and an interlocking mechanism with the prevention member 70 is also unnecessary. In addition, you may attach the said prevention member 70 with another member.
[0032]
Next, the operation of the above configuration will be briefly described. When the shutter button 43 of the camera is pressed halfway, the control unit 42 activates the photometry unit 53 to measure the subject brightness, and based on the subject brightness and the film sensitivity obtained from the film sensitivity reading unit 54, the current point in time is measured. A shutter value and an aperture value are determined. In response to this half-press operation, the control unit 42 energizes the aperture control magnet 32. The aperture control magnet 32 attracts the iron piece 30a of the stop lever 30 when energized.
[0033]
When the shutter button 43 is fully pressed, the control unit 42 drives the mirror driving mechanism 45. When driven, the mirror driving mechanism 45 raises the mirror 46 to the photographing position. The lever 47 of the mirror raising interlock mechanism 36 is rotated in the clockwise direction shown in FIG. 2 in conjunction with the mirror 46 raising, and the lever 48 is rotated in the counterclockwise direction in conjunction with this rotation to stop the stopper 71. Abut. 2 is a spring receiver that fixes one end of the spring 38.
[0034]
As the lever 48 rotates, the mirror lifting lever 34 rotates about the shaft 68 to the clockwise lifting position. When the mirror lifting lever 34 rotates toward the lifting position, as shown in FIG. 3, the rotation surfaces of the release lever 29 and the mirror lifting lever 34 are perpendicular to each other, so the upper end 34b of the recess 34a is released. The other end 29b of the lever 29 is pushed down, and at the same time, the prevention member 70 is retracted from the rotation locus of the other end 29b of the release lever 29. Therefore, the release lever 29 rotates counterclockwise.
[0035]
As shown in FIG. 3, when the release lever 29 rotates counterclockwise, the one end 29 a rotates the holding lever 28 clockwise against the bias of the spring 38. Thereby, the engagement between the holding claw 28 a and the stepped portion 33 a is released, and the aperture control ring 25 is rotated together with the ratchet gear 31 by the biasing force of the aperture spring 22. When the holding lever 28 rotates to the retracted position, the other end 28b is separated from the other end 30c of the stop lever 30, and the pulling spring 35 biases the stop lever 30 toward the lock position.
[0036]
The control unit 42 monitors the rotation of the aperture control ring 25 via the encoder 51, and when the rotation amount reaches a rotation amount corresponding to the aperture value, the energization to the aperture control magnet 32 is cut off. As a result, the suction of the aperture control magnet 32 is released, and the stop lever 30 is instantaneously rotated toward the lock position by the biasing spring 35. When the stop lever 30 rotates to the locked position, the ratchet pawl 30b meshes with the ratchet gear 31, and the rotation of the aperture control ring 25 together with the ratchet gear 31 is prevented, resulting in the state shown in FIG. During this time, the aperture diameter is determined by the rotation of the aperture control ring 25. In the state shown in FIG. 4, the other end 30 c of the stop lever 30 is brought close to the other end 28 b of the holding lever 28, and the energy storage of the pulling spring 35 is released. During this time, the holding lever 28 tries to return toward the holding position by the bias of the spring 38, but the connecting rod 46a pushes up the lever 47 in the clockwise direction shown in FIG. Never come back.
[0037]
The controller 42 drives a shutter mechanism (not shown) when the mirror 46 is lifted to the photographing position. Thereby, exposure is performed with a predetermined aperture diameter. After the exposure is completed, the mirror driving mechanism 45 returns the mirror 46 to the finder observation position. At this time, the connection between the connecting rod 46a and the lever 47 is released, the connecting rod 46a returns together with the mirror 46, and the levers 47, 48, 34 of the mirror raising interlock mechanism 36 are left in the raised position. .
[0038]
  After the exposure is completed, the control unit 42 drives the motor 56 to drive the aperture return mechanism 37 and the mirror raising interlock mechanism 36. When the drive of the motor 56 is transmitted to the aperture return mechanism 37, the one-rotation gear 57 rotates once, and the pin 60 reciprocates the rack plate 58 during this rotation. At this time, the gear 41 a rotates in the counterclockwise direction in accordance with the rotation of the aperture control ring 25. This rotation is assumed to be less than one rotation. Therefore, the reciprocating gear 59b uses the drive obtained when the rack plate 58 moves forward to rotate the gear 41a in the clockwise direction.ofReturn to position. At this time, the stop lever 30 allows the ratchet gear 31 to reversely rotate because the ratchet pawl 30 b gets over the ratchet gear 31. As a result, the aperture control ring 25, the cam 33, and the ratchet gear 31 are also returned to their original positions against the bias of the aperture spring 22.
[0039]
The drive of the motor 56 is also transmitted to the one-rotation gear 65, and the pin 66 returns the mirror raising lever 34 to the initial position during one rotation of the gear 65. As shown in FIG. 5, the pin 66 pushes the lower end 34c of the mirror lifting lever 34 in the direction of the arrow shown in the figure to rotate the lever 34 counterclockwise. At this time, since the release lever 29 is urged clockwise by the spring 38 via the holding lever 28, when the mirror raising lever 34 rotates toward the initial position, the release lever 29 follows the rotation lever 34. Rotate clockwise. As a result, the holding lever 28 also rotates toward the holding position.
[0040]
At this time, the aperture control ring 25 has already been rotated toward the original position, and therefore the cam 33 and the ratchet gear 31 are also reversed in the clockwise direction shown in FIG. Therefore, when the holding lever 28 rotates toward the holding position, the holding claw 28a comes into contact with the peripheral surface of the cam 33a, and the cam 33 returns to the original position, so that the holding claw 28a enters the step portion 33a and the holding lever 28 Is rotated to the holding position. Then, the drive for reversing the aperture control ring 25 is immediately released. As a result, the holding lever 28 prevents the rotation of the cam 33 biased counterclockwise by the biasing spring 22.
[0041]
When the holding lever 28 rotates toward the holding position, the other end 28b lifts the pin 30d, so that the stop lever 30 rotates counterclockwise. When the holding lever 28 is rotated to the holding position, the stop lever 30 is rotated to the initial position. Thereby, the iron piece 30a is returned to a position in contact with or close to the aperture control magnet 32, and the state shown in FIG. 1 is obtained. Further, when the holding lever 28 is rotated to the holding position, the prevention member 70 enters a state below the other end 29 b of the release lever 29.
[0042]
The controller 42 performs the above-described series of return operations in parallel with film feeding after completion of exposure. When the film feeding is completed together with the returning operation, the photographing preparation is completed.
[0043]
In the state described with reference to FIG. 1, the stop lever 30 is held at the initial position only by the other end 28 b of the holding lever 28 urged toward the holding position by the spring 38. In this example, when the shutter button 43 is not half-pressed, the aperture control magnet 32 does not attract the iron piece 30a. In such a case, if a large vibration or the like is applied to the camera, a large moment is applied to the iron piece 30a and the stop lever 30 tries to rotate toward the lock position (clockwise).
[0044]
This force is a force that rotates the holding lever 28 toward the retracted position (clockwise) via the other end 30c and the other end 28b, and further a force that rotates the release lever 29 counterclockwise. However, even if the other end 29b of the release lever 29 tries to rotate counterclockwise, the prevention member 70 is positioned in this direction, so that the release lever 29 is prevented from rotating counterclockwise. For this reason, when the release lever 29 is in the initial position shown in FIG. 1, the rotation of the holding lever 28 to the retracted position is reliably prevented.
[0045]
In the above-described embodiment, the aperture control ring 25, the holding lever 28, the release lever 29, the stop lever 30 and the like are rotatably provided. However, the present invention is not limited to rotation and may be a member that simply moves. Further, the release lever 29 is moved from the initial position to the release position in conjunction with the mirror 46 being flipped up. However, the present invention is not limited to this, and the release lever 29 may be moved in conjunction with the shutter release. Furthermore, the diaphragm operating ring 21 is biased in the direction of narrowing the diaphragm by the spring 22, but the present invention is not limited to this and may be biased in the opening direction. In this case, the aperture control ring 25 is held at the aperture position.
[0046]
【The invention's effect】
As described above, in the aperture control device of the present invention, the holding member is prevented from moving to the retracted position when the release member is in the holding position, and the movement of the holding member to the retracted position is allowed during the shutter release. Since the prevention member is provided, reliable aperture control can be performed.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a main part of an aperture control device of the present invention, and a part thereof is shown as viewed from the side.
FIG. 2 is a perspective view showing a main part of an internal mechanism of the camera.
FIG. 3 is an explanatory diagram of a state in which rotation of the aperture control ring is started.
FIG. 4 is an explanatory diagram of a state in which rotation of an aperture control ring is prevented and a predetermined aperture diameter is set.
FIG. 5 is an explanatory diagram of a state in which the aperture control ring is returned toward the original position.
FIG. 6 is an explanatory diagram showing a main part of the aperture control device described in the prior art.
[Explanation of symbols]
10,31 Ratchet gear
11,33 cam
12, 28 Holding lever
13, 30 Stop lever
14, 29 Release lever
15, 34 Mirror lift lever
16, 32 Aperture control magnet
17, 38 Spring
18 Aperture blade
21 Aperture ring
22 Narrowing spring
25 Aperture control ring
35 Pulling spring

Claims (3)

Is rotatable between a narrowing position to narrow the minimum opening position and to open the aperture, the is biased by a spring toward the one position of the two positions, the 2 position after completion of exposure the biasing direction of the spring out of the aperture control member is returned to the return position is the position of reverse,
A cam that rotates in conjunction with the rotation of the aperture control member and has a step portion at one position in the rotation direction;
A holding claw that engages with the step when the aperture control member is at the return position, and the holding claw engages with the step to hold the aperture control member at the return position; A holding claw that is retracted from the stepped portion and is movable between a retracted position that releases the holding of the aperture control member at the return position, and is biased toward the holding position by a spring Members,
In response to the shutter release, the mirror moves to the flip-up position when the mirror is lifted from the viewfinder observation position to the shooting position, and returns to the initial position when the mirror returns to the viewfinder observation position after the exposure is completed. A splash lever,
One end linked to the holding claw and the other end that enters the movement locus of a part of the mirror lifting lever, and the other end of the mirror lifting lever moves when the mirror lifting lever moves to the lifting position. The mirror moves up to a release position where the holding member moves to the retracted position, and the mirror lift lever returns to the initial position so that the other end follows a part of the mirror lift lever. A release member that allows movement of the holding member to the holding position and moves to an initial position when the holding claw is engaged with the stepped portion ;
When the release member is in the initial position, the release member receives the other end of the release member from a direction opposite to the direction in which a part of the mirror lifting lever abuts the other end of the release member. A preventive member that prevents the movement of the release member to the release position by retreating from the movement locus of the other end of the release member during shutter release ,
A diaphragm control device comprising: A diaphragm control magnet that performs a suction operation in response to a half-pressing operation of the shutter button and releases the suction operation when the diaphragm control member rotates by an amount corresponding to the diaphragm value determined at that time;
  A ratchet gear provided coaxially with the cam and rotating in conjunction with rotation of the aperture control member;
  The iron piece attracted by the diaphragm control magnet, and the ratchet gear engaged with the ratchet gear to stop the rotation of the ratchet gear in one direction corresponding to the direction in which the diaphragm control member rotates from the return position toward one position, And a ratchet pawl that allows rotation in the other direction of the ratchet gear, and a pin portion that enters a movement locus of a part of the holding member, and the ratchet pawl when the suction operation of the aperture control magnet is released Is moved to a lock position where the ratchet gear meshes with the ratchet gear, and is moved to a lock position where rotation of the ratchet gear is stopped in one direction, and when the holding member moves from the retracted position to the holding position, An end engages with the pin portion, the iron piece approaches the aperture control magnet, and the ratchet pawl retracts from the ratchet gear. While being moved to the bets position, the locking lever being biased towards the locked position by a second spring,
  The aperture control device according to claim 1, further comprising: 3. The aperture control device according to claim 1, wherein the prevention member is formed integrally with the mirror lifting lever.

Images