JP4369544B2 - Filter holder - Google Patents

Description

[0001]
【Technical field】
The present invention relates to a filter holder attached to a lens barrel.
[0002]
[Prior art and its problems]
As a filter holder of a camera, a type that is inserted into a lens barrel and attached is often used. The plug-in type filter holder has the advantage that it can be made compact and the filter is not easily soiled. However, when rotating a filter that requires a rotating operation, such as a polarizing filter, it is necessary to remove the filter holder from the lens barrel. Therefore, it was time-consuming to use. Japanese Utility Model Laid-Open No. 59-95328 proposes a structure that improves the convenience of such a plug-in filter holder by rotating the polarizing filter from the outside. However, the filter holder disclosed in Japanese Utility Model Publication No. 59-95328 cannot be equipped with a filter other than a polarizing filter, and a different filter holder must be prepared when another filter is used.
[0003]
OBJECT OF THE INVENTION
An object of the present invention is to obtain a filter holder that can easily and reliably rotate a filter in a mounted state from the outside and that can be easily replaced.
[0004]
Summary of the Invention
The filter holder of the present invention is a frame that can be inserted into and removed from the lens barrel, and has an opening through which a light beam passes when inserted into the lens barrel ; a filter device mounted on the opening of the frame, and the filter device It includes a stationary ring fixed to the opening of the frame, a rotary ring that can rotate relative to this stationary ring in a state of inserting the frame in the lens barrel, and a filter which is supported by the rotating ring Provided; rotatably supported at one end of a swing arm pivotally attached to the frame body, and by the swing of the swing arm, the rotary ring is engaged to transmit a rotational force to the rotary ring. lens frame body; rocking cam groove formed in the swing arm; an interlocking position, the rotation operating member to be moved to a non-interlocking position which does not transmit the rotational force to not engage the rotary ring the rotating ring Move in the circumferential direction around the optical axis with respect to the frame while inserted in the cylinder An operation pin that is operably supported and slidably fits in the swing cam groove, and that rotates in the circumferential direction by swinging the swing arm via the operation pin and the swing cam groove. A moving switch member that moves the movement switch member to a position corresponding to the interlocking position and the non-interlocking position of the rotation operation member ; and a rotation operation member for the rotation ring. A spring member that moves and urges the swing arm toward the interlocking position .
[0005]
In this filter holder, it is desirable that a plurality of filter devices can be selectively mounted on the frame.
[0008]
It is desirable that the position of the rotation operation member can be adjusted in the direction of the rotation axis.
[0009]
The outer peripheral portion of the rotating operation member, a portion is engaged with a rotary ring when in the interlocking position, it is preferable to distributing the friction member or knurling made of a rubber material. Further, the outer peripheral surface of the rotating ring, may form a knurled engaged to the rotation operating member when the rotation operating member is in interlocked position.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
A filter holder 10 shown in FIGS. 1 to 5 includes a partially cylindrical exterior plate 11 along the outer peripheral surface of the lens barrel, and a filter support frame 12 extended from the exterior plate 11. The filter holder attaching / detaching mechanism 13 provided on the lens barrel 60 can be inserted into and fixed to a holder insertion portion 61 formed in the lens barrel 60 as shown in FIGS. The lens barrel 60 is attached to and detached from a camera body (not shown) via a mount unit 62. When the filter holder 10 is attached to the lens barrel 60, the exterior plate 11 is substantially flush with the outer peripheral surface of the lens barrel 60. The filter holder attaching / detaching mechanism 13 is well known, and its specific configuration is not limited here, but the filter holder 10 is switched between the fixed state and the attachable / detachable state by rotating the knob 13a exposed to the outside. Can do. Note that the symbol O in each figure indicates the photographing optical axis of the lens barrel 60.
[0011]
The filter support frame 12 is formed with an opening 12a through which a light beam passes, and a female screw 14 is formed as a means for attaching and detaching the filter corresponding to the opening 12a. The polarizing filter member (filter device) 15 can be attached to the filter holder 10 by screwing the male screw 16 to the female screw 14. The polarizing filter member 15 includes a fixed ring 17 having an external thread 16 formed on the outer periphery, a rotary ring 18 that is rotatable with respect to the fixed ring 17, and a filter 19 that is supported by the rotary ring 18. When the fixed ring 17 is fixed to the filter support frame 12 by the female screw 14 and the male screw 16, the rotary ring 18 is rotatable with respect to the filter support frame 12. The filter 19 is a well-known polarizing filter fixed to the rotating ring 18, and can be adjusted together with the rotating ring 18 to adjust reflection from the object plane. In the state where the polarizing filter member 15 is mounted, the filter 19 is positioned on the opening 12 a of the filter support frame 12. A knurl 20 is formed on the outer peripheral surface of the rotating ring 18.
[0012]
The filter holder 10 is provided with a rotation operation mechanism 5 for rotating the rotation ring 18 of the polarizing filter member 15 from the outside. Rotary operation mechanism 5 has one end a swing arm 22 pivotally mounted to the filter support frame 12 by a shaft 21, the operation dial 2 4 to the other end of the swing arm 22 is rotatably supported by a shaft 23 And an arm biasing spring 25 that biases the swing arm 22 in a predetermined direction. The outer plate 11 of the filter holder 10 is formed with a through hole 26 that penetrates the inner peripheral surface and the outer peripheral surface, and a part of the operation dial 24 protrudes from the through hole 26 to the outside.
[0013]
A concave portion 24a is formed in the circumferential direction on the outer peripheral surface of the operation dial 24, and an inward convex portion 27a of the rubber ring 27 is fitted into the concave portion 24a. The rubber ring 27 is moved and rotated integrally with the operation dial 24. The swing arm 22 swings about the shaft 21, and the operation dial 24 supported at the tip of the swing arm 22 is a filter. When the holder 10 is moved in the inner or outer diameter direction, the outer peripheral surface of the rubber ring 27 is brought into contact with or separated from the knurl 20 formed on the rotary ring 18 of the polarizing filter member 15. Specifically, when the operation dial 24 is moved in a direction (inner diameter direction) in which the amount of protrusion from the through hole 26 is reduced (when the swing arm 22 is swung), the rubber ring 27 and the knurled 20 are engaged. When the operation dial 24 is moved in the direction (outer diameter direction) in which the amount of protrusion from the through hole 26 increases (when the swinging arm 22 is swung), the engagement between the rubber ring 27 and the knurled 20 is released. Is done. The arm urging spring 25 moves and urges the swing arm 22 in the direction in which the engagement between the rubber ring 27 and the knurl 20 is released. A constant gap Δ is secured between the rubber ring 27 of the dial 24 and the knurl 20 of the rotating ring 18 (FIG. 1). That is, the rotation operation mechanism 5 is normally held in a non-interlocking state in which no rotational force is transmitted to the rotation ring 18 even if the operation dial 24 is simply rotated.
[0014]
To rotate the rotating ring 18, as shown in FIG. 2, the operation dial 24 is pushed with a finger or the like against the arm biasing spring 25, and the rubber ring 27 and the knurl 20 are engaged to rotate with the operation dial 24. After the ring 18 is in the interlocking state, the operation dial 24 is rotated. Then, the rotational force of the operation dial 24 is transmitted to the rotary ring 18 due to the engagement relationship between the rubber ring 27 and the knurled 20, and the rotary ring 18 can be rotated to a position that gives the filter 19 a desired polarization characteristic. Since this rotation operation can be performed while confirming with the viewfinder of the camera without removing the filter holder 10 from the lens barrel 60, an optimal rotation position can be easily obtained.
[0015]
The filter support frame 12 is provided with a stopper 28 for restricting excessive movement when the operation dial 24 is pushed in. When the tip of the swing arm 22 comes into contact with the stopper 28, The movement of the swing arm 22 (operation dial 24) in the interlocking direction is restricted. When such a stopper is not provided, when the operation dial 24 is pressed with a force exceeding the limit of bending of the rubber ring 27, an excessive force may act on the polarizing filter member 15 side to cause damage. is there. In the present filter holder 10, such a breakage of the polarizing filter member 15 can be prevented by providing the stopper 28. However, at the movement position of the operation dial 24 that is restricted by the stopper 28, a sufficient degree of engagement between the rubber ring 27 and the knurl 20 is ensured to transmit the rotational force.
[0016]
In order to stop the rotation operation with respect to the rotary ring 18, the finger may be released from the operation dial 24. When the pressing operation on the operation dial 24 is released, the operation dial 24 returns to a non-interlocking position (FIG. 1) where a clearance Δ is secured between the rubber ring 27 and the knurled 20 by the urging force of the arm urging spring 25.
[0017]
In the filter holder 10, the polarizing filter member 15 can be easily replaced with a different filter. That is, the rotation operating mechanism 5 is held in a non-interlocking state that does not interfere with filter attachment / detachment unless the operation dial 24 is pressed and moved to the interlocking position, so that the screwing of the male screw 16 and the female screw 14 is released. If the stationary ring 17 is rotated, the polarizing filter member 15 can be removed. FIG. 21 shows a state where a filter member 29 different from the polarizing filter member 15 is mounted. The filter member 29 holds a single filter 19 ′ on a fixed ring 17 ′ having a male screw 16 ′ on the outer periphery, and is attached to the filter holder 10 by screwing the male screw 16 ′ with the female screw 14. Can do. Since the filter member 29 does not need to be rotated, the rotation operation mechanism 5 is not operated while the filter member 29 is mounted.
[0018]
In the rotary operating mechanism 6 of the filter holder 30 which definitive 1 0 6, instead of the operation dial 24 of the previous embodiments which arranged rubber rings 27 on the outer periphery, the operation dial 32 which knurled 31 is formed on the outer periphery Used. The other configuration is the same as that of the previous filter holder 10 , and the operation dial 32 is held at a non-interlocking position in which the knurling 31 is separated from the knurling 20 by a certain amount when not operated (FIG. 6). When the knurling 31 is engaged with the knurling 20 by pressing the 32 with a finger or the like, the interlocking position where the rotational force of the operation dial 32 can be transmitted to the rotating ring 18 is reached (FIG. 7). Even with this filter holder 30, the polarizing filter member 15 can be rotated while being attached to the lens barrel, and the filter can be easily replaced with a filter different from the polarizing filter member 15.
[0019]
11 to 15 show the filter holder 40 in the first embodiment to which the present invention is applied . The rotational operation mechanism 7 of the filter holder 40 in this embodiment is different from the previous filter holder 10 (30) in the mechanism for selecting the operation mode and the non-operation mode. The other components common to the filter holder 10 are denoted by the same reference numerals, and redundant description is omitted. A switch guide slot 41 is formed in the filter support frame 12 in a circumferential direction centering on the photographing optical axis O, and the switch guide slot 41 is fixed to a mode changeover switch (moving switch member) 42. The pin 43 is slidably fitted. The mode changeover switch 42 is moved in the circumferential direction along the exterior plate 11 by the operation pin 43 being guided in the switch guide slot 41, and the mode changeover switch 42 is moved according to the movement of the mode changeover switch 42. A free end of a click spring (locking mechanism) 44 fixed to 42 is fitted into a pair of click holes (locking mechanisms) 45 and 46 formed on the filter support frame 12. The operation pin 43 inserted through the switch guide long hole 41 is further fitted in a swing cam groove 47 formed in the swing arm 22. The swing cam groove 47 is a long hole provided with a predetermined inclination with respect to the switch guide long hole 41. Therefore, when the mode changeover switch 42 is moved in the circumferential direction, the swing arm 22 is swung around the shaft 21 due to the relationship between the operating pin 43 and the swing cam groove 47.
[0020]
Specifically, as shown in FIG. 11, when the mode changeover switch 42 is in the movement position where the click spring 44 is engaged with the click hole 45, the rubber ring 27 of the operation dial (rotation operation member) 24 is rotated. The swing arm 22 is held at a non-interlocking position that is separated from the knurling 20 of the ring 18. As shown in FIG. 12, when the mode changeover switch 42 is moved to the moving position where the click spring 44 fits into the click hole 46, the swing arm 22 is moved downward via the operating pin 43 and the swing cam groove 47. A force to be applied acts, and the rubber ring 27 of the operation dial 24 supported by the swing arm 22 is moved to an interlocking position where the rubber ring 27 engages with the knurling 20 of the rotating ring 18. In this interlocking position, when the operation dial 24 is rotated, the rotary ring 18 of the polarizing filter member 15 can be rotated. That is, by operating the mode changeover switch 42, the operation dial 24 can be switched between an interlocking position for rotating the polarizing filter member 15 and a non-interlocking position where the rotation operation is not performed. Unlike the previous filter holders 10 and 30 , in the filter holder 40 , the operation dial 24 is interlocked with the rotary ring 18 while the mode changeover switch 42 is held in the locking position in FIG. When the member 15 is not rotated or when the filter is replaced, the mode change switch 42 is moved to the locking position in FIG. 11 and the operation dial 24 is held in an unlinked state with respect to the rotary ring 18. Do.
[0021]
The rotation operation mechanism 7 is provided with an arm biasing spring 48 having one end supported by the swing arm 22 and the other end supported by the filter support frame 12. The arm biasing spring 48 is provided with the operation dial 24. The oscillating arm 22 is urged in the direction in which the rotary ring 18 is interlocked. On the other hand, a slight play is provided for the movement of the operation dial 24 from the non-interlocking position to the interlocking position (swinging of the swinging arm 22) by the mode changeover switch 42. Therefore, when the mode changeover switch 42 is moved in the interlocking direction, the operation dial 24 is held at the interlocking position by the biasing force of the arm biasing spring 48. As described above, the interlocking position of the operation dial 24 is held by the arm biasing spring 48 without being only mechanically guided by the cam groove, so that the rubber ring 27 of the operation dial 24 and the knurl of the rotary ring 18 are maintained. It is possible to prevent the polarizing filter member 15 from being damaged due to the operation dial 24 being pressed beyond the limit of the bending of the rubber ring 27 while providing a positive engagement with the rubber ring 27.
[0022]
16 to 20, the rotation operation mechanism 8 of the filter holder 50 according to the second embodiment of the present invention includes an operation dial 24 in the previous filter holder 40 and an operation dial (rotation operation) having a knurling 31 on the outer periphery. Member) It replaces with 32, and is common to the filter holder 40 about another structure. That is, the swing arm 22 is swung according to the operation of the mode switch 42, and the knurl 31 of the operation dial 32 is engaged and disengaged with the knurl 20 on the polarizing filter member 15 side. When the operation dial 32 is rotated in the engaged state of the knurls 31, 20, the rotary ring 18 and the filter 19 of the polarizing filter member 15 are rotated. In the state where the engagement of the knurls 31, 20 is released, the polarizing filter member 15 Removal or other filter attachment can be easily performed.
[0023]
In this filter holder 50 , the arm urging spring 48 has a switch in the interlocking direction in addition to the action of appropriately holding the operation dial 32 in the interlocking position when the mode changeover switch 42 is operated in the interlocking direction. In operation, the knurls 31 on the operation dial 32 side and the knurls 20 on the polarizing filter member 15 side come into contact with each other, and also act as a relief mechanism when no meshing occurs. That is, the fact that the knurling is not engaged means that the moving amount of the operation dial 32 is smaller than the moving amount of the mode changeover switch 42. It can be absorbed by bending. If the operation dial 32 is slightly rotated in either direction from this non-engagement state, the knurling 31 and 20 is engaged by the bending release force of the arm biasing spring 48.
[0024]
In each of the above embodiments, the knurl 20 formed on the rotary ring 18 of the polarizing filter member 15 and the rotation transmission surfaces (rubber ring 27, knurl 31) of the operation dials 24, 32 coincide with each other in the optical axis direction. Is. However, depending on the structure of the filter member to be exchanged, there is a possibility that the positions of the rotation transmission surfaces (optical axis directions) of the rotation transmission surfaces of the operation dial on the filter holder side and the rotary ring on the filter side do not match. . In such a case, the operation dial is configured to be movable in the rotation axis direction (optical axis direction), and the operation dial may be moved to a position where the rotation transmission surfaces can be engaged with each other.
[0025]
The present invention is not limited to the illustrated embodiment. For example, in the filter holder 40 according to the first embodiment , the friction member attached to the outer periphery of the operation dial is a rubber ring. However, other than rubber such as sponge and malt can be used as long as the rotational force can be transmitted by friction. Materials may be used. In each embodiment, a knurl is formed on the rotating ring of the polarizing filter, but a friction member such as a rubber ring may be used instead of the knurl. In the embodiment, one polarizing filter is attached to the rotating ring. However, the rotating ring and the stationary ring may be provided with respective filters, and adjustment may be performed by relative rotation of the pair of filters. Good.
[0026]
【The invention's effect】
Above the filter holder of the invention, as a rotation operation member for rotating the rotating ring of the filter device, the swing arm and the moving switch member, the interlocking position and said for transmitting rotational force engages the rotating ring A spring member that is positioned alternatively to the non-interlocking position for releasing the engagement and biases the swing arm in the interlocking direction between the rotary operation member and the rotary ring is mounted on the lens barrel. Thus, the rotating ring of the filter device can be easily and reliably rotated, and the filter can be easily replaced.
[Brief description of the drawings]
FIG. 1 is a front view showing a non-rotating operation state of a filter holder of a type in which a mechanism for switching between an operation mode and a non-operation mode is different from that of the present invention .
FIG. 2 is a front view showing a rotation operation state of the filter holder of FIG. 1;
3 is a cross-sectional view taken along line III-III in FIG.
4 is a cross-sectional view taken along line IV-IV in FIG.
FIG. 5 is a view taken in the direction of the arrow V in FIG.
6 is a front view showing a non-rotating operation state of a filter holder provided with a mode switching mechanism of the same type as that of the filter holder of FIGS. 1 to 6 and having an outer surface of an operation dial formed of knurls . FIG.
FIG. 7 is a diagram showing a rotation operation state of the filter holder of FIG. 6 from the front.
8 is a cross-sectional view taken along line VIII-VIII in FIG.
9 is a cross-sectional view taken along line IX-IX in FIG.
10 is a view taken in the direction of arrow X in FIG. 6;
FIG. 11 is a front view showing a non-rotating operation state of the filter holder according to the first embodiment to which the present invention is applied .
12 is a view showing a rotation operation state of the filter holder of FIG. 11 from the front. FIG.
13 is a cross-sectional view taken along line XIII-XIII in FIG.
14 is a cross-sectional view taken along line XIV-XIV in FIG.
FIG. 15 is a view taken along the arrow XV in FIG. 11;
16 includes a mode switching mechanism of the same type as the filter holder of the first embodiment in FIG . 11 to FIG. 15, and the outer surface of the operation dial is formed by knurls . It is the figure which showed the non-rotating operation state from the front.
FIG. 17 is a diagram showing a rotation operation state of the filter holder of FIG. 16 from the front.
18 is a cross-sectional view taken along line XVIII-XVIII in FIG.
FIG. 19 is a cross-sectional view taken along line XIX-XIX in FIG.
FIG. 20 is a view on arrow XX in FIG.
21 is a cross-sectional view showing a state where a filter member different from a polarizing filter member is attached to the filter holder shown in FIGS. 1 to 6. FIG.
22 is a cross-sectional view of the lens barrel with the filter holder shown in FIGS. 1 to 6 attached. FIG.
23 is an external view of the lens barrel in FIG. 22;
[Explanation of symbols]
5 6 7 8 Rotation operation mechanism 10 30 40 50 Filter holder 11 Exterior plate 12 Filter support frame 13 Filter holder attaching / detaching mechanism 14 Female screw 15 Polarizing filter member (filter device)
16 Male screw 17 Fixed ring 18 Rotating ring 19 Filter 20 31 Knurl 22 Swing arm 24 32 Operation dial (rotation operation member)
25 48 Arm biasing spring 26 Through hole 27 Rubber ring 28 Stopper 41 Switch guide slot 42 Mode change switch (moving switch member)
43 Actuating pin 44 Click spring (locking mechanism)
45 46 Click hole (locking mechanism)
47 Swing cam groove

Claims (6)

A frame that can be inserted into and removed from the lens barrel and has an opening through which a light beam passes when inserted into the lens barrel ;
A filter device mounted on the opening of the frame body, the filter device includes a stationary ring fixed to the opening of the frame body , and the lens mirror with respect to the stationary ring in a state where the frame body is inserted into the lens barrel. that includes a relatively rotatable rotary ring, and a filter which is supported by the rotary ring around the optical axis of the cylindrical;
An interlocking position that is rotatably supported at one end of a swing arm pivotally attached to the frame body, and that engages with the rotary ring and transmits a rotational force to the rotary ring by swinging the swing arm. A rotary operation member that is moved to a non-interlocking position that does not engage with the rotary ring and does not transmit rotational force to the rotary ring ;
A swing cam groove formed in the swing arm;
An operating pin that is supported so as to be movable in the circumferential direction around the optical axis with respect to the frame while the frame is inserted into the lens barrel, and is slidably fitted into the swing cam groove. A movement switch member that moves in the circumferential direction and swings the swing arm via the operating pin and the swing cam groove to move the rotation operation member to the interlocking position and the non-interlocking position ;
A locking mechanism for locking the movement switch member at a position corresponding to the interlocking position and the non-interlocking position of the rotation operation member; and
A spring member that moves and urges the swing arm in the direction of the interlocking position of the rotary operation member with respect to the rotary ring ;
A filter holder comprising: 2. The filter holder according to claim 1, wherein a plurality of filter devices can be selectively mounted on the frame. The filter holder according to claim 1 or 2, wherein the position of the rotary operation member can be adjusted in the direction of the rotation axis. In claims 1 to 3 the filter holder according to any one, fixed friction member on the outer periphery of the upper Machinery rolling operation member made of rubber material, when the rotation operating member is in the interlocking position, the friction member A filter holder engaged with the rotating ring . In the filter holder 3 any one of claims claims 1, is b Retto the outer peripheral surface of the upper Machinery rolling operation member is formed, when the rotation operating member is in the interlocking position, said knurled to the rotary ring Filter holder to engage . In the filter holder according to claim 4 or 5, further comprising an outer peripheral surface of the upper Machinery rolling ring, the rotation operating member is provided with a knurled engaged to the rotation operating member when in the interlocking position the filter holder .

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