JP2005017980A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To mount and demount a member on and from a lens barrel without spoiling the operations of an operation member that is provided to a cylindrical part at the outer periphery of the lens barrel and to prevent the mounted member from unexpectedly falling. <P>SOLUTION: A bayonet coupling part 56 and a bayonet lock member 61 are provided on a subject side of the operation member 63 of the cylindrical part at the outer periphery of the lens barrel, and a bayonet lock operation member 60 is provided on a camera body side of the operation member. The bayonet lock operation member and bayonet lock member are coupled by a bayonet coupling member 59. The bayonet lock operation member is operated to release the members 67 and 68 from locking by the bayonet lock member. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a camera having an operation member in a cylindrical portion on the outer periphery of a lens barrel protruding from a camera body.
[0002]
[Prior art]
In conventional non-lens-changeable cameras, members that operate the camera are attached to the camera body, the outer periphery of a lens barrel that holds the lens, and the like. For example, an operating ring that is concentric with the imaging optical axis is provided on the outer periphery of the lens barrel, and in the method of performing zooming etc. by operating this operating ring, the feeling of use is good because it is the same as the operating feeling of the interchangeable lens. .
[0003]
Conventionally, in a lens non-exchangeable camera, since the lens cannot be exchanged, the focal length of the lens is limited. In order to improve this restriction, accessories such as a teleconverter and a wide converter can be attached to the front surface of the lens barrel. The attachment of the accessory such as the teleconverter to the lens barrel is more detachable by bayonet coupling in which the bayonet protrusion is fitted into the bayonet groove than by screw fastening. On the other hand, the bayonet connection has a risk of coming off when the accessory is slightly rotated by impact or careless operation, and requires a locking mechanism for safety. However, since this lock mechanism takes up space, as shown in Patent Document 1 and the like, the lock mechanism is housed in the camera body. Therefore, in conventional cameras, the bayonet coupling portion is disposed in the vicinity of the main body of the lens barrel.
[0004]
[Patent Document 1]
JP 2000-330179 A
[0005]
[Problems to be solved by the invention]
However, in cameras equipped with an operating ring on the outer periphery of the lens barrel and a bayonet coupling part arranged near the main body of the lens barrel, the operation ring is obscured when an accessory is attached to the bayonet coupling part. There was a problem that the ring could not be operated. That is, with the conventional structure, it is difficult to satisfy both the attachment of the accessory to the camera (lens barrel) by the bayonet connection and the operability of the operation ring.
[0006]
(Object of invention)
It is an object of the present invention to enable removal of a member to be attached to a lens barrel without impairing operation of an operation member provided on a cylindrical portion on the outer periphery of the lens barrel, and inadvertently attaching a member to be attached. It is an object of the present invention to provide a camera that can prevent the camera from coming off.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a camera having an operation member on a cylindrical portion on the outer periphery of a lens barrel protruding from a camera body, and a bayonet coupling portion and the bayonet coupling on the subject side of the operation member of the cylindrical portion. A bayonet locking member that locks a member to be mounted on the unit, a bayonet locking operation member is provided closer to the camera body than the operation member of the cylindrical portion, and the bayonet locking operation member and the bayonet locking member are connected to the bayonet coupling member The camera is configured so that it can be unlocked by operating the bayonet lock operating member by operating the bayonet lock operating member.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on illustrated embodiments.
[0009]
1 to 25 are diagrams according to an embodiment of the present invention. Specifically, FIG. 1 is an external view of a camera with a hood attached to the tip of a wide lens barrel and various accessories that can be attached to the camera. It is the perspective view which showed, and has shown the position where an accessory is attached with a dashed-dotted line. 2 is an exploded perspective view of the wide-angle lens barrel to which the converter is attached as viewed from the lower left front side, FIG. 3 is a perspective view of the wide-angle lens barrel as viewed from the lower left front side, and FIG. FIG. 5 is a central vertical sectional view of the lens barrel in the wide state, FIG. 6 is a central vertical sectional view of the lens barrel in the wide state with the converter attached, and FIG. 7 is a CCD holder and zoom drive. FIG. 8 is a perspective view of the CCD holder and the zoom drive mechanism viewed from the upper left front, FIG. 9 is a perspective view of the inner fixed cylinder viewed from the lower left front, and FIG. 10 is the inner fixed cylinder. FIG. 11 is a perspective view of the cam cylinder as seen from the lower left front, and FIG. 12 is a cross-sectional view showing an assembled state of the cam cylinder, the entire group cam pin, the entire group auxiliary pin, and the entire group impact-resistant pin. FIG. 13 shows a first group barrel, a first group lens holder, a first group lens, FIG. 14 is an exploded perspective view of the group bayonet ring viewed from the lower left front, FIG. 14 is a cross-sectional view showing the assembled state of the first group lens barrel and the first group lens holder, the first group lens, the first group bayonet ring, and the first group adjustment screw. FIG. 16 is a sectional view showing a state in which a hood is attached to the first group barrel and the first group bayonet ring. FIG. 16 is a sectional view showing a state in which a filter and a filter adapter are attached to the first group barrel and the first group bayonet ring. Is an exploded perspective view of the second group barrel as seen from the lower left front, FIG. 18 is an exploded perspective view of the third group barrel and SH (shutter) unit as seen from the lower left front, and FIG. 20 is a more detailed exploded perspective view of the fourth group lens barrel as viewed from the lower left front, and FIG. 21 is an exploded perspective view of the outer fixed cylinder, the outer fixed cylinder bayonet nut, and the outer fixed cylinder bayonet screw as viewed from the lower left front. Figure 22 is outside Fixed cylinder bayonet key, outer fixed cylinder bayonet button, outer fixed cylinder bayonet locking member, outer fixed cylinder bayonet ring, exploded perspective view of the operating ring viewed from the lower left front, FIG. 23 shows the outer fixed cylinder bayonet ring shown in FIG. FIG. 24 is an enlarged perspective view, FIG. 24 is a perspective view of the outer fixed cylinder bayonet cover and the outer fixed cylinder bayonet cover cap as viewed from the lower left front, and FIG. 25 is a perspective view of the converter and the adapter cylinder as viewed from the rear left.
[0010]
Hereinafter, the components shown in each figure will be described.
[0011]
In FIG. 5, L1 is a first group lens, L2 is a second group lens, L3 is a third group lens, L4 is a fourth group lens, and L5 is a low-pass filter.
[0012]
2, 4, 5, 7 and 8, 1 is a CCD, 2 is a CCD plate, 3 is a CCD holder, 4 is a CCD flexible substrate, 5 is a main substrate, 6 is a zoom motor, and 7 is a zoom motor. Optical flexible substrate, 8 is a motor cover, 9 is a gear train, 10 is a gear cover, 11 is a slip, 12 is a final gear, 13 is a potentiometer, 14 is a potentiometer, 15 is a pulse plate, 16 is an encoder cover , 17 are encoder photointerrupters, and 18 is a reset photointerrupter.
[0013]
9 and 10, 19 is an inner fixed cylinder (see also FIG. 2), 19a is an entire group cam groove, 19b is an entire group auxiliary pin cam groove, 19c is an entire group impact cam groove, and 19d is 2, 3 , 4 group rectilinear groove, 19e is a 2, 3, 4 group pin hole, 19f is a 2, 3, 4 group pin retaining wall.
[0014]
5, 11, and 12, 20 is a cam cylinder (see also FIG. 2), 20 a is a gear portion of the cam cylinder, 20 b is a first group cam groove, 20 c is a first group auxiliary pin groove, and 20 d is a first group. A helicoid groove 20e is a second group cam groove, 20f is a third group cam groove, and 20g is a fourth group cam groove. 21a is a whole group cam pin, 21b is a whole group auxiliary pin, 22 is a whole group impact resistant pin, and 23 is a whole group impact resistant nut.
[0015]
5, FIG. 13, FIG. 14, FIG. 15 and FIG. 16, 24 is the first group barrel (see also FIG. 2), 24a is the first group helicoid, 24b is the reset plate, and 24c is the first group holder contact 24d is a first group adjusting screw hole, 24f is a first group bayonet nut hole, and 24g is a first group barrel bayonet screw fitting hole. Reference numeral 25 denotes a first group cam pin 26, which is a first group auxiliary pin. Reference numeral 27 denotes a first group lens holder (see also FIG. 2), 27a denotes a first group lens holder reference surface, 27b denotes a first group holder bayonet arm portion, and 27c denotes a first group lens holder slope portion. 28 is a first group adjusting screw, 29 is a first group roller, and 30 is a first group coropin. 31 is a first group bayonet ring (see also FIG. 2), 31a is a first group accessory mounting portion, 31b is a first group bayonet ring screw fitting hole, 32 is a first group bayonet screw, and 33 is a first group bayonet nut.
[0016]
5 and 17, 34 is a second group barrel (see also FIG. 2), 34a is a second group pin retaining key, 35 is a second group cam pin, 36 is a second group roller, and 37 is a second group roller pin. .
[0017]
5 and 18, reference numeral 38 denotes a third group lens barrel (see also FIG. 2), 38a denotes a third group pin retaining key, 39 denotes a third group cam pin, 40 denotes a third group roller, 41 denotes a third group roller pin, 42 Is an SH unit (see also FIG. 2), and 43 is an SH unit flexible substrate.
[0018]
5, 19, and 20, 44 is a fourth group lens barrel (see also FIG. 2), 44 a is a fourth group pin retaining key, 45 is a fourth group cam pin, 46 is a fourth group roller, and 47 is a fourth group. Coropin 48, 4 group lens holder (see also FIG. 2), 48a, 4 group fitting sleeve, 49, 4 group drive motor, 50, 4 group drive gear train, 51, 4 group drive screw, 52, 4 group A drive nut, 53 is a 4th group fitting bar, and 54 is a 4th group flexible board.
[0019]
4, 5, 6, 21, 22, and 23, 55 is an outer fixed cylinder (see also FIG. 2), 55 a is a first group linear key groove, 55 b is an outer fixed cylinder bayonet nut hole, 55c is an outer fixed cylinder bayonet screw fitting hole, 55d is an outer fixed cylinder bayonet keyway, 55f is a camera body mounting portion, 55g is a final gear shaft fitting hole (not shown), and 55h is a slip fitting hole (not shown). ). 56 is an outer fixed tube bayonet ring (see also FIG. 2), 56a is an outer fixed tube accessory mounting portion, 56b is an outer fixed tube bayonet ring mounting screw hole, 57 is an outer fixed tube bayonet nut, and 58 is an outer fixed tube bayonet screw. is there.
[0020]
6, 21, 22, and 24, 59 is an outer fixed cylinder bayonet key, 60 is an outer fixed cylinder bayonet button, 61 is an outer fixed cylinder bayonet locking member, 62 is an outer fixed cylinder bayonet spring, and 63 is Operation ring (see also FIG. 2), 64 is an operation ring encoder, 65 is an outer fixed cylinder bayonet cover (see also FIG. 2), 65a is an outer fixed cylinder bayonet cover key with which the outer fixed cylinder bayonet locking member 61 is engaged. A groove 66 is an outer fixed cylinder bayonet cover cap (see also FIG. 2).
[0021]
6 and 25, 67 is a converter, 68 is an adapter cylinder, and 68a is an adapter cylinder keyway with which the outer fixed cylinder bayonet locking member 61 is engaged.
[0022]
1, 15 and 16, 69 is a camera body, 70 is a camera exterior, 70 a is a lens barrel mounting hole of the camera exterior 70, 70 b is an outer fixed cylinder bayonet button hole, 71 is a hood, 72 is a filter, 73 is a filter adapter.
[0023]
In FIG. 2, 74 is a fourth group gear base plate, and 74 is a fourth group gear cover.
[0024]
Next, the relationship between the components in the lens barrel having the above-described configuration will be described.
[0025]
As shown in FIG. 5, a photographing optical system is configured by appropriately arranging a first group lens L1, a second group lens L2, a third group lens L3, a fourth group lens L4, and a low-pass filter L5. A subject image is projected onto the image plane.
[0026]
As shown in FIGS. 4 and 5, the CCD 1 is bonded to the CCD plate 2 and fixed to the CCD holder 3 through the CCD plate 2. The CCD 1 is electrically connected to the main substrate 5 via the CCD flexible substrate 4, and converts the subject image projected on the imaging surface from the first group lens L1 to the low-pass filter L5 into an electric signal, and is a known digital signal. Configure the camera system.
[0027]
2, 3, 4, 7 and 8, the zoom motor 6 is fixed to the CCD holder 3. The motor cover 8 is attached to the zoom motor 6 and prevents foreign matter from entering the zoom motor 6. The gear train 9 is rotatably held by the CCD holder 3, the gear cover 10, and the inner fixed cylinder 19. The slip 11 is rotatably supported in a slip fitting hole 55h (not shown) of the CCD holder 3 and the outer fixed cylinder 55, and the final gear 12 is fitted to the final gear shaft (not shown) of the CCD holder 3 and the outer fixed cylinder 55. Similarly, it is rotatably supported in the hole 55g. The rotation of the zoom motor 7 input to the gear train 9 is decelerated and transmitted to the final gear 12 via the slip 11.
[0028]
The potentiometer 13 detects the rotation of the last gear 12 by the potentiometer 14. The pulse plate 15 is attached to the front stage of the gear train 9 and rotates in synchronization with the rotation of the zoom motor 6. The pulse plate 15 is protected from physical disturbance by the encoder cover 16 and is attached so as to rotate integrally with one of the gears of the gear train 9. The rotation of the pulse plate 15 is detected by an encoder photo interrupter 17. The photo interrupter 18 is attached to the CCD holder 3, and the end surface of the reset plate portion 24 b in FIG. 13 changes the light shielding and light transmitting state of the reset photo interrupter 18 by the advance and retreat of the first group barrel 24 in the optical axis direction of the photographing optical system. Detects switching.
[0029]
The zoom motor 6, the potentiometer 13, the encoder photointerrupter 17, and the reset photointerrupter 18 are connected to the main substrate 5 via the optical flexible substrate 7 and constitute an electric circuit of the zoom drive mechanism.
[0030]
2, 5, 9, 10, 11, and 12, the inner fixed cylinder 19 is fixed to the CCD holder 3 and the outer fixed cylinder 55 by fastening with screws. Further, an outer group cam groove 19a, an entire group auxiliary pin cam groove 19b, and an entire group impact resistant groove 19c are provided at 120 degrees equally on the outer periphery of the inner fixed cylinder 19, and the entire group cam groove 19a has a cam cylinder. 20 is fitted into the entire group auxiliary pin cam groove 19b. The entire group auxiliary pin 21b is inserted into the entire group impact resistant groove 19c. The conical surface is arranged to pass through the groove without contacting the flank surface of the groove. On the inner periphery of the cylindrical portion of the inner fixed cylinder 19, there are 2, 3 and 4 group rectilinear grooves 19d and 2, 3, 4 group pin holes 19e penetrating the cylinder portion, and on the outer periphery of the cylindrical portion, 2, 3, 4 group pins. Three retaining walls 19f are provided at equal intervals of 120 degrees.
[0031]
5, 11, 12, and 14, three cam groups 20 b, one group auxiliary pin groove 20 c, and one group helicoid groove 20 d are provided on the outer periphery of the cam cylinder 20 at 120 degrees equally. ing. On the inner periphery of the cam barrel 20, there are provided two groups of cam groups 20e, 3c group cam grooves 20f, 4th group cam grooves 20g, an entire group cam pin 21a, and an entire group auxiliary pin 21b equally divided by 120 degrees. . Also, the entire group impact resistant nut 23 is provided on the inner periphery of the cam cylinder 20 in the same manner as the entire group auxiliary pin 21b, and the entire group impact resistant pin 22 is screwed in from the outer periphery so as to fasten the cam cylinder 20 and fixed. Has been. Further, the first group cam pin 25 is fitted into the first group cam groove 20b on the outer periphery of the cam cylinder 20, the first group auxiliary pin 26 is disposed in the first group auxiliary pin groove 20c, and the first group helicoid is disposed in the first group helicoid groove 20d. 24a are provided so as to pass without contact during normal zoom operations.
[0032]
The cam cylinder 20 is rotatably fitted to the outer periphery of the inner fixed cylinder 19. A gear portion 20 a that meshes with the final stage gear 12 is provided at the outer peripheral imaging surface side end of the cam cylinder 20 and rotates around the inner fixed cylinder 1 by the rotational force of the zoom motor 6. By this rotation, the entire group cam pin 21a moves along the entire group cam groove 19a, and the cam cylinder 20 moves in the lift amount spectral axis direction of the cam locus of the entire group cam groove 19a.
[0033]
5, 13, and 14, the reset plate portion 24 b described above is provided at the cylindrical imaging surface side end of the first group barrel 24, and the first group holder contact portion is provided at the subject side end. 24c is provided at one location, a first group holder holding portion 24d and a first group adjustment screw hole 24e, a first group bayonet nut hole 24f, and a first group barrel bayonet screw fitting hole 24g, each having three equal portions of 120 degrees.
[0034]
The first group lens L1 is held on the inner periphery of the first group lens holder 27. The first group holder holder 24d and the first group holder bayonet arm 27b are bayonet-coupled so that the first group lens holder 27 is urged in the direction of being pulled into the first group barrel 24. The outer periphery of the first group lens holder 27 is fitted with the inner diameter of the first group lens barrel 24, and the first group lens holder reference surface 27a comes into contact with the first group holder contact portion 24c, thereby determining the position in the optical axis direction. The first group adjustment screw 28 is screwed into the first group adjustment screw hole 24e on the side surface of the first group lens barrel 24, and the first group lens holder inclined surface portion 27c is pushed up in the optical axis direction by the tapered surface 28a at the tip, whereby the first group lens L1. Make the tilt adjustable. After adjusting the inclination of the first group lens, the first group lens holder 27 is bonded and fixed to the first group lens barrel 24.
[0035]
The first group bayonet nut 33 is placed in the first group bayonet nut hole 24f. After the first group bayonet ring 31 is attached to the tip of the first group barrel 24, the first group bayonet screw 32 is passed through the first group bayonet screw fitting hole 24g and the first group bayonet ring screw fitting hole 31b. The first bayonet ring 31 is screwed into the group bayonet nut 33 and fixed to the tip of the first group barrel 24.
[0036]
1, FIG. 2, FIG. 13, FIG. 14, FIG. 15, FIG. 17 and FIG. 21, the first group bayonet ring 31 has a first group accessory mounting portion 31a on the outer periphery. An adapter 72 can be attached. A filter 73 is attached to the filter adapter 72 by screw connection. On the inner periphery of the first group barrel 24, three first group cam pins 25 that fit into the first group cam groove 20b and three first group auxiliary pins 26 that pass through the first group auxiliary pin groove 20c are fixed equally at 120 degrees. The first group roller 29 is rotatably held at two locations around the first group roller pin 30 as a rotation center. Further, the first group roller 29 is fitted into the first group linear keyway 55a of the outer fixed cylinder 55, and when the cam cylinder 20 rotates around the inner fixed cylinder 19, the first group cam of the cam cylinder 20 to which the first group cam pin 25 is fitted. The first group barrel is moved in the optical axis direction without rotating around the optical axis according to the lift amount of the cam curve of the groove 20b.
[0037]
2, 5, and 17, the second group lens L <b> 2 is held on the inner periphery of the second group barrel 34. Further, on the outer periphery of the second group barrel 34, a second group cam pin 35 that passes through the second, third, and fourth group pin holes 19e of the inner fixed barrel 19 and fits in the second group cam groove 20e on the inner periphery of the cam barrel 20; The second group pin retaining key 34a that engages with the second, third, and fourth group pin retaining wall 19f of the inner fixed cylinder 19 when an impact is applied is fixed at three portions equally at 120 degrees, and the second group roller pin 37 Two groups of rollers 36 are rotatably held around the center of rotation.
[0038]
The second group roller 36 is fitted into the second, third and fourth group rectilinear grooves 19d of the inner fixed cylinder 19, and when the cam cylinder 20 rotates around the inner fixed cylinder 19, 2 of the cam cylinder 20 into which the second group cam pin 35 is fitted. According to the lift amount of the cam curve of the group cam groove 20e, the second group barrel is moved in the optical axis direction without rotating around the optical axis.
[0039]
2, 5, and 18, the third group lens L <b> 3 is held on the inner periphery of the third group barrel 38, and the SH unit 42 and the SH unit flexible substrate 43 are held on the subject side of the third group barrel 38. The The SH unit 42 is connected to the main substrate 5 via the optical flexible substrate 7 to which the SH unit flexible substrate 43 is connected, and functions as a known light amount adjustment mechanism.
[0040]
Further, on the outer periphery of the third group barrel 38, a third group cam pin 39 that passes through the second, third, and fourth group pin holes 19e of the inner fixed barrel 19 and fits in the third group cam groove 20f on the inner periphery of the cam barrel 20; When the impact is applied, the third group pin retaining key 38a that engages with the second, third, and fourth group pin retaining wall 19f of the inner fixed cylinder 19 is fixed at three portions equally at 120 degrees, and the third group coro pin 41 The third group roller 40 is rotatably held at two positions around the rotation center.
[0041]
The third group roller 40 is fitted into the second, third and fourth group rectilinear grooves 19d of the inner fixed cylinder 19, and when the cam cylinder 20 rotates around the inner fixed cylinder 19, the cam cylinder 20 into which the third group cam pin 39 is fitted. According to the lift amount of the cam curve of the third group cam groove 20f, the third group barrel is moved in the optical axis direction without rotating around the optical axis.
[0042]
5, 19, and 20, a fourth group gear base plate 74, a fourth group gear cover 75, a fourth group fitting bar 53, and a fourth group drive motor 49 are fixed to the subject side of the fourth group barrel 44. The fourth group drive gear train 50 and the fourth group drive screw 51 are rotatably held by the group gear base plate 74 and the fourth group gear cover 75 with respect to the fourth group barrel 44. The fourth group drive motor 49 is electrically connected to the fourth group flexible substrate 54, and the fourth group flexible substrate 54 is connected to the main substrate 5 via the optical flexible substrate 7. When the fourth group drive motor 49 rotates, the fourth group drive screw 51 connected to the fourth group drive gear train 50 rotates.
[0043]
On the inner periphery of the fourth group lens holder 48, the fourth group lens L4 is held. The fourth group lens holder 48 is supported so as to be movable in the optical axis direction by a fourth group fitting sleeve portion 48a fitted to the fourth group fitting bar 53 and an unillustrated anti-rest. A fourth group drive nut 52 is attached to the fourth group lens holder 48. When the fourth group drive screw 51 rotates, the fourth group drive nut 52 related to the screw of the fourth group drive screw 51 moves in the optical axis direction, and the fourth group lens holder 48 and the fourth group lens L4 move in the optical axis direction. A focusing operation can be performed by moving the fourth group lens L4 in the optical axis direction.
[0044]
Further, on the outer periphery of the fourth group barrel 44, there are provided a fourth group cam pin 45 that passes through the second, third, and fourth group pin holes 19 e of the inner fixed barrel 19 and fits in the fourth group cam groove 20 g on the inner circumference of the cam barrel 20. When a shock is applied, the fourth group pin retaining key 44a that engages with the second, third, and fourth group pin retaining wall 19f of the inner fixed cylinder 19 is fixed at 120 degrees equally, and the fourth group roller pin 47 is fixed. The fourth group roller 46 is rotatably held at two positions around the rotation center.
[0045]
The fourth group roller 46 is fitted into the second, third and fourth group rectilinear grooves 19d of the inner fixed cylinder 19, and when the cam cylinder 20 rotates around the inner fixed cylinder 19, the fourth group cam pin 45 is fitted. According to the lift amount of the cam curve of the cam groove 20g, the fourth group barrel is moved in the optical axis direction without rotating around the optical axis.
[0046]
2, 4, 5, 6, 21, and 22, an outer fixed cylinder bayonet nut hole 55 b and an outer fixed cylinder bayonet screw fitting hole 55 c are 120 at the subject side end of the outer fixed cylinder 55. The outer fixed cylinder 55 is provided with three outer fixed cylinders 55d and one outer fixed cylinder bayonet key groove 55d.
[0047]
As shown in FIGS. 6 and 22, an outer fixed cylinder bayonet lock member 61 is attached to the subject side end of the outer fixed cylinder bayonet key 59, and an outer fixed cylinder bayonet button 60 is attached to the main body side end. An outer fixed cylinder bayonet spring 62 (see also FIG. 21) is attached to the outer fixed cylinder 55, and urges the outer fixed cylinder bayonet key 59 incorporated in the outer fixed cylinder bayonet key groove 55d toward the subject side in the optical axis direction.
[0048]
An operation ring encoder 64 is attached to the outer fixed cylinder 55 and detects the rotation direction and the rotation amount of the operation ring 63 that rotates on the outer periphery of the outer fixed cylinder 55. In the outer fixed cylinder bayonet nut hole 55b, three outer fixed cylinder bayonet nuts 57 are inserted from the optical axis direction and five from the direction perpendicular to the optical axis, and the outer fixed cylinder bayonet is attached to the subject side end of the outer fixed cylinder 55. After attaching the ring 56 (see also FIG. 23), the outer fixed cylinder bayonet screw fitting hole 55c and the outer fixed cylinder bayonet ring mounting screw hole 56b are passed through and the outer fixed cylinder bayonet screw 58 is tightened to the outer fixed cylinder bayonet nut 57. The outer fixed cylinder bayonet ring 56 is fixed.
[0049]
In FIG. 5, the CCD holder 3 is attached to the outer fixed cylinder 55 in such a manner that the inner fixed cylinder 19 to which the first group barrel 24 to the fourth group barrel 44 are attached is fastened with a screw (not shown). Configure the unit. As shown in FIG. 4, a camera body attachment portion 55 f is provided on the flange portion of the outer fixed cylinder 55, and the lens barrel unit is attached to the camera body 69 with a screw (not shown). In addition, a camera exterior 70 is attached to the camera body 69 as shown in FIG. The lens barrel unit protrudes from the lens barrel mounting hole 70a of the camera exterior 70, and the outer fixed barrel bayonet button 60 is exposed from the outer fixed barrel bayonet button hole 70b of the camera exterior 70 so as to be pressed down.
[0050]
24, the outer fixed cylinder bayonet cover cap 66 is integrally fixed to the outer fixed cylinder bayonet cover 65, and is connected to the outer fixed cylinder accessory mounting portion 56a of the outer fixed cylinder bayonet ring 56 shown in FIGS. Removably attached. The outer fixed cylinder bayonet cover cap 66 coupled with the bayonet has an outer fixed cylinder bayonet lock member 61 which is urged toward the object side in the optical axis direction by the outer fixed cylinder bayonet spring 62 via the outer fixed cylinder bayonet key 59. The rotation is restricted by engaging with the bayonet cover keyway 65a.
[0051]
In FIG. 6, the adapter cylinder 68 to which the converter 67 is attached is detachably attached to an outer fixed cylinder accessory mounting portion 56a (see FIGS. 22 and 23) of the outer fixed cylinder bayonet ring 56 by bayonet coupling. In the adapter cylinder 68 connected with the bayonet, the outer fixed cylinder bayonet lock member 61 urged toward the object side in the optical axis direction by the outer fixed cylinder bayonet spring 62 via the outer fixed cylinder bayonet key 59 is engaged with the adapter cylinder key groove 68a. The rotation is regulated by combining.
[0052]
As described above, it is possible to prevent an accident that the bayonet coupling is inadvertently disconnected by the outer fixed cylinder bayonet locking member 61 restricting the rotation of the bayonet coupling portion. Further, when the bayonet coupling is removed, the outer fixed cylinder bayonet button 60 attached to the main body is pushed toward the optical axis direction imaging surface side against the bias of the outer fixed cylinder bayonet spring 62, so that the outer fixed cylinder The bayonet lock member 61 can be retracted from the outer fixed cylinder bayonet cover key groove 65a or the adapter cylinder key groove 68a to be rotatable, and the bayonet coupling can be removed.
[0053]
In the above embodiment, a cylindrical part (corresponding to the outer fixed cylinder 55) provided with the operation ring 63 and the outer fixed cylinder bayonet ring 56 is held by a part of the lens barrel. Even if the holding is performed by the camera body 69 or the camera exterior 70, the object of the present invention can be achieved. Further, although the operation ring 63 is a rotating member that rotates about the photographing optical axis, the object of the present invention can be achieved even with an operation member that performs a sliding operation on the outer periphery of the outer fixed cylinder 55.
[0054]
Finally, the effects in the above embodiment are listed below while clearly showing the correspondence between the invention and the embodiment.
[0055]
1) An outer fixed cylinder bayonet ring 56 that forms a bayonet coupling portion and an outer fixed cylinder bayonet lock member that forms a bayonet coupling portion while the outer fixed cylinder bayonet button 60 that forms a bayonet lock operating member that requires an arrangement space is disposed on the main body side. 61 is arranged closer to the subject side than the operation ring 63 that is an operation member (rotating member). Therefore, even if an accessory (attached member) such as the converter 67 is attached to the outer fixed tube bayonet ring 56. Since the operation ring 63 is not obscured, the operation ring 63 can be operated with the accessory attached. Also, by providing an outer fixed tube bayonet key 59 that forms a bayonet connecting member that transmits the operating force of the outer fixed tube bayonet button 60 to the outer fixed tube bayonet lock member 61, the outer fixed tube bayonet lock located on the subject side from the operation ring 63 is provided. The accessory 61 can be unlocked by the member 61.
[0056]
Thereby, it is possible to realize both the operability of the operation ring 63 and the detachability of the accessory. Even when the bayonet is easily attached / detached, the accessory is locked by the outer fixed tube bayonet locking member 61 when the accessory is mounted, so there is no risk that the accessory will be inadvertently removed.
[0057]
2) Since the operation ring 63 that is a rotating member can be rotated coaxially with the photographing optical axis, the same operability as that of the interchangeable lens can be realized.
[0058]
3) The length of the outer fixed tube bayonet key 59, which is a bayonet connecting member, in the photographing optical axis direction is made longer than the length of the operation ring 63 in the photographing optical axis direction, so that the outer fixed tube bayonet located on the main body side from the operation ring 63. The operating force of the button 60 can be transmitted to the outer fixed tube bayonet locking member 61 located on the subject side from the operation ring 63.
[0059]
4) The operation ring 63 which is a rotating member is an operation member for performing an operation for zoom adjustment, an operation for focus adjustment, and a storage operation of the lens barrel (an operation member for performing at least one of them). Therefore, the operability of each function can be improved.
[0060]
5) A part of the lens barrel, a part of the camera body 69, or a part of the camera exterior 70 can hold the operation ring 63 that is a rotating member and the outer fixed cylinder bayonet ring 56 that is a bayonet coupling portion. Yes, the degree of freedom of design is expanded.
[0061]
6) The outer fixed cylinder bayonet key 59 which is a bayonet connecting member is arranged on the inner periphery of the operation ring 63 which is a rotating member (a position where the operation is not hindered when it is a sliding member instead of a rotating member). As a result, it is possible to interlock the operation members such as the operation ring 63 without impairing the operability.
[0062]
7) The operation ring 63, which is a rotating member, moves on the outer periphery of the outer fixed cylinder 55 (cylindrical portion on the outer periphery of the lens barrel) protruding from the camera body, so that the operation zooms in the sliding direction (optical axis direction). And focus adjustment.
[0063]
【The invention's effect】
As described above, according to the present invention, the member to be attached to the lens barrel can be attached and detached without impairing the operation of the operation member provided in the cylindrical portion on the outer periphery of the lens barrel. It is possible to provide a camera that can prevent a member that is inadvertently detached.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing a camera and accessories that can be attached to the camera according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the lens barrel in a wide state to which a converter is attached according to an embodiment of the present invention, as viewed from the lower left front.
FIG. 3 is a perspective view of a wide lens barrel as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 4 is a perspective view of a wide lens barrel as viewed from the lower left rear side according to the embodiment of the present invention.
FIG. 5 is a central longitudinal sectional view of a lens barrel in a wide state in an embodiment of the present invention.
FIG. 6 is a central longitudinal sectional view of a lens barrel in a wide state to which a converter is attached in an embodiment of the present invention.
FIG. 7 is an exploded perspective view of the CCD holder and the zoom drive mechanism as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 8 is a perspective view of the CCD holder and the zoom drive mechanism as viewed from the upper left front side according to the embodiment of the present invention.
FIG. 9 is a perspective view of the inner fixed cylinder as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 10 is a perspective view of the inner fixed cylinder as viewed from the rear left side in the embodiment of the present invention.
FIG. 11 is a perspective view of the cam cylinder as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 12 is a sectional view of the cam cylinder, the entire group cam pin, the entire group auxiliary pin, and the entire group impact-resistant pin in an assembled state in the embodiment of the present invention.
FIG. 13 is an exploded perspective view of the first group barrel and the first group lens holder, the first group lens, and the first group bayonet ring as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 14 is a cross-sectional view illustrating a state in which the first group barrel, the first group lens holder, the first group lens, the first group bayonet ring, and the first group adjusting screw are assembled in the embodiment of the present invention.
FIG. 15 is a cross-sectional view showing a state in which a hood is attached to the first group barrel and the first group bayonet ring in the embodiment of the present invention.
FIG. 16 is a cross-sectional view showing a state where a filter and a filter adapter are attached to the first group barrel and the first group bayonet ring in the embodiment of the present invention.
FIG. 17 is an exploded perspective view of the second group barrel viewed from the front lower left in the embodiment of the present invention.
FIG. 18 is an exploded perspective view of the third group barrel and the SH unit as seen from the lower left front side according to the embodiment of the present invention.
FIG. 19 is an exploded perspective view of the fourth group barrel viewed from the front lower left in the embodiment of the present invention.
FIG. 20 is a more detailed exploded perspective view of the fourth group lens barrel as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 21 is an exploded perspective view of an outer fixed cylinder, an outer fixed cylinder bayonet nut, and an outer fixed cylinder bayonet screw viewed from the lower left front side according to the embodiment of the present invention.
FIG. 22 is an exploded perspective view of an outer fixed cylinder bayonet key, an outer fixed cylinder bayonet button, an outer fixed cylinder bayonet lock member, an outer fixed cylinder bayonet ring, and an operating ring as viewed from the lower left front according to one embodiment of the present invention. .
23 is an enlarged perspective view of the outer fixed cylinder bayonet ring shown in FIG.
FIG. 24 is a perspective view of the outer fixed tube bayonet cover and the outer fixed tube bayonet cover cap as viewed from the lower left front side according to the embodiment of the present invention.
FIG. 25 is a perspective view of the converter and the adapter cylinder as viewed from the rear left in the embodiment of the present invention.
[Explanation of symbols]
L1 1 group lens
L2 2 group lens
L3 3 group lens
L4 4 group lens
L5 Low pass filter
1 CCD
19 Internal fixed cylinder
20 cam cylinder
24 Group 1 lens barrel
27 Group 1 lens holder
31 1 group bayonet ring
38 Group 3 lens barrel
44 4 group lens barrel
48 4 group lens holder
55 Outer fixed cylinder
56 Outer fixed cylinder bayonet ring
59 Outer fixed cylinder bayonet key
60 Outer fixed cylinder bayonet button
61 Outer fixed cylinder bayonet lock member
62 Outer fixed tube bayonet spring
63 Operation ring
64 operation ring encoder
65 Outer fixed tube bayonet cover
65a outer fixed tube bayonet cover keyway
67 Converter
68 Adapter tube
68a Adapter cylinder keyway
69 Camera body
70 Camera exterior
71 Hood
72 Filter
73 Filter adapter

Claims (8)

In a camera having an operation member on a cylindrical portion on the outer periphery of a lens barrel protruding from the camera body, a bayonet lock for locking a bayonet coupling portion and a member attached to the bayonet coupling portion closer to the subject side than the operation member of the cylindrical portion A member is provided, and a bayonet locking operation member is provided on the camera body side from the operation member of the cylindrical portion,
The bayonet lock operation member and the bayonet lock member are connected by a bayonet connection member, and the bayonet lock operation member can be operated to unlock the member by the bayonet lock member. . The camera according to claim 1, wherein the bayonet connecting member is disposed at a position that does not hinder the operation of the operation member. The camera according to claim 1, wherein the operation member is a rotation member that is operated to rotate coaxially with a photographing optical axis. 4. The camera according to claim 3, wherein the bayonet connecting member is disposed in the same direction as the photographing optical axis, and the length in the direction is longer than the length of the rotating member in the photographing optical axis direction. 5. The camera according to claim 3, wherein the rotating member performs at least one of a zoom adjustment operation, a focus adjustment operation, and an operation for storing the lens barrel in a non-photographing state. . The camera according to claim 1, wherein the cylindrical portion is a part of the lens barrel, a part of the camera body, or a part of a camera exterior. The camera according to claim 3, wherein the bayonet connecting member is disposed on an inner periphery of the rotating member. The camera according to claim 3, wherein the rotating member is movable on an outer periphery of the cylindrical portion.

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