JP2005326792A - Lens barrel and photographing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce manufacture costs by supporting a barrier blade with a simple constitution in a lens barrel equipped with a barrier device. <P>SOLUTION: The barrier blade 55 is put between a front side holding body 56 and a rear side holding body 57 and held to be opened/closed. By engaging a hook part 65 projecting from the front side holding body 56 with a hook receiving part provided to be recessed on the rear side holding body 57, the front side holding body 56 and the rear side holding body 57 are fixed to each other. A situation that the hook part 65 is warped to an outer periphery side and a projection part comes off from the hook receiving part is prevented by a 1st group lens frame 21. Furthermore, by fitting a decorative barrel in the 1st group lens frame 21 from an edge side, the front side holding body 56 and the rear side holding body 57 are surely attached to each other. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a lens barrel provided with a barrier device and a photographing apparatus.

  In a lens barrel attached to a photographing device such as a digital camera, a film camera, or a video camera device, the front surface of the lens located at the tip, that is, the tip lens surface is directly exposed to the outside of the lens barrel, and dust is collected. May adhere or damage due to collision of objects. Therefore, conventionally, a lens barrel provided with a barrier device is known in order to protect the front lens surface of the lens barrel from adhesion of dust and the like.

  The barrier device covers the tip lens surface with the barrier blade and retracts the barrier blade from the tip lens surface in accordance with when the photographing device is in a non-photographing state and when the photographing device is in a photographing enabled state. It is configured. That is, when the photographing apparatus is in a non-photographing state, the front lens surface is covered with a barrier blade, and when the photographing device is in a photographing state, the photographing blade can pass through the lens barrel from the front lens surface to the barrier blade. (See, for example, Patent Document 1).

In such a barrier device, in order to support a plurality of barrier blades so that they can be opened and closed, a configuration in which the barrier blades are supported so as to be sandwiched between a front holding body and a rear holding body is conceivable. However, in such a configuration, when the front holding body and the rear holding body are fixed to each other with a fixing tool such as a screw, the number of parts increases, the number of assembly steps increases, and the manufacturing cost increases. Have.
JP 2001-27774 A

  As described above, in order to support the plurality of barrier blades so that they can be opened and closed, a configuration in which the barrier blades are supported so as to be sandwiched between the front holding body and the rear holding body is conceivable. However, in such a configuration, if the front holding body and the rear holding body are fixed to each other with a fixing tool such as a screw, the number of parts increases, the number of assembly steps increases, and the manufacturing cost increases. Have.

  SUMMARY An advantage of some aspects of the invention is that it provides a lens barrel and an imaging apparatus that can reliably support barrier blades with a simple configuration and can reduce manufacturing costs.

  The lens barrel according to claim 1 is provided with a barrel main body including a lens, barrier means provided at a front end portion of the barrel main body so that an optical path can be opened and closed in front of the lens, and the barrier means. A front holding body and a rear holding body that are held openably and closably from front and rear, and a barrier device that includes a fixing mechanism that fixes the front holding body and the rear holding body to each other, the fixing mechanism being An engaging portion projecting from one of the front holding body and the rear holding body, and an engagement receiver recessed in the other of the front holding body and the rear holding body and engaged with the engaging portion. Part.

  In this configuration, the front holding body and the rear holding body are fixed to each other by the engagement between the protruding engaging portion and the recessed engagement receiving portion, and the barrier means is reliably supported. . Then, compared with the structure which fixes a front side holding body and a rear side holding body using fixing tools, such as a screw, a number of parts is reduced, a manufacturing process is reduced, and manufacturing cost is reduced.

  The lens barrel according to claim 2 is the lens barrel according to claim 1, wherein the barrel main body includes an outer frame portion that fits on an outer peripheral side of the barrier device, and the outer frame portion, the engagement receiving portion, The engaging portion is sandwiched between the two.

  And in this structure, it can suppress that an engaging part remove | deviates from an engagement receiving part with a lens-barrel main body, and can fix a front side holding body and a rear side holding body reliably.

  According to a third aspect of the present invention, in the lens barrel according to the first or second aspect, the lens barrel includes a decorative tube that is fitted to the main body of the lens barrel from the front side, and the front barrel is held between the lens barrel main body and the decorative tube. The body and the rear holding body are sandwiched.

  In this configuration, the front holding body and the rear holding body can be sandwiched between the lens barrel body and the decorative cylinder, and the front holding body and the rear holding body can be reliably fixed.

  According to a fourth aspect of the present invention, there is provided a photographing apparatus comprising: the lens barrel according to the first to third aspects; a housing to which the lens barrel is attached; and photographing means for photographing an image formed by the lens barrel. It is a thing.

  In this configuration, since the lens barrel according to claims 1 to 3 is provided, the barrier means is reliably supported with a simple configuration, and the manufacturing cost is reduced.

  According to the present invention, the barrier means can be reliably supported with a simple configuration, and the manufacturing cost can be reduced.

  Hereinafter, an embodiment of a lens barrel and a photographing apparatus of the present invention will be described with reference to the drawings.

  1 to 4, reference numeral 10 denotes a lens barrel. The lens barrel 10 is provided in a photographing apparatus such as a digital still camera, for example, and in order from the front side, a first lens group 11 and a second lens group as lenses. 12 and three lens groups 11, 12, 13 of the third lens group 13 are provided in the optical path 14, and a CCD 15, which is an imaging device as an imaging means, is provided at the rear end of the optical path 14. , 12, 13 are moved along the direction of the optical axis O to perform zooming and focusing, and are imaged on the CCD 15 for photographing. The lens barrel 10 includes a decorative lens 18, a barrier device 20, a first lens group 11, a first lens group frame 21 constituting a lens barrel body, and a second lens group 12 holding a second lens group 12. Frame 22, third lens group frame 23 holding third lens group 13, cam cylinder 25, linear guide cylinder 26, fixed cylinder 27, substrate unit 29 with CCD 15 and a plurality of motors M1, M2 attached to substrate 28, etc. It is configured by combining.

  Although not shown, the photographing apparatus includes the lens barrel 10 and includes a housing to which the lens barrel 10 is attached, and a CPU that controls the motors M1, M2, and the like. . Moreover, in each sectional view in the drawings, the position of the section is appropriately changed in order to explain the arrangement and engagement state of the components.

  First, the substrate unit 29 includes a plate-like substrate 28, and a CCD 15 is attached to the front side of the substrate 28 along the optical axis O. Light that has passed through the lens groups 11, 12, and 13 is connected to the CCD 15. Forms an image. Motors M 1 and M 2 are attached to the substrate 28 at positions shifted from the optical axis O. Further, a third lens group 13 held by a third group lens frame 23 is disposed in front of the CCD 15. The third group lens frame 23 is driven by a motor M2, and is displaced back and forth along the optical axis O direction. Further, from this substrate 28, a substrate-side driving rod 30 constituting a control means is provided so as to protrude forward in the direction of the optical axis O.

  The fixed cylinder 27 includes a fixed cylinder main body 27a having an inner surface that is fixed to the front side of the substrate 28 by fixing means, for example, four screws 31.

  A substantially cylindrical cam cylinder 25 is disposed inside the fixed cylinder main body 27a of the fixed cylinder 27, and as shown in FIG. Is arranged. Further, a second group lens frame 22 that holds the second lens group 12 and a first group lens frame 21 that holds the first lens group 11 are arranged on the inner side of the straight guide tube 26 in order from the substrate 28 side. Has been placed.

  The first group lens frame 21 and the second group lens frame 22 are guided and driven by the cam cylinder 25 and the rectilinear guide cylinder 26, and are displaced back and forth along the optical axis O direction as the cam cylinder 25 rotates. . As shown in FIG. 6, one or a plurality of sets, in this embodiment, three sets of cam grooves 25a are formed on the inner peripheral surface of the cam cylinder 25. The cam grooves 25a are formed in the same shape at intervals of 120 degrees around the optical axis O, and the first cam grooves 25b that contribute to the movement of the first group lens frame 21 and the movement of the second group lens frame 22 respectively. A second cam groove 25c contributing to the above is formed. The rectilinear guide tube 26 is formed with rectilinear guide grooves 26a for restricting the rotation of the first group lens frame 21 and the second group lens frame 22 around the optical axis O. The rectilinear guide grooves 26a are formed at three positions parallel to the optical axis O direction and at intervals of 120 degrees with the optical axis O as the center.

  On the other hand, the first group lens frame 21 and the second group lens frame 22 correspond to the cam groove 25a and the rectilinear guide groove 26a, respectively, and three pin-shaped cam followers 21a and 22a are 120 around the optical axis O, respectively. It is provided radially at intervals of degrees. The first group lens frame 21 inserts each cam follower 21a into the first cam groove 25b of the cam groove 25a through the straight guide groove 26a so as to be relatively movable, and the second group lens frame 22 Each cam follower 22a is inserted into the second cam groove 25c via the rectilinear guide groove 26a so as to be relatively movable, and the first group lens frame 21 and the second group lens frame 22 are connected to the cam cylinder 25 and the rectilinear guide cylinder 26, respectively. Is engaged.

  Further, a cylindrical outer frame portion 21b is provided at the front end portion of the first group lens frame 21, and a mounting hole 21c having a long hole shape as a barrier blade unit mounting portion is provided in the outer frame portion 21b. It is formed in two places.

  The cam cylinder 25 is connected to a motor M1 for driving the cam cylinder 25 through gears 33 and 34, and receives the rotation of the motor M1 to rotate in the forward and reverse directions. When the cam cylinder 25 is rotated, the cam followers 21a and 22a are pushed by the cam groove 25a while being restricted from being rotated by the rectilinear guide cylinder 26, and the cam groove 25a, that is, the first cam groove 25b and the second cam groove. The first group lens frame 21 and the second group lens frame 22 are displaced along the optical axis O direction according to the shape of 25c and the rotation direction and rotation amount of the cam cylinder 25.

  A part of each of the first cam grooves 25b and the second cam grooves 25c (A range shown in FIG. 6) functions as a shootable area for causing the first lens group 11 and the second lens group 12 to perform a zoom operation. On the other hand, the other portions (position B shown in FIG. 6) of the first cam grooves 25b and the second cam grooves 25c are non-photographing areas in which the first lens group 11 and the second lens group 12 are accommodated in the cam cylinder 25. Function as.

  Therefore, the first group lens frame 21 and the second group lens frame 22 are moved from the B position which is a non-photographing position (storage position) to the A range which is a photographable position by rotation of the cam cylinder 25 to one side ( And the cam cylinder 25 is moved (displaced) from the range A which is a shootable position to the position B which is a non-shooting position.

  Therefore, in photographing, the cam cylinder 25 is rotated to one side to displace the first group lens frame 21 and the second group lens frame 22 to a photographable region, and photographing is performed in a predetermined zoom state within the A range. . On the other hand, at the end of shooting, the cam cylinder 25 is rotated to the other side, and the first group lens frame 21 and the second group lens frame 22 are displaced to the B position, which is a non-shooting position. The second group lens frame 22 is accommodated in the cam cylinder 25.

  A shutter device 36 that mechanically opens and closes the optical path 14 is attached to the front side of the second group lens frame 22.

  Further, a barrier device 20 is attached to the front end portion of the first group lens frame 21 so as to be embedded in the inner peripheral surface of the tip portion of the first group lens frame 21. The barrier device 20 can be opened and photographed in a state where the first group lens frame 21 and the second group lens frame 22 are located in the range A, which is a photographable position, and the first group lens frame 21 and the second group lens frame 21 can be photographed. When the group lens frame 22 is located at the B position, which is a non-photographing position, the photographing apparatus is in a non-photographing state, and the front surface of the first lens group 11, that is, the front lens surface is covered and protected by the barrier device 20 It becomes.

  Further, in a state where the barrier device 20 is attached to the first group lens frame 21, the decorative cylinder 18 is attached to the first group lens frame 21, so that the barrier device 20 does not fall forward from the first group lens frame 21. It is pressed down. The decorative cylinder 18 includes a cylindrical portion 18a and a flange portion 18b that form a cylindrical shape. The inner diameter of the cylindrical portion 18a is set to such a size that the front end portion of the first group lens frame 21 can be just inserted. The flange portion 18b is provided so as to protrude from the front end portion of the cylindrical portion 18a to the inner peripheral side, and a sufficiently large opening portion 18c is formed so as not to block light incident on the first lens group 11. .

  In the decorative cylinder 18, the first group lens frame 21 is inserted into the inner peripheral side of the cylindrical portion 18a from the distal end side, and the barrier device 20 disposed on the distal end side of the first group lens frame 21 is further connected to the flange portion 18b. The lens is inserted until it contacts the rear side surface and is attached to the first group lens frame 21. That is, by attaching the decorative cylinder 18 to the first group lens frame 21, the barrier device 20 is held and fixed to the first group lens frame 21 by the flange portion 18 b.

  Further, when the decorative tube 18 is put on the first group lens frame 21, the outer peripheral surface of the first group lens frame 21 is covered with the cylindrical portion 18 a of the decorative tube 18 and formed on the outer peripheral surface of the first group lens frame 21. The appearance of the lens barrel 10 is improved by hiding the structure such as the ribs. Further, the gap of the fitting portion between the barrier device 20 and the first group lens frame 21 is hidden by the flange portion 18b, so that the appearance of the lens barrel 10 is improved.

  Hereinafter, the barrier device 20 will be described in detail.

  The barrier device 20 includes a barrier blade unit 51 and a drive ring 52 as shown in FIGS. 1 to 4 and 7 to 9. The barrier blade unit 51 includes two barrier blades 55, 55 as barrier means, and a holding member that is disposed in front of and behind the barrier blades 55, 55 and rotatably holds the barrier blades 55, 55. The front-side holding body 56 and the rear-side holding body 57, and two whisker springs 58, 58 as urging means for urging the barrier blades 55, 55 in the closing direction are formed. Further, the drive ring 52 has a function of opening and closing each barrier blade 55, 55, and a spring 60 as a biasing means is combined as shown in FIGS.

  Each barrier blade 55 of the barrier blade unit 51 is held between the front holding body 56 and the rear holding body 57 so as to be openable and closable, formed in the same shape as each other, as shown in FIG. A shielding plate portion 55a having a plate shape, a barrier blade boss 55b as an action portion which is an axial protrusion provided in the vicinity of a base end portion which is one end portion in the longitudinal direction of the shielding plate portion 55a, and the barrier blade The boss 55b is further provided with a hole 55c that is provided in the vicinity of the base end and serves as a rotation shaft. Further, a contact portion 55d that restricts the rotation range in the closing direction is provided on the distal end side of the shielding plate portion 55a. Further, the shielding plate portion 55a is formed with a narrow middle portion and a wide tip end side, and in a state where the narrow portion and the wide portion of the two barrier blades 55 are combined with each other, A rectangular area, that is, the optical path 14 is covered by the shielding plate portion 55a.

  Each whisker spring 58 includes a spiral portion 58a formed by winding a wire, and a pair of whiskers 58b extending from both ends of the spiral portion 58a so as to expand from each other.

  Further, the front holding body 56 of the barrier blade unit 51 has a substantially disc shape as a whole, that is, as shown in FIG. 2 and FIG. 7, a disc portion 62 having a disc shape and a peripheral portion of the disc portion 62. A circumferential side portion 63 that extends rearward and has a curved side surface along the peripheral edge portion is formed. In the disk portion 62, a substantially rectangular opening 62a centered on the optical axis O is formed as an opening through which photographing light passes. In addition, two axial bosses 62b are formed on the rear surface of the disk portion 62 so as to be opposed to each other in the radial direction with the optical axis O interposed therebetween. Further, on the rear surface of the disk portion 62, a prismatic movement restricting portion 62c is provided so as to be adjacent to both end portions of the opening 62a and to come into contact with the contact portion 55d.

  In addition, the outer peripheral diameter, that is, the outer peripheral shape, of the peripheral side portion 63 of the front holding body 56 is formed in a shape that fits closely to the inner peripheral surface of the outer frame portion 21b of the first group lens frame 21. Further, the peripheral side portion 63 of the front holding body 56 is divided into a plurality of pieces, and in the present embodiment, two relatively long first peripheral side portions arranged opposite to each other in the radial direction across the optical axis O. 63a and two sets of four relatively short second peripheral side portions 63b and third peripheral side portions 63c provided on both ends of the two first peripheral side portions 63a, respectively, are divided into six. Furthermore, the hook part 65 which is an outer engaging means as an engaging part which comprises the fixing mechanism which is located in two places between the 1st peripheral side part 63a and the 2nd peripheral side part 63b, and opposes a radial direction. Are projectingly provided, and second hook portions 66 projecting radially are located at two positions between the first circumferential side portion 63a and the third circumferential side portion 63c. The hook portions 65 and the second hook portions 66 are alternately arranged every 90 degrees around the optical axis O. A protrusion 65a is projected from the front end side of the hook portion 65 toward the optical axis O side, that is, the inner peripheral side, and from the front end side of the second hook portion 66 toward the counter optical axis O side, that is, the outer peripheral side. Thus, a protrusion 66a is provided. The hook portions 65 and 66 are formed so as to be elastically deformable in the radial direction.

  On the other hand, the rear holding body 57 of the barrier blade unit 51 is fitted and attached to the rear side portion of the front holding body 56, and has a substantially disc shape as a whole, that is, the peripheral side portion of the front holding body 56. A disk-shaped disk portion 71 having a predetermined thickness dimension is provided. The disk portion 71 is formed with cut portions 71a that are cut in parallel with each other at two locations across the optical axis O in order to escape the second hook portion 66. In addition, in the disk portion 71, a substantially rectangular opening 71b centering on the optical axis O is formed as an opening through which photographing light passes, corresponding to the opening 62a of the front holding body 56. Further, the disk portion 71 is formed with two cylindrical boss receiving portions 71c corresponding to the bosses 62b of the front holding body 56 and arranged to face each other in the radial direction across the optical axis O. Each boss receiving portion 71c is surrounded by a spring arrangement portion 71d. Each spring arrangement portion 71d is formed with an elongated hole portion 71e adjacent to the boss receiving portion 71c. Further, the disk portion 71 has a hook corresponding to the hook portion 65, which is an inner engagement means as an engagement receiving portion constituting a fixing mechanism in which a portion of the outer peripheral surface on the rear surface side is recessed in a substantially rectangular shape. A receiving portion 72 is formed.

  Further, the rear holding body 57 surrounds the opening 71b, that is, has a dimension in which the opening 71b is inscribed, and extends from the rear surface side toward the rear side, and has an annular portion as a shielding means having a cylindrical side surface. 73 is formed to project.

  The rear holding body 57 is attached to the front holding body 56 by fitting an arcuate outer peripheral portion 71g excluding the cut portion 71a inside the peripheral side portion 63 of the front holding body 56. . That is, the inner surface of the peripheral side portion 63 of the front holding body 56 is formed in an arc shape having the same curvature as the outer surface of the outer peripheral portion 71g of the rear holding body 57. Then, with the rear holding body 57 fitted to and attached to the front holding body 56, the tip end portion of the boss 62b is inserted and fitted into the boss receiving portion 71c. Further, in this state, the protrusion 65a of the hook portion 65 of the front holding body 56 engages with the hook receiving portion 72, and the front holding body 56 and the rear holding body 57 are fixed to each other.

  Further, in a state where the front holding body 56 and the rear holding body 57 are combined, two barrier blades 55 and two beard springs 58 are provided between the front holding body 56 and the rear holding body 57. , 58 are arranged, and a barrier blade unit 51 is configured. Each barrier blade 55 has a hole 55c inserted in the boss 62b of the front holding body 56, and is supported rotatably about the boss 62b. Further, in this state, the barrier blade boss 55b protruding rearward from each barrier blade 55 penetrates the elongated hole portion 71e of the rear holding body 57 so as to protrude rearward of the disk portion 71. In addition, the rotation range of the barrier blade 55 is restricted. Then, when the two barrier blades 55 rotate in opposite directions, when the barrier blades 55 are opened apart from each other, the photographing light passes through the front and rear openings 62a and 71b, and the barrier blades 55 When they are in contact with each other and closed, the photographing light is shielded by these barrier blades 55.

  Each whisker spring 58 is arranged in the spring arrangement part 71d in a state where the boss receiving part 71c is inserted into the spiral part 58a. Each whisker spring 58 abuts one whisker 58b against the barrier blade boss 55b and the other whisker 58b against the peripheral side 63. It is attached to generate force. The barrier blades 55 are always urged by the reaction force of the whisker spring 58 in the direction of closing the openings 62a and 71b.

  The barrier blade unit 51 thus configured is attached to the front of the drive ring 52 after the drive ring 52 is attached to the first group lens frame 21.

  As shown in FIGS. 1 and 9, the drive ring 52 includes a ring portion 74 having a substantially annular shape, and a ring side drive rod 75 as a drive body projecting rearward from the ring portion 74. And is held rotatably around the optical axis O in the first group lens frame 21 via a drive ring holding portion 77 provided on the inner peripheral side of the first group lens frame 21. The drive ring holding portion 77 is a radiator 77a extending from the inner peripheral surface of the first group lens frame 21 in the direction of the optical axis O, that is, toward the inner peripheral side, and a frame portion supported by the radiator 77a. And a substantially cylindrical ring body 77b. The radiator 77a is formed radially in three directions around the optical axis O, and between the respective radiators 77a is formed as a hole 77c penetrating in the direction of the optical axis O. That is, these holes 77c are formed as arc-shaped slits provided at intervals of 120 degrees with the optical axis O as the center when viewed from the optical axis O direction.

  The drive ring 52 is held with respect to the first group lens frame 21 via the drive ring holding portion 77 in a state where the inner peripheral surface of the ring portion 74 is rotatably fitted to the outer peripheral surface of the ring body 77b. Is done.

  Further, on the inner peripheral surface of the ring portion 74, groove-like recesses 74a and 74a extending from the inner peripheral surface to the outer peripheral side as connecting portions are formed at two locations facing each other in the radial direction, and the barrier blade unit 51 Is attached to the first group lens frame 21, the barrier blade boss 55b is engaged with each recess 74a of the drive ring 52. Therefore, when the drive ring 52 rotates around the ring body 77b as a rotation axis, the barrier blade boss 55b receives the drive force from the drive ring 52, and rotates around the boss 62b as the rotation axis, that is, opens and closes according to the rotation direction of the drive ring 52 I do.

  Further, the spring 60 is stretched between the spring locking portion 74b provided on the drive ring 52 side and the spring locking portion 77d provided on the radiator 77a side, and the direction in which the barrier blade 55 is opened, this embodiment In the embodiment, the drive ring 52 is always urged clockwise as viewed from the front (left side in the figure).

  The biasing force in the direction in which the whisker spring 58 opens the barrier blade 55 is set to be smaller than the biasing force in the direction in which the spring 60 opens the barrier blade 55.

  Further, the spring locking portions 77d on the side of the radiator 77a are provided at a plurality of positions, in this embodiment, at three positions with an interval of 120 degrees around the optical axis O, and the first group lens frame 21 is provided with the straight guide tube 26. The spring 60 can be stretched over the spring locking portion 74b on the drive ring 52 side regardless of the angle (in this embodiment, an angle of 120 degrees around the optical axis O in this embodiment). It can be done.

  Further, when the drive ring 52 is attached to the drive ring holding portion 77, the ring side drive rod 75 protruding rearward from the ring portion 74 penetrates the hole 77c of the drive ring holding portion 77, and the radiator 77a It faces the rear first lens group frame 21. Each hole 77c is formed to allow the rotation amount of the drive ring 52, that is, the rotation amount of the drive ring 52 as long as the barrier blade 55 can be opened and closed. The ring-side drive rod 75 is disposed to face the substrate-side drive rod 30 protruding from the substrate 28 toward the front side. Further, as shown in FIG. 3A, the substrate side driving rod 30 and the ring side driving rod 75 are in contact with each other when the first group lens frame 21 is retracted and is in the non-photographing position. As shown in b), the lengths of the first group lens frames 21 are set so that they do not come into contact with each other in a state where the first group lens frame 21 has moved to the front imageable position. In addition, a cam surface (not shown) that is an inclined surface that is inclined in the front-rear direction is formed on the contact surface on which the substrate-side drive rod 30 and the ring-side drive rod 75 are in contact with each other. The drive ring 52 is pushed and rotated about the optical axis O.

  These cam surfaces are formed in a direction to receive the urging force of the spring 60. That is, as shown in FIG. 3A, when the first group lens frame 21 is retracted and is in the non-photographing position, The barrier blade 55 is kept closed against the biasing force of the spring 60, and the cam ring is rotated so that the drive ring 52 is rotated according to the biasing force of the spring 60 as the first lens group frame 21 moves forward. With the contact position changed and the first group lens frame 21 displaced to the photographing position, the cam surface of the substrate side driving rod 30 and the cam surface of the ring side driving rod 75 as shown in FIG. Are completely separated from each other, and the barrier blade 55 is maintained in an open state by the biasing force of the spring 60. On the contrary, when the first lens group frame 21 moves from the shootable position to the non-shooting position, the cam surfaces come into contact with each other and slidably contact each other, rotate the drive ring 52 against the urging force of the spring 60, The barrier blade 55 is moved in the closing direction.

  Furthermore, each hole 77c is provided at a plurality of locations, that is, at three locations at intervals of 120 degrees centering on the optical axis O in the present embodiment, and how the first group lens frame 21 is relative to the rectilinear guide tube 26. Even if it is attached at a certain angle (in this embodiment, an angle of 120 degrees around the optical axis O), the ring side drive rod 75 can be inserted into any one of the holes 77c. .

  In the process of assembling the lens barrel 10, first, the rectilinear guide cylinder 26 is inserted into the cam cylinder 25 from the front of the cam cylinder 25, and the rectilinear guide cylinder 26 is assembled into the cam cylinder 25.

  Next, the second group lens frame 22 is incorporated into the rectilinear guide tube 26 so that each cam follower 22a engages with the rectilinear guide groove 26a and the second cam groove 25c of the cam groove 25a.

  Next, the first group lens frame 21 incorporating the drive ring 52 and the first lens group 11 moves straight so that each cam follower 21a engages with the straight guide groove 26a and the first cam groove 25b of the cam groove 25a. It is incorporated in the guide tube 26.

  Next, as shown in FIG. 3, the barrier blade unit 51 is fitted to the inner peripheral side of the tip of the first group lens frame 21. At this time, the outer peripheral shape of the peripheral side portion 63 of the front holding body 56 is such that when the barrier blade unit 51 is fitted to the front end portion of the first group lens frame 21, it just contacts the inner peripheral surface of the front end portion. Is set to The outer peripheral surface of the hook portion 65 having the projection 65 a that engages with the hook receiving portion 72 of the rear holding body 57 is also formed in a shape that abuts on the inner peripheral surface of the first group lens frame 21.

  Then, in a state where the barrier blade unit 51 is fitted to the inner peripheral side of the tip of the first group lens frame 21 and pushed to a predetermined position, the projection 66a of the second hook portion 66 is in the first group lens frame 21. The barrier blade unit 51 is fixed to the first group lens frame 21 by engaging with the hole 21c.

  In the state where the barrier blade unit 51 is incorporated in the first group lens frame 21 as described above, as shown in FIG. 3, the annular portion 73 of the rear holding body 57 is an annular body of the first group lens frame 21. It fits inside 77b, that is, the outer peripheral surface of the annular ring portion 73 is brought into close contact with the inner peripheral surface of the ring body 77b. Therefore, the hole 77c located between the radiators 77a of the drive ring holding part 77 is closed with respect to the opening in the state where the barrier blade 55 is opened. Therefore, even if dust enters from the opening of the barrier blade 55, it is possible to prevent dust from entering the lens barrel 10 from the hole 77c.

  Further, the decorative cylinder 18 is mounted on the first group lens frame 21 with the barrier blade unit 51 incorporated in the first group lens frame 21. By attaching the decorative cylinder 18, the appearance can be improved, and the attachment of the barrier blade unit 51 to the first group lens frame 21 is reliably coupled with the engagement between the second hook portion 66 and the hole portion 21c. In addition, the front holding body 56 and the rear holding body 57 are sandwiched from the front and rear by the decorative cylinder 18 and the first group lens frame 21, and the front holding body 56 and the rear holding body 57 are securely attached. It is said.

  As described above, the cam cylinder 25 in which the first group lens frame 21, the second group lens frame 22, the barrier device 20 and the like are incorporated is incorporated in the fixed cylinder 27, and the four screws 31 are used. The lens barrel 10 is configured by attaching the fixed cylinder 27 to the substrate 28.

  In the lens barrel 10, when the motor M1 is rotated in a predetermined direction, the cam barrel 25 is rotated via the gears 33 and 34, and the first lens group 11 and the second lens group 12 are moved in the cam groove 25a and straightly. It is guided by the guide groove 26a and displaced along the optical axis O direction. Further, as the first lens group 11 is displaced in the front-rear direction along the optical axis O direction, the ring-side drive rod 75 is pressed against the substrate-side drive rod 30 and the drive ring 52 rotates. Under the rotation of the drive ring 52, the barrier blade 55 opens and closes.

  In this way, the barrier device 20 opens and closes the pair of upper and lower barrier blades 55 in response to the movement of the first group lens frame 21 between the non-photographing state and the photographable state of the photographing device. That is, in a state where the first group lens frame 21 is located at the non-photographing position, the barrier blade 55 is closed to cover and protect the front surface of the first lens group 11, and the first group lens frame 21 is located at the photographable position. In the displaced state, the barrier blade 55 is released, and the photographing light can pass through the lens barrel 10.

  Thus, in the lens barrel 10 provided with the barrier device 20, the ring side drive rod 75, which is the drive rod on the barrier device 20 side, is brought into contact with the substrate side drive rod 30 extending into the cam tube 25. It is necessary to provide a hole 77c through which the drive rod 75 penetrates the first group lens frame 21 in the direction of the optical axis O. Further, the hole 77c is provided in the rotation range so as to allow the drive ring 52 to rotate. It is necessary to push and form an opening in an arc shape of a predetermined length. Therefore, there is a problem that dust or the like easily enters the inside of the lens barrel 10 from the hole 77c. However, according to the present embodiment, a cylindrical circle is formed on the rear surface of the rear holding body 57 of the barrier blade unit 51. Since the ring portion 73 is provided and closely fitted to the ring body 77b of the first group lens frame 21, even if dust enters from an opening portion in a state where the barrier blade 55 is opened, the dust is removed from the barrier device 20. And the first group lens frame 21 are blocked by a gap between the attachment portions, and can be prevented from entering the inside of the lens barrel 10 through the hole 77c, and photographing can be performed in a good state.

  The annular portion 73 abuts on the first group lens frame 21 in the radial direction centered on the optical axis O, that is, forms an arc shape centered on the optical axis O, and further, the first group lens frame 21. Since it is formed in an annular shape that is in contact with the entire circumference on the inner circumferential side, it is possible to effectively suppress the entry of dust and the like.

  In addition, since the circular ring portion 73 is a convex strip formed integrally with the rear holding body 57 that is a holding body, there is no increase in the number of parts and assembly man-hours compared to a configuration using a separate elastic member. Manufacturing cost can be reduced.

  Further, in the barrier device 20 of the lens barrel 10, it is necessary to connect the front holding body 56 and the rear holding body 57 that can be opened and closed with the barrier blade 55 interposed therebetween. For example, the engagement between the protruding hook portion 65 and the recessed hook receiving portion 72 allows the front holding body 56 and the rear holding body 57 to be connected to each other without using a separate fixture or the like. Can be fixed. Therefore, compared to a configuration in which the front holding body 56 and the rear holding body 57 are fixed using a fixing tool such as a screw, the number of parts can be reduced, the manufacturing process can be reduced, and the manufacturing cost can be reduced.

  Furthermore, since the outer peripheral surface of the hook portion 65 having the projection 65a that engages with the hook receiving portion 72 of the rear holding body 57 is formed in a shape that comes into contact with the inner peripheral surface of the first group lens frame 21, With the barrier blade unit 51 fitted to the inner peripheral side of the tip of the first group lens frame 21, the first group lens frame 21 causes the hook portion 65 to warp toward the outer peripheral side and the projection 65 a from the hook receiving portion 72. It can be prevented from coming off. Therefore, the front holding body 56 and the rear holding body 57 can be reliably fixed with sufficient attachment strength only by the engagement between the hook portion 65 and the hook receiving portion 72.

  Further, with the barrier device 20 attached to the first group lens frame 21, the decorative tube 18 is fitted to the first group lens frame 21 from the front end side, and the first group lens frame 21 and the decorative tube 18 are interposed between them. Since the front holding body 56 and the rear holding body 57 of the barrier device 20 are sandwiched between the front holding body 56 and the rear holding body 57, it is possible to easily and reliably attach the front holding body 56 and the rear holding body 57 with the decorative cylinder 18 that improves the appearance. can do.

  In the above-described embodiment, the holes 77c are provided at three positions with an interval of 120 degrees with the optical axis O as the center, and the angle of the first group lens frame 21 with respect to the rectilinear guide tube 26 ( The ring-side drive rod 75 can be inserted into any one of the holes 77c even when attached at an angle of 120 degrees around the optical axis O, and the annular portion 73 is formed in a cylindrical shape. The mounting angle of the first group lens frame 21 to the rectilinear guide tube 26 is one or two directions, the hole 77c is one or two, and the holes 77c are formed. The circular ring portion 73 can be formed in an arc shape along the portion. Further, when the annular portion 73 is formed in an arc shape, dust may enter from a position where the annular portion 73 is interrupted, but it corresponds to the hole 77c where dust is most likely to enter, that is, along the hole 77c. Intrusion of dust can be effectively suppressed by forming the annular ring portion 73 at a certain position.

  Further, in the above embodiment, the hook portion 65 provided with the protrusion 65a is provided on the front holding body 56 side at the engaging portion between the front holding body 56 and the rear holding body 57, and the hook portion 65 is engaged. The hook receiving portion 72 to be mated is formed to be recessed on the rear holding body 57 side, but is not limited to this configuration, and the hook portion 65 is provided on one or both of the front holding body 56 and the rear holding body 57. Provided on the other side is a hook receiving portion 72 that engages with these hook portions 65, and the front holding body 56 and the rear holding body 57 are fixed to each other by the engagement between the hook portion 65 and the hook receiving portion 72. be able to. For example, as shown in FIGS. 10 and 11, a hook portion 65 having a protrusion 65a is formed on the rear holding body 57 side, and the hook receiving portion 72 engaged with the hook portion 65 is connected to the front holding body 56 side. It can also be formed in a recessed manner.

  In the above-described embodiment, the barrier blade unit 51 is incorporated into the first group lens frame 21 after the drive ring 52 is incorporated into the first group lens frame 21, but the present invention is not limited to this configuration. After being combined with the barrier blade unit 51, the barrier blade unit 51 can be incorporated into the first group lens frame 21. For example, as shown in FIGS. 12 and 13, a drive ring support portion 79 that engages and holds the drive ring 52 is formed on an annular portion 73 protruding from the rear holding body 57, and the spring 60 is The rear holding body 57 and the first group lens frame 21 can be spanned. In this configuration, the ring portion 73 that prevents dust from entering is also used as a means for supporting the drive ring 52, so that the structure is not complicated. The work of assembling the drive ring 52 into the first group lens frame 21 is a fine work within the lens barrel of the lens barrel 10, but the work of assembling the drive ring 52 into the barrier blade unit 51 is a cylinder that hinders the work. There is no body, the work efficiency of the assembling work is improved, and the manufacturing cost can be easily reduced.

  The present invention can be applied to a projector apparatus provided with a lens barrel in addition to a photographing apparatus using an image sensor or a film.

It is a disassembled perspective view which shows one Embodiment of the lens-barrel of this invention. It is a disassembled perspective view of the barrier apparatus of a lens barrel same as the above. It is sectional drawing of a lens barrel same as the above, (a) is a non-photographing state, (b) is a photographable state. It is explanatory drawing seen from the front side of a lens-barrel same as the above. It is a perspective view of the state which combined the straight guide cylinder with the cam cylinder of the lens barrel same as the above. It is an expanded view of the cam groove of a lens barrel same as the above. It is a disassembled perspective view of the barrier apparatus of a lens barrel same as the above. It is sectional drawing of the barrier apparatus of a lens-barrel same as the above. It is a perspective view of the state which combined the drive ring with the 1st group lens frame of the lens barrel same as the above. FIG. 6 is a cross-sectional view of a lens barrel showing another embodiment of the present invention, where (a) is a non-photographing state and (b) is a photographing enabled state. It is sectional drawing of the barrier apparatus of a lens-barrel same as the above. FIG. 6 is a cross-sectional view of a lens barrel showing still another embodiment of the present invention, where (a) is a non-photographing state and (b) is a photographing enabled state. It is sectional drawing of the barrier apparatus of a lens-barrel same as the above.

Explanation of symbols

10 Lens barrel
11 First lens group as a lens
14 Light path
15 CCD as a photographing means
18 decorative cylinder
20 Barrier device
21 First lens group frame constituting the lens barrel body
21b Outer frame
55 Barrier blades as a barrier means
56 Front holder
57 Rear holding body
65 Hook as an engaging part constituting the fixing mechanism
72 Hook receiving portion as an engagement receiving portion constituting the fixing mechanism

Claims (4)

A lens barrel body equipped with a lens;
Barrier means provided at the front end portion of the lens barrel body so as to be able to open and close the optical path in front of the lens, a front holding body and a rear holding body that hold the barrier means so as to be opened and closed across the front and back, and A barrier device having a fixing mechanism for fixing the front holding body and the rear holding body to each other;
The fixing mechanism includes an engaging portion projecting from one of the front holding body and the rear holding body, and a recess provided on the other of the front holding body and the rear holding body, and the engaging portion is engaged with the fixing mechanism. A lens barrel comprising an engagement receiving portion. The lens barrel body includes an outer frame portion that fits on the outer peripheral side of the barrier device,
The lens barrel according to claim 1, wherein the engaging portion is sandwiched between the outer frame portion and the engaging receiving portion. It has a decorative tube fitted from the front side to the lens barrel body,
The lens barrel according to claim 1 or 2, wherein a front holding body and a rear holding body are sandwiched between the lens barrel body and the decorative cylinder. A lens barrel according to claim 1;
A housing to which the lens barrel is attached;
An imaging apparatus comprising: an imaging unit that captures an image formed by the lens barrel.

Images