JP2012133115A - Lens barrel and optical appliance - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lens barrel with reduced size and weight.SOLUTION: A lens barrel includes a first holding member 6 for holding a first drive unit 15, a second holding member 7 for holding a second drive unit 18, a fixed cylinder 9 for housing the first holding member 6 and the second holding member 7 in a state that they are adjacent to each other in an optical axis direction, and a cam cylinder 10 which is freely rotatable in a circumferential direction at an outer periphery of this fixed cylinder 9 in a state that the fixed cylinder 9 is housed inside. By the rotation operation of the cam cylinder 10, the first and second holding members 6 and 7 move in the fixed cylinder 9 on the same locus.

Description

  The present invention relates to a lens barrel and an optical apparatus.

  Conventionally, among a plurality of lenses arranged in a lens barrel, zoom (variator) lens and focus lens are moved in the optical axis direction, so that zooming and focusing are performed. There is a so-called inner focus type zoom lens.

  Such an inner focus type zoom lens does not change the overall length due to focusing, and can be reduced in size and weight. For example, an optical device such as an imaging device such as a digital video camera or a digital still camera, or an image projection device such as a projector. Widely used in equipment.

  Some zoom lenses have a camera shake correction (image shake correction) function for correcting image shake caused by camera shake or the like by moving some lenses in a direction perpendicular to the optical axis.

  By the way, in the lens barrel having the zoom function and the camera shake correction function described above, the lens holding member that holds the lens, and the guide pin that protrudes from the outer peripheral portion of the lens holding member are housed inside the lens holding member. With a fixed cylinder having a guide slit to be engaged, and a state where the fixed cylinder is housed inside, the outer periphery of the fixed cylinder is rotatable in the circumferential direction, and a guide pin protruding from the guide slit is engaged. A cam cylinder having a cam slit, and by rotating the cam cylinder, the guide pin relatively moves in the guide slit and the cam slit, whereby the lens holding member is moved in the optical axis direction in the fixed cylinder. (For example, refer patent document 1).

  The lens barrel also drives a focus actuator unit that drives the lens to move in the optical axis direction during focusing, and a vibration-proof actuator unit that drives the lens to move in the direction perpendicular to the optical axis during camera shake correction. A unit is also installed.

  For this reason, in order to further reduce the size and weight of the lens barrel, it is possible to arrange the components such as the lens holding member for holding the lens and the drive unit for driving the lens in a compact manner and arrange them in the fixed barrel. It becomes important.

  However, when these parts are combined into one unit, the lens barrel can be reduced in size and weight by simplifying the structure and reducing the number of parts. If different drive units such as anti-vibration actuator units are arranged adjacent to each other in the fixed cylinder, the vibrations generated by the drive units may adversely affect each other's position detection. .

JP 2010-224526 A

  The present invention has been proposed in view of such conventional circumstances, and provides a lens barrel that can be further reduced in size and weight, and an optical device including such a lens barrel. With the goal.

  In order to achieve the above object, a lens barrel according to the present invention includes a first holding member that holds a first driving unit, a second holding member that holds a second driving unit, and a first holding member. A fixed cylinder that houses the holding member and the second holding member in the state adjacent to each other in the optical axis direction, and in a state that the fixed cylinder is housed inside, the outer periphery of the fixed cylinder is rotatable in the circumferential direction. And the first and second holding members move in the fixed cylinder along the same locus by rotating the cam cylinder, and the first drive unit and the second drive unit, It is characterized by having a structure that prevents the vibration generated in each drive unit from adversely affecting the mutual position detection.

  As described above, according to the present invention, a lens barrel and an optical device that are further reduced in size and weight and prevent vibrations generated in the respective drive units from adversely affecting each other's position detection. It is possible to provide.

FIG. 1 is a cross-sectional view showing the internal structure of the interchangeable lens shown as the first embodiment. FIG. 2 is a perspective view showing an appearance of a lens barrel included in the interchangeable lens shown in FIG. FIG. 3 is a cross-sectional view showing the internal structure of the lens barrel shown in FIG. FIG. 4 is a perspective view showing an appearance of a holding unit (fourth lens holding member and fifth lens holding member) provided in the lens barrel shown in FIG. FIG. 5 is a cross-sectional view showing the structure of the holding unit (fourth lens holding member and fifth lens holding member) shown in FIG. FIG. 6 is a cross-sectional view showing the internal structure of the interchangeable lens shown as the second embodiment. FIG. 7 is a perspective view showing an appearance of a lens barrel included in the interchangeable lens shown in FIG. FIG. 8 is a cross-sectional view showing the internal structure of the lens barrel shown in FIG. FIG. 9 is a cross-sectional view showing the structure of the fourth lens holding member and the fifth lens holding member provided in the lens barrel shown in FIG. FIG. 10 is a cross-sectional view showing the internal structure of the interchangeable lens shown as the third embodiment. FIG. 11 is a perspective view showing an appearance of a lens barrel included in the interchangeable lens shown in FIG. 12 is a cross-sectional view showing the internal structure of the lens barrel shown in FIG. FIG. 13 is a cross-sectional view showing structures of a fourth lens holding member and a fifth lens holding member provided in the lens barrel shown in FIG.

  Hereinafter, a lens barrel and an optical apparatus to which the present invention is applied will be described in detail with reference to the drawings.

(First embodiment)
First, as a first embodiment, for example, a case where the present invention is applied to an interchangeable lens (optical apparatus) 1A for a single-lens reflex camera shown in FIG. 1 will be described. FIG. 1 is a cross-sectional view showing the internal structure of the interchangeable lens 1A.

  As shown in FIG. 1, the interchangeable lens 1A includes a lens barrel 2A in which a plurality (15 in this example) of lenses L1 to L15 are arranged side by side in the optical axis direction, and is arranged in the lens barrel 2A. The plurality of lenses L1 to L15 constitute an inner focus type zoom lens.

  Specifically, this zoom lens includes, in order from the object side (the front side of the interchangeable lens 1), a first lens group G1 including lenses L1, L2, and L3, and a second lens including lenses L4, L5, L6, and L7. A third lens group G3 composed of a group G2, a lens L8, a fourth lens group G4 composed of a lens L9, a fifth lens group G5 composed of lenses L10 and L11, and a first lens group composed of lenses L12, L13, L14 and L15. It has a 6-group lens configuration with 6-lens group G6. An aperture stop SP is disposed between the third lens group G3 and the fourth lens group G4.

  In this zoom lens, zooming is performed by moving the remaining second to sixth lens groups G2 to G6 in the optical axis direction with respect to the fixed first lens group G1, and the fourth lens. Focusing is performed by moving the group G4 in the optical axis direction.

  In addition, this zoom lens can correct image blur caused by camera shake or the like by moving the fifth lens group G5 in a direction orthogonal to the optical axis. The configuration of the zoom lens is not limited to the configuration of the 15 lenses in the 6 groups described above, and can be implemented by appropriately changing the number and combination of the lenses.

  Since the lens barrel 2A constitutes such a zoom lens, as shown in FIGS. 1, 2, and 3, the first lens holding member 3 that holds the first lens group G1, and the second lens group. A second lens holding member 4 that holds G2, a third lens holding member 5 that holds the third lens group G3, and a fourth lens holding member (first holding member) that holds the fourth lens group G4. ) 6, a fifth lens holding member (second holding member) 7 that holds the fifth lens group G5, a sixth lens holding member 8 that holds the sixth lens group G6, and the first to first lenses. 6 of the lens holding members 3 to 8, the fixed cylinder 9 that stores the second to sixth lens holding members 4 to 8 inside, and the outer periphery of the fixed cylinder 9 in a state in which the fixed cylinder 9 is stored inside. And a cam cylinder 10 rotatably attached to the portion in the circumferential direction.

  The first lens holding member 3 is formed in a cylindrical shape as a whole, and is attached to the front side of the fixed cylinder 9 with the first lens group G1 held inside.

  The second lens holding member 4 has a holding frame 4 a that holds the second lens group G <b> 2 inside, and is housed in a state that is movable in the axial direction in the fixed cylinder 9. In addition, a plurality (three in this example) of first guide pins 11a are provided side by side in the circumferential direction on the outer peripheral portion of the holding frame 4a.

  The third lens holding member 5 has a holding frame 5a that holds the third lens group G3 on the inside, and is integrally attached to the front side of the fourth lens holding member 6 (a holding cylinder 14 to be described later). ing. An iris unit (aperture adjustment mechanism) 12 for adjusting the aperture of the aperture stop SP is attached to the back side of the third lens holding member 5.

  The fourth lens holding member 6 includes a holding frame 13 that holds the fourth lens group G4 on the inner side, a holding cylinder 14 that stores the holding frame 13 on the inner side, and the holding frame 13 in the holding cylinder 14 that has an optical axis. And a focus actuator unit (first drive unit) 15 comprising a voice coil motor (VCM) or the like for displacement driving in the direction, and the holding cylinder 14 is movable in the axial direction within the fixed cylinder 9 It is stored in a state. In addition, a plurality (three in this example) of second guide pins 11 b are provided on the outer peripheral portion of the holding cylinder 14 side by side in the circumferential direction.

  The fifth lens holding member 7 includes a holding frame 16 that holds the fifth lens group G5 inside, a support frame 17 that supports the holding frame 16 so as to be movable within a plane orthogonal to the optical axis, and the support frame. 17 is provided with an anti-vibration actuator unit (second drive unit) 18 including a piezo element (PZT) or the like for driving the holding frame 16 in a direction orthogonal to the optical axis. The fifth lens holding member 7 is integrally attached to the back side of the fourth lens holding member 6 (holding cylinder 14). Thus, the third, fourth and fifth lens holding members 5, 6 and 7 are integrated with each other to constitute one holding unit 19A.

  The sixth lens holding member 8 includes a holding frame 20 that holds the sixth lens group G6 inside, and a support frame 21 that supports the holding frame 20 so as to be movable in a plane orthogonal to the optical axis. The support frame 21 is accommodated in the fixed cylinder 9 so as to be movable in the axial direction. In addition, a plurality (three in this example) of third guide pins 11 c are provided on the outer peripheral portion of the support frame 21 side by side in the circumferential direction.

  The fixed cylinder 9 is formed in a substantially cylindrical shape as a whole, and the second lens holding member 4, the holding unit 19 </ b> A (third to fifth lens holding members 5, 6, 7) and the first housed therein are accommodated therein. Six lens holding members 8 are supported so as to be movable in the optical axis direction. Specifically, the fixed cylinder 9 is provided with a plurality of (three in this example) linear guide slits 22 extending in parallel to the optical axis direction in the circumferential direction. The fixed cylinder 9 has first to third guide pins 11 a to 11 c protruding from the outer peripheral portions of the second, fourth and sixth lens holding members 4, 6 and 8 in the guide slits 22. By being engaged, the second lens holding member 4, the holding unit 19A (third to fifth lens holding members 5, 6, 7) and the sixth lens holding member 8 can be moved in the optical axis direction. I support it.

  The cam cylinder 10 is formed in a substantially cylindrical shape as a whole, and is attached to the outer peripheral portion of the fixed cylinder 9 housed inside thereof so as to be rotatable in the circumferential direction. Specifically, the cam cylinder 10 corresponds to the curved first cam slit 23a corresponding to the movement locus of the second lens group G2 and the movement locus of the third to fifth lens groups G3 to G5. A plurality of curved second cam slits 23b and a plurality of curved third cam slits 23c corresponding to the movement locus of the sixth lens group G6 are arranged in the circumferential direction (three in this example). Is provided. In the cam cylinder 10, the first to third guide pins 11a to 11c protruding from the guide slits 22 of the fixed cylinder 9 are engaged with the first to third cam slits 23a to 23c. In the state, it is rotatably attached to the outer peripheral portion of the fixed cylinder 9 in the circumferential direction.

  In the lens barrel 2A having the above-described structure, the first to third guide pins 11a to 11c are moved to the guide slits 22 and the first to third cam slits 23a to 23a by rotating the cam barrel 10, respectively. The second lens holding member 4, the holding unit 19 </ b> A (third to fifth lens holding members 5, 6, 7) and the sixth lens holding member 8 are moved to the first lens 23 c while moving relatively within the 23 c. While moving along the shape of the third cam slits 23a to 23c, the inside of the fixed cylinder 9 is moved in the optical axis direction.

  The interchangeable lens 1A has a mechanism for manually or automatically focusing, a mechanism for detecting camera shake, a mechanism for mounting on a single-lens reflex camera, and other known parts on the lens barrel 2A. It is configured by attaching.

  In the interchangeable lens 1A, the second to sixth lens groups G2 to G6 are moved in the optical axis direction by rotating the cam barrel 10 of the lens barrel 2A while attached to the single-lens reflex camera. Zooming can be performed. Further, focusing can be performed by moving the fourth lens group G4 in the optical axis direction during zooming. Furthermore, in this interchangeable lens 1A, image blur caused by camera shake or the like can be canceled (cancelled) by moving the fifth lens group G5 in a direction orthogonal to the optical axis.

  In the lens barrel 2A to which the present invention is applied, the fourth lens holding member 6 and the fifth lens holding member 7 that are adjacent to each other in the optical axis direction move in the fixed barrel 9 along the same locus so as to move together. An integrated holding unit 19A is configured. The holding unit 19A thus compactly arranged is arranged in the fixed cylinder 9, so that the lens barrel 2A and the interchangeable lens 1A are reduced in size and weight.

  Further, as shown in FIGS. 3, 4, and 5, the holding unit 19 </ b> A includes a fifth lens in a plurality of (three in this example) screw holes 24 provided in the fourth lens holding member 6. By fastening a plurality of (three in this example) screws 26 through a plurality of (three in this example) through holes 25 provided in the holding member 7, the fourth lens holding member 6 and the fifth lens are fastened. The holding member 7 is integrated.

  By the way, when the fourth lens holding member 6 and the fifth lens holding member 7 are integrated, the focus actuator unit 15 held by the fourth lens holding member 6 and the fifth lens holding member 7 hold it. It is necessary to reduce the influence of the respective drive vibrations on the mutual position detection with the anti-vibration actuator unit 18.

  Therefore, in the present invention, a vibration absorbing member 27 for absorbing vibration is disposed between the fourth lens holding member 6 and the fifth lens holding member 7. The vibration absorbing member 27 is made of an elastic body such as rubber or resin, has a through hole 27 a through which the screw 26 passes, and is disposed between the fourth lens holding member 6 and the fifth lens holding member 7. Has been. The vibration absorbing member 27 is also disposed between the fifth lens holding member 7 and the head of the screw 26.

  Thus, vibration is prevented from being transmitted between the fourth lens holding member 6 and the fifth lens holding member 7, and more accurate position detection is performed in the focus actuator unit 15 and the vibration isolation actuator unit 18. Is possible.

(Second Embodiment)
Next, as a second embodiment, a case where the present invention is applied to an interchangeable lens (optical apparatus) 1B for a single lens reflex camera shown in FIG. 6 will be described as an example. FIG. 6 is a cross-sectional view showing the internal structure of the interchangeable lens 1B. In the following description, parts equivalent to those of the interchangeable lens 1A are denoted by the same reference numerals in the drawings.

  As shown in FIG. 6, the interchangeable lens 1B includes a lens barrel 2B in which a plurality (15 in this example) of lenses L1 to L15 are arranged side by side in the optical axis direction. The plurality of lenses L1 to L15 constitute an inner focus type zoom lens.

  Specifically, this zoom lens includes, in order from the object side (the front side of the interchangeable lens 1), a first lens group G1 including lenses L1, L2, and L3, and a second lens including lenses L4, L5, L6, and L7. A third lens group G3 composed of a group G2, a lens L8, a fourth lens group G4 composed of a lens L9, a fifth lens group G5 composed of lenses L10 and L11, and a first lens group composed of lenses L12, L13, L14 and L15. It has a 6-group lens configuration with 6-lens group G6. An aperture stop SP is disposed between the third lens group G3 and the fourth lens group G4.

  In this zoom lens, zooming is performed by moving the remaining second to sixth lens groups G2 to G6 in the optical axis direction with respect to the fixed first lens group G1, and the fourth lens. Focusing is performed by moving the group G4 in the optical axis direction.

  In addition, this zoom lens can correct image blur caused by camera shake or the like by moving the fifth lens group G5 in a direction orthogonal to the optical axis. The configuration of the zoom lens is not limited to the configuration of the 15 lenses in the 6 groups described above, and can be implemented by appropriately changing the number and combination of the lenses.

  Since the lens barrel 2B constitutes such a zoom lens, as shown in FIGS. 6, 7, and 8, a first lens holding member 3 that holds the first lens group G1, and a second lens group. A second lens holding member 4 that holds G2, a third lens holding member 5 that holds the third lens group G3, and a fourth lens holding member (first holding member) that holds the fourth lens group G4. ) 6, a fifth lens holding member (second holding member) 7 that holds the fifth lens group G5, a sixth lens holding member 8 that holds the sixth lens group G6, and the first to first lenses. 6 of the lens holding members 3 to 8, the fixed cylinder 9 that stores the second to sixth lens holding members 4 to 8 inside, and the outer periphery of the fixed cylinder 9 in a state in which the fixed cylinder 9 is stored inside. And a cam cylinder 10 rotatably attached to the portion in the circumferential direction.

  The first lens holding member 3 is formed in a cylindrical shape as a whole, and is attached to the front side of the fixed cylinder 9 with the first lens group G1 held inside.

  The second lens holding member 4 has a holding frame 4 a that holds the second lens group G <b> 2 inside, and is housed in a state that is movable in the axial direction in the fixed cylinder 9. In addition, a plurality (three in this example) of first guide pins 11a are provided side by side in the circumferential direction on the outer peripheral portion of the holding frame 4a.

  The third lens holding member 5 has a holding frame 5a that holds the third lens group G3 on the inside, and is integrally attached to the front side of the fourth lens holding member 6 (a holding cylinder 14 to be described later). ing. That is, the third lens holding member 5 and the fourth lens holding member 6 are integrated with each other to form one holding unit 19B. An iris unit (aperture adjustment mechanism) 12 for adjusting the aperture of the aperture stop SP is attached to the back side of the third lens holding member 5.

  The fourth lens holding member 6 includes a holding frame 13 that holds the fourth lens group G4 on the inner side, a holding cylinder 14 that stores the holding frame 13 on the inner side, and the holding frame 13 in the holding cylinder 14 that has an optical axis. And a focus actuator unit (first drive unit) 15 comprising a voice coil motor (VCM) or the like for displacement driving in the direction, and the holding cylinder 14 is movable in the axial direction within the fixed cylinder 9 It is stored in a state. In addition, a plurality (three in this example) of second guide pins 11 b are provided on the outer peripheral portion of the holding cylinder 14 side by side in the circumferential direction.

  The fifth lens holding member 7 includes a holding frame 16 that holds the fifth lens group G5 inside, a support frame 17 that supports the holding frame 16 so as to be movable within a plane orthogonal to the optical axis, and the support frame. 17 is provided with an anti-vibration actuator unit (second drive unit) 18 including a piezo element (PZT) or the like for driving the holding frame 16 in a direction orthogonal to the optical axis. In addition, a plurality (three in this example) of fourth guide pins 11 d are provided on the outer peripheral portion of the support frame 17 side by side in the circumferential direction.

  The sixth lens holding member 8 includes a holding frame 20 that holds the sixth lens group G6 inside, and a support frame 21 that supports the holding frame 20 so as to be movable in a plane orthogonal to the optical axis. The support frame 21 is accommodated in the fixed cylinder 9 so as to be movable in the axial direction. In addition, a plurality (three in this example) of third guide pins 11 c are provided on the outer peripheral portion of the support frame 21 side by side in the circumferential direction.

  The fixed cylinder 9 is formed in a substantially cylindrical shape as a whole, and the second lens holding member 4, the holding unit 19B (third and fourth lens holding members 5, 6), The lens holding member 7 and the sixth lens holding member 8 are supported so as to be movable in the optical axis direction. Specifically, the fixed cylinder 9 is provided with a plurality of (three in this example) linear guide slits 22 extending in parallel to the optical axis direction in the circumferential direction.

  The fixed cylinder 9 has first to fourth guides protruding from the outer peripheral portions of the second, fourth, fifth and sixth lens holding members 4, 6, 7 and 8 into the guide slits 22. By engaging the pins 11a to 11d, the second lens holding member 4, the holding unit 19B (third and fourth lens holding members 5 and 6), the fifth lens holding member 7 and the sixth lens are engaged. The holding member 8 is supported so as to be movable in the optical axis direction.

  The cam cylinder 10 is formed in a substantially cylindrical shape as a whole, and is attached to the outer peripheral portion of the fixed cylinder 9 housed inside thereof so as to be rotatable in the circumferential direction. Specifically, the cam cylinder 10 corresponds to the curved first cam slit 23a corresponding to the movement locus of the second lens group G2 and the movement locus of the third and fourth lens groups G3 and G4. A curved second cam slit 23b, a curved fourth cam slit 23d corresponding to the movement locus of the fifth lens group G5, and a curved shape corresponding to the movement locus of the sixth lens group G6. A plurality of (three in this example) third cam slits 23c are provided in the circumferential direction.

  In the cam cylinder 10, the first to fourth guide pins 11a to 11d protruding from the guide slits 22 of the fixed cylinder 9 are engaged with the first to fourth cam slits 23a to 23d. In the state, it is rotatably attached to the outer peripheral portion of the fixed cylinder 9 in the circumferential direction.

  In the lens barrel 2B having the above-described structure, the first to fourth guide pins 11a to 11d are turned to the guide slits 22 and the first to fourth cam slits 23a to 23d by rotating the cam barrel 10, respectively. The second lens holding member 4, the holding unit 19B (third and fourth lens holding members 5 and 6), the fifth lens holding member 7 and the sixth lens holding member while moving relatively in 23d. 8 moves in the fixed cylinder 9 in the direction of the optical axis while drawing a locus matched to the shape of each of the first to fourth cam slits 23a to 23d.

  The interchangeable lens 1B has a mechanism for manually or automatically focusing, a mechanism for detecting camera shake, a mechanism for mounting on a single-lens reflex camera, and other known parts on the lens barrel 2B. It is configured by attaching.

  In the interchangeable lens 1B, the second to sixth lens groups G2 to G6 are moved in the optical axis direction by rotating the cam barrel 10 of the lens barrel 2B while attached to the single-lens reflex camera. Zooming can be performed. Further, focusing can be performed by moving the fourth lens group G4 in the optical axis direction during zooming. Further, in this interchangeable lens 1B, image blur caused by camera shake or the like can be canceled (cancelled) by moving the fifth lens group G5 in a direction orthogonal to the optical axis.

  In the lens barrel 2B to which the present invention is applied, the fourth lens holding member 6 and the fifth lens holding member 7 that are adjacent in the optical axis direction move in the fixed cylinder 9 along the same locus. The second cam slit 23b and the fourth cam slit 23d are formed to draw the same locus. The fourth lens holding member 6 and the fifth lens holding member 7 that move along the same locus in this manner are arranged adjacent to each other in the fixed cylinder 9, so that the lens barrel 2B and the interchangeable lens are arranged. 1B is reduced in size and weight.

  By the way, as shown in FIG. 9, when the fourth lens holding member 6 and the fifth lens holding member 7 are arranged adjacent to each other in the fixed cylinder 9, the focus held by the fourth lens holding member 6. Between the actuator unit 15 and the anti-vibration actuator unit 18 held by the fifth lens holding member 7, it is necessary to reduce the influence of each driving vibration on the mutual position detection.

  On the other hand, in the present invention, the second guide pin 11b provided on the fourth lens holding member 6 and the fourth guide pin 11d provided on the fifth lens holding member 7 rotate respectively. The second cam slit 11b and the fourth cam slit 11b provided in the cylinder 10 are engaged with each other. In this case, the fourth lens holding member 6 and the fifth lens holding member 7 maintain the non-contact state, and the path of vibration transmitted between them is the second guide pin 11b and the fourth guide pin 11d. Can be extended between. Furthermore, since the direction in which vibration is transmitted is switched between the second guide pin 11b and the fourth guide pin 11d, the structure is such that vibration is not easily transmitted.

  Thus, vibration is prevented from being transmitted between the fourth lens holding member 6 and the fifth lens holding member 7, and more accurate position detection is performed in the focus actuator unit 15 and the vibration isolation actuator unit 18. Is possible.

(Third embodiment)
Next, as a third embodiment, for example, a case where the present invention is applied to an interchangeable lens (optical apparatus) 1C for a single-lens reflex camera shown in FIG. 10 will be described. FIG. 10 is a cross-sectional view showing the internal structure of the interchangeable lens 1C. In the following description, parts equivalent to those of the interchangeable lenses 1A and 1B are denoted by the same reference numerals in the drawings.

  As shown in FIG. 10, the interchangeable lens 1C includes a lens barrel 2B in which a plurality (15 in this example) of lenses L1 to L15 are arranged side by side in the optical axis direction. The plurality of lenses L1 to L15 constitute an inner focus type zoom lens.

  Specifically, this zoom lens includes, in order from the object side (the front side of the interchangeable lens 1), a first lens group G1 including lenses L1, L2, and L3, and a second lens including lenses L4, L5, L6, and L7. A third lens group G3 composed of a group G2, a lens L8, a fourth lens group G4 composed of a lens L9, a fifth lens group G5 composed of lenses L10 and L11, and a first lens group composed of lenses L12, L13, L14 and L15. It has a 6-group lens configuration with 6-lens group G6. An aperture stop SP is disposed between the third lens group G3 and the fourth lens group G4.

  In this zoom lens, zooming is performed by moving the remaining second to sixth lens groups G2 to G6 in the optical axis direction with respect to the fixed first lens group G1, and the fourth lens. Focusing is performed by moving the group G4 in the optical axis direction.

  In addition, this zoom lens can correct image blur caused by camera shake or the like by moving the fifth lens group G5 in a direction orthogonal to the optical axis. The configuration of the zoom lens is not limited to the configuration of the 15 lenses in the 6 groups described above, and can be implemented by appropriately changing the number and combination of the lenses.

  Since the lens barrel 2B constitutes such a zoom lens, as shown in FIGS. 10, 11, and 12, the first lens holding member 3 that holds the first lens group G1, and the second lens group. A second lens holding member 4 that holds G2, a third lens holding member 5 that holds the third lens group G3, and a fourth lens holding member (first holding member) that holds the fourth lens group G4. ) 6, a fifth lens holding member (second holding member) 7 that holds the fifth lens group G5, a sixth lens holding member 8 that holds the sixth lens group G6, and the first to first lenses. 6 of the lens holding members 3 to 8, the fixed cylinder 9 storing the second to fifth lens holding members 4 to 7 inside, and the outer periphery of the fixed cylinder 9 in a state where the fixed cylinder 9 is stored inside. And a cam cylinder 10 that is rotatably attached to the portion in the circumferential direction. .

  The first lens holding member 3 is formed in a cylindrical shape as a whole, and is attached to the front side of the fixed cylinder 9 with the first lens group G1 held inside.

  The second lens holding member 4 has a holding frame 4 a that holds the second lens group G <b> 2 inside, and is housed in a state that is movable in the axial direction in the fixed cylinder 9. In addition, a plurality (three in this example) of first guide pins 11a are provided side by side in the circumferential direction on the outer peripheral portion of the holding frame 4a.

  The third lens holding member 5 has a holding frame 5a that holds the third lens group G3 on the inside, and is integrally attached to the front side of the fourth lens holding member 6 (a holding cylinder 14 to be described later). ing. That is, the third lens holding member 5 and the fourth lens holding member 6 are integrated with each other to form one holding unit 19B. An iris unit (aperture adjustment mechanism) 12 for adjusting the aperture of the aperture stop SP is attached to the back side of the third lens holding member 5.

  The fourth lens holding member 6 includes a holding frame 13 that holds the fourth lens group G4 on the inner side, a holding cylinder 14 that stores the holding frame 13 on the inner side, and the holding frame 13 in the holding cylinder 14 that has an optical axis. And a focus actuator unit (first drive unit) 15 comprising a voice coil motor (VCM) or the like for displacement driving in the direction, and the holding cylinder 14 is movable in the axial direction within the fixed cylinder 9 It is stored in a state. In addition, a plurality (three in this example) of second guide pins 11 b are provided on the outer peripheral portion of the holding cylinder 14 side by side in the circumferential direction.

  The fifth lens holding member 7 includes a holding frame 16 that holds the fifth lens group G5 inside, a support frame 17 that supports the holding frame 16 so as to be movable within a plane orthogonal to the optical axis, and the support frame. 17 is provided with an anti-vibration actuator unit (second drive unit) 18 including a piezo element (PZT) or the like for driving the holding frame 16 in a direction orthogonal to the optical axis. In addition, a plurality (three in this example) of fourth guide pins 11 d are provided on the outer peripheral portion of the support frame 17 side by side in the circumferential direction.

  The sixth lens holding member 8 includes a holding frame 20 that holds the sixth lens group G6 inside, and a support frame 21 that supports the holding frame 20 so as to be movable in a plane orthogonal to the optical axis. The support frame 21 is accommodated in the fixed cylinder 9 so as to be movable in the axial direction. In addition, a plurality (three in this example) of third guide pins 11 c are provided on the outer peripheral portion of the support frame 21 side by side in the circumferential direction.

  The fixed cylinder 9 is formed in a substantially cylindrical shape as a whole, and the second lens holding member 4, the holding unit 19B (third and fourth lens holding members 5, 6), The lens holding member 7 and the sixth lens holding member 8 are supported so as to be movable in the optical axis direction. Specifically, the fixed cylinder 9 is provided with a plurality of (three in this example) linear guide slits 22 extending in parallel to the optical axis direction in the circumferential direction.

  The fixed cylinder 9 has first to fourth guides protruding from the outer peripheral portions of the second, fourth, fifth and sixth lens holding members 4, 6, 7 and 8 into the guide slits 22. By engaging the pins 11a to 11d, the second lens holding member 4, the holding unit 19B (third and fourth lens holding members 5 and 6), the fifth lens holding member 7 and the sixth lens are engaged. The holding member 8 is supported so as to be movable in the optical axis direction.

  The cam cylinder 10 is formed in a substantially cylindrical shape as a whole, and is attached to the outer peripheral portion of the fixed cylinder 9 housed inside thereof so as to be rotatable in the circumferential direction. Specifically, the cam cylinder 10 corresponds to the curved first cam slit 23a corresponding to the movement locus of the second lens group G2 and the movement locus of the third and fourth lens groups G3 and G4. The second cam slit 28 having the curved first cam portion 28a and the second curved cam portion 28b corresponding to the movement locus of the fifth lens group G5, and the movement of the sixth lens group G6. A plurality of curved third cam slits 23c corresponding to the locus are provided side by side in the circumferential direction (three in this example).

  In the cam cylinder 10, the first to fourth guide pins 11a to 11d protruding from the guide slits 22 of the fixed cylinder 9 are engaged with the first to third cam slits 23a, 28, and 23c. In this state, it is attached to the outer periphery of the fixed cylinder 9 so as to be rotatable in the circumferential direction.

  In addition, the second guide pin 11b is brought into contact with the first cam portion 28a formed at one end edge portion of the second cam slit 28, and the second cam formed at the other end edge portion. In order to bring the fourth guide pin 11d into contact with the portion 28b, the fourth lens holding member 6 and the fifth lens holding member 7 are interposed between the fourth lens holding member 6 and the fifth lens holding member 7. A plurality (three in this example) of spring members 29 that urge the members 7 away from each other are arranged.

  In the lens barrel 2C having the above-described structure, the first to fourth guide pins 11a to 11d are moved to the guide slits 22 and the first to third cam slits 23a by rotating the cam barrel 10, respectively. The second lens holding member 4, the holding unit 19B (third and fourth lens holding members 5 and 6), the fifth lens holding member 7 and the sixth lens are moved relative to each other within the 28 and 23c. The holding member 8 moves in the direction of the optical axis in the fixed cylinder 9 while drawing a locus matched to the shape of each of the first to third cam slits 23a, 28, 23c.

  The interchangeable lens 1C is provided with a mechanism for manually or automatically focusing, a mechanism for detecting camera shake, a mechanism for mounting on a single-lens reflex camera, and other known parts on the lens barrel 2C. It is configured by attaching.

  In the interchangeable lens 1C, the second to sixth lens groups G2 to G6 are moved in the optical axis direction by rotating the cam barrel 10 of the lens barrel 2C while attached to the single-lens reflex camera. Zooming can be performed. Further, focusing can be performed by moving the fourth lens group G4 in the optical axis direction during zooming. Furthermore, in this interchangeable lens 1C, image blur caused by camera shake or the like can be canceled (cancelled) by moving the fifth lens group G5 in a direction orthogonal to the optical axis.

  In the lens barrel 2C to which the present invention is applied, the fourth lens holding member 6 and the fifth lens holding member 7 that are adjacent in the optical axis direction move in the fixed barrel 9 along the same locus. The first cam portion 28a and the second cam portion 28b of the two cam slits 28 are formed to draw the same locus. The fourth lens holding member 6 and the fifth lens holding member 7 that move along the same locus in this way are arranged adjacent to each other in the fixed cylinder 9, so that the lens barrel 2C and the interchangeable lens are arranged. 1C has been reduced in size and weight.

  By the way, as shown in FIG. 13, when the fourth lens holding member 6 and the fifth lens holding member 7 are arranged adjacent to each other in the fixed cylinder 9, the focus held by the fourth lens holding member 6. Between the actuator unit 15 and the anti-vibration actuator unit 18 held by the fifth lens holding member 7, it is necessary to reduce the influence of each driving vibration on the mutual position detection.

  On the other hand, in the present invention, the second guide pin 11b provided on the fourth lens holding member 6 and the fourth guide pin 11d provided on the fifth lens holding member 7 rotate respectively. The second cam slit 28 provided in the cylinder 10 is engaged with the first cam portion 28a and the second cam portion 28b. In this case, the fourth lens holding member 6 and the fifth lens holding member 7 maintain the non-contact state, and the path of vibration transmitted between them is the second guide pin 11b and the fourth guide pin 11d. Can be extended between. Furthermore, since the direction in which vibration is transmitted is switched between the second guide pin 11b and the fourth guide pin 11d, the structure is such that vibration is not easily transmitted.

  Thus, vibration is prevented from being transmitted between the fourth lens holding member 6 and the fifth lens holding member 7, and more accurate position detection is performed in the focus actuator unit 15 and the vibration isolation actuator unit 18. Is possible.

In addition, this invention is not necessarily limited to the thing of the said 1st-3rd embodiment, A various change can be added in the range which does not deviate from the meaning of this invention.
For example, in the first to third embodiments, the case where the present invention is applied to the interchangeable lens 1 used in a single-lens reflex film camera has been described. However, the present invention includes a lens shutter camera, a digital still camera, a video camera, and the like. The present invention can be widely applied to optical apparatuses such as image capturing apparatuses and image projection apparatuses such as projectors, and lens barrels included in such optical apparatuses.

  DESCRIPTION OF SYMBOLS 1A, 1B, 1C ... Interchangeable lens (optical apparatus) 2A, 2B, 2C ... Lens barrel 3 ... 1st lens holding member 4 ... 2nd lens holding member 5 ... 3rd lens holding member 6 ... 4th Lens holding member (first holding member) 7 ... Fifth lens holding member (second holding member) 8 ... Sixth lens holding member 9 ... Fixed tube 10 ... Cam tube 11a ... First guide pin 11b ... Second guide pin 11c ... Third guide pin 11d ... Fourth guide pin 12 ... Iris unit (aperture adjustment mechanism) 13 ... Holding frame 14 ... Holding cylinder 15 ... Focus actuator unit (first drive unit) 16 ... Holding frame 17 ... Support frame 18 ... Anti-vibration actuator unit (second drive unit) 19A, 19B ... Holding unit 20 ... Holding frame 21 ... Support frame 22 ... Guides 23a ... first cam slit 23b ... second cam slit 23c ... third cam slit 23d ... fourth cam slit 24 ... screw hole 25 ... through hole 26 ... screw 27 ... vibration absorbing member 28 ... second Cam slit 28a ... first cam portion 28b ... second cam portion 29 ... spring members L1-L15 ... lenses G1-G ... first to sixth lens groups SP ... stop

Claims (9)

A first holding member that holds the first drive unit;
A second holding member for holding the second drive unit;
A fixed cylinder that houses the first holding member and the second holding member in an adjacent state in the optical axis direction;
A cam cylinder that is rotatable in the circumferential direction at an outer peripheral portion of the fixed cylinder in a state in which the fixed cylinder is housed inside;
By rotating the cam cylinder, the first and second holding members move in the fixed cylinder along the same locus, and between the first drive unit and the second drive unit, A lens barrel having a structure in which vibrations generated in each drive unit are prevented from adversely affecting each other's position detection. A holding unit in which a first holding member that holds the first drive unit and a second holding member that holds the second drive unit are integrally attached in a state of being adjacent to each other in the optical axis direction;
A fixed cylinder having a guide slit with which a guide pin protruding from an outer peripheral portion of any one of the first holding member and the second holding member is engaged, and the holding unit is housed inside.
A cam cylinder having a cam slit that is rotatable in the circumferential direction at the outer peripheral portion of the fixed cylinder and is engaged with the guide pin protruding from the guide slit in a state in which the fixed cylinder is housed inside. With
When the cam cylinder rotates, the guide pin relatively moves in the guide slit and the cam slit, so that the first holding member and the second holding member constituting the holding unit follow the same locus. The lens barrel according to claim 1, wherein the lens barrel is drawn and moved in the fixed barrel.   The lens barrel according to claim 2, wherein the holding unit includes a vibration absorbing member between the first holding member and the second holding member. The holding unit is configured to fasten the first holding member by fastening a screw to a screw hole provided in the other through a through hole provided in either one of the first holding member and the second holding member. A structure in which the member and the second holding member are integrated;
The said vibration absorption member has a through-hole which penetrates the said screw | thread, and is arrange | positioned between the said 1st holding member and the said 2nd holding member. Lens barrel. A first holding member that holds the first drive unit;
A second holding member for holding the second drive unit;
The first holding member and the second holding member are accommodated inside in a state of being adjacent to each other in the optical axis direction, and the first holding member and the first holding member protrude from the outer peripheral portions of the second holding member. A fixed cylinder having a guide slit with which the guide pin and the second guide pin are engaged;
A first cam in which the first guide pin protruding from the guide slit is engaged while being rotatable in the circumferential direction at the outer peripheral portion of the fixed cylinder in a state in which the fixed cylinder is housed inside. A slit, and a second cam slit that engages with the second guide pin protruding from the guide slit, and the first and second cam slits are formed to draw the same locus. Cam barrels,
By rotating the cam cylinder, the first guide pin relatively moves in the guide slit and the first cam slit, and the second guide pin moves in the guide slit and the second cam slit. 3. The lens barrel according to claim 2, wherein the first holding member and the second holding member move in the fixed tube along the same locus by relatively moving inside. A first holding member that holds the first drive unit;
A second holding member for holding the second drive unit;
The first holding member and the second holding member are accommodated inside in a state of being adjacent to each other in the optical axis direction, and the first holding member and the first holding member protrude from the outer peripheral portions of the second holding member. A fixed cylinder having a guide slit with which the guide pin and the second guide pin are engaged;
In a state where the fixed cylinder is housed inside, the first guide pin and the second guide pin protruding from the guide slit are engaged with each other while being rotatable in the circumferential direction at the outer peripheral portion of the fixed cylinder. And a cam cylinder in which the first guide pin is in contact with one end edge of the cam slit and the second guide pin is in contact with the other end edge. With
As the cam cylinder rotates, the first and second guide pins move relatively in the guide slit and the cam slit, so that the first holding member and the second holding member have the same locus. The lens barrel according to claim 1, wherein the lens barrel moves in the fixed cylinder.   A spring member is provided between the first holding member and the second holding member and biases the first holding member and the second holding member in a direction away from each other. The lens barrel according to claim 6.   The lens barrel according to claim 1, wherein the first drive unit is a focus actuator unit, and the second drive unit is a vibration-proof actuator unit.   An optical apparatus comprising the lens barrel according to claim 1.

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