Lens barrel, imaging element support structure, electronic view finder, and imaging device

The invention claimed is: 1. A lens barrel comprising: a cylindrical lens frame supporting a lens unit and having three or more groove units arranged in a circumferential direction thereof; a cylindrical frame support unit supporting the cylindrical lens frame and having three or more through holes formed in a circumferential direction of the cylindrical frame support unit to penetrate the cylindrical frame support unit; and three or more insertion units inserted into the three or more groove units via the three or more through holes, wherein a plurality of openings is formed at the three of more through holes, wherein the plurality of openings has different opening widths and are arranged in a thicknesswise direction of the frame support unit, wherein two or more insertion units among the three or more insertion units include, a concentric cylinder unit arranged concentrically with respect to a pivot axis of an insertion portion, and an eccentric cylinder unit arranged eccentrically with respect to the pivot axis of the insertion portion, and wherein one or more of the plurality of openings have an elliptical shape with a major axis parallel to an optical axis of the lens barrel, and one or more of the other openings have an elliptical shape with a major axis parallel to the circumferential direction of the cylindrical frame support unit. 2. The lens barrel of claim 1 , wherein any one of the opening having an elliptical shape with a major axis parallel to the optical axis of the lens barrel and the opening having an elliptical shape with a major axis parallel to the circumferential direction of the cylindrical frame support unit is arranged at an outer wall side of the cylindrical frame support unit, and the other is arranged at an inner wall side of the cylindrical frame support unit. 3. The lens barrel of claim 1 , wherein, when adjusting the eccentricity of the lens unit, the eccentric cylinder unit is supported by the opening having an elliptical shape with a major axis parallel to the optical axis of the lens barrel among the plurality of openings included in the three or more through holes; and wherein, when adjusting the inclination of the lens unit, the eccentric cylinder unit is supported by the opening having an elliptical shape with a major axis parallel to the circumferential direction of the cylindrical frame support unit among the plurality of openings included in the three or more through holes. 4. The lens barrel of claim 1 , wherein the opening arranged at the outer wall side of the cylindrical frame support unit has a larger opening width than the opening arranged at the inner wall side of the cylindrical frame support unit. 5. The lens barrel of claim 1 , further comprising: a cylindrical guide tube arranged to surround the cylindrical frame support unit, wherein an outer wall of the guide tube includes one or more opening units for attaching/detaching a dedicated tool for pivoting the insertion unit inserted into the three or more through holes from outside of the guide tube. 6. The lens barrel of claim 5 , wherein the cylindrical frame support unit is movable in an optical-axis direction of the lens barrel; and wherein, when the lens unit is arranged at a wide end among a zoom position, the dedicated tool for adjusting the eccentricity or inclination of the lens unit is attached/detached through the opening unit. 7. The lens barrel of claim 5 , wherein the cylindrical frame support unit is movable in an optical-axis direction of the lens barrel; and wherein, when the lens unit is arranged at a tele end among a zoom position, the dedicated tool for adjusting the eccentricity or inclination of the lens unit is attached/detached through the opening unit. 8. An imaging element support structure comprising: an imaging element frame supporting an imaging element and having three or more groove units arranged in a circumferential direction thereof; an imaging element frame support member supporting the imaging element frame and having three or more through holes formed in a circumferential direction of the imaging element frame support member to penetrate the imaging element frame support member; and three or more insertion units inserted into the three or more groove units via the three or more through holes, wherein a plurality of openings is formed at the three or more through holes, wherein the plurality of openings has different opening widths and are arranged in a thincknesswise direction of the imaging element frame support member, wherein two or more insertion units among the three or more insertion units include: a concentric cylinder unit arranged concentrically with respect to a pivot axis of an insertion portion, and an eccentric cylinder unit arranged eccentrically with respect to the pivot axis of the insertion portion, and wherein one or more of the plurality of openings have an elliptical shape with a major axis parallel to an optical axis of the imaging element support structure, and one or more of the other openings have an elliptical shape with a major axis parallel to a circumferential direction of the imaging element frame support member. 9. The imaging element support structure of claim 8 , wherein the opening having an elliptical shape with a major axis parallel to the optical axis of the imaging element support structure is arranged at an outer wall of the imaging element support structure, and the opening having an elliptical shape with a major axis parallel to the circumferential direction of the imaging element frame support member is arranged at an inner wall of the imaging element support structure. 10. The imaging element support structure of claim 8 , wherein, when adjusting the eccentricity of the imaging element, the eccentric cylinder unit is supported by the opening having an elliptical shape with a major axis parallel to the optical axis of the imaging element support structure among the plurality of openings included in the three or more through holes; and wherein, when adjusting the inclination of the imaging element, the eccentric cylinder unit is supported by the opening having an elliptical shape with a major axis parallel to the circumferential direction of the imaging element frame support member among the plurality of openings included in the three or more through holes. 11. The imaging element support structure of claim 8 , wherein the opening arranged at an outer wall side of the imaging element frame support member has a larger opening width than the opening arranged at an inner wall side of the imaging element frame support member. 12. An electronic viewfinder comprising: a display element frame supporting a display element and having three or more groove units arranged in a circumferential direction thereof; a display element frame support member supporting the display element frame and having three or more through holes formed in a circumferential direction of the display element frame support member to penetrate the display element frame support member; and three or more insertion units inserted into the three or more groove units via the three or more through holes, wherein a plurality of openings is formed at the three or more through holes, wherein the plurality of openings has different opening widths and are arranged in a thincknesswise direction of the display element frame support member, wherein two or more insertion units among the three or more insertion units include; a concentric cylinder unit arranged concentrically with respect to a pivot axis of the insertion portion, and an eccentric cylinder unit arranged eccentrically with respect to the pivot