Lens holder driving device and camera-equipped portable terminal

The invention claimed is: 1. A lens holder driving device, comprising: a lens holder to which a lens barrel is attachable; a fixing part disposed at an outer periphery of the lens holder; a driving mechanism for driving the lens holder in a direction of an optical axis (O) of a lens; and a position detection part configured to detect a position of the lens holder in the direction of the optical axis (O), wherein: the fixing part includes a base member disposed on a lower side of the lens holder; the driving mechanism includes a yoke uprightly provided on the base member; the position detection part includes: a sensor magnet attached on a corresponding outer peripheral surface of the lens holder in a direction (X) orthogonal to the optical axis (O), and a magnetic detection device provided to the fixing part such that the magnetic detection device is opposite to the sensor magnet; the yoke includes an outer cylinder part having a cylindrical shape; the outer cylinder part includes a plurality of plate parts which are opposite to each other in the direction (X) orthogonal to the optical axis (O), the plate parts having cutout parts at positions opposite to the sensor magnet; the lens holder driving device includes a foreign matter intrusion prevention member configured to prevent intrusion of foreign matters from the cutout part of the plate part, the lens holder driving device further includes: an upper leaf spring configured to couple the lens holder and the fixing part at an upper part thereof, and a lower leaf spring configured to couple the lens holder and the fixing part at a lower part thereof; the position detection part is provided in a region around the lower leaf spring; the yoke has a substantially quadrangular cylindrical shape; the driving mechanism further includes: a driving coil fixed at a periphery of the lens holder in a region on a side closer to the upper leaf spring, and a driving magnet including plate-shaped driving magnet pieces which are disposed at a pair of inner wall surfaces of the yoke opposite to each other in a first direction (Y) orthogonal to the direction of the optical axis (O), the plate-shaped driving magnet pieces being respectively disposed to be opposite to the driving coil; the base member includes: a ring-shaped base part, and first and second protruding parts which are opposite to each other in a second direction (X) orthogonal to the direction of the optical axis (O) and the first direction (Y) and protrude upward from the base part, the first protruding part having a rectangular hole; the position detection part includes: a sensor magnet as one of a pair of sensor magnets attached on corresponding outer peripheral surfaces of the lens holder in the second direction (X), and the magnetic detection device that is inserted to the rectangular hole of the first protruding part of the base member, and firmly fixed with resin, the magnetic detection device being opposite to the sensor magnet; the outer cylinder part of the yoke has a substantially square cylindrical shape; the yoke further includes: a ring-shaped upper end part having a substantially quadrangular shape protruding inward at an upper end of the outer cylinder part, and an inner vertical extending part extending perpendicularly downward in a direction parallel to the optical axis (O) at four corners of an inside of the ring-shaped upper end part; the outer cylinder part includes first and second plate parts that are opposite to each other in the second direction (X) as the plurality of plate parts, the first and second plate parts respectively having first and second cutout parts that open downward at positions opposite to the pair of sensor magnets as the cutout part; the fixing part further includes an inner housing provided such that the inner housing is sandwiched between the base member and the yoke and housed in an inner wall surface of the yoke; a combination of the first protruding part, the second protruding part, and the inner housing functions as the foreign matter intrusion prevention member; the inner housing includes: a ring-shaped part provided at an upper part of an inner wall surface of the outer cylinder part of the yoke, a vertical extending part perpendicularly extending downward from four corners of the ring-shaped part in a direction parallel to the optical axis (O), and first and second U-shaped plate parts extending downward in a direction parallel to the optical axis (O) from a pair of sides of the ring-shaped part which are opposite to each other in the second direction (X); the first protruding part of the base member and the first U-shaped plate part of the inner housing are fitted to each other in a region around the first cutout part of the first plate part; the second protruding part of the base member and the second U-shaped plate part of the inner housing are fitted to each other in a region around the second cutout part of the second plate part; the plate-shaped driving magnet pieces and the pair of sensor magnets are disposed at positions which are point symmetrical about the optical axis (O); the lens holder driving device further comprises: a flexible printed circuit attached on an exterior wall of the first protruding part of the base member at the first cutout part of the first plate part, wherein: the magnetic detection device is attached on an internal surface side of the flexible printed circuit; the flexible printed circuit includes a light shielding film configured to cover at least a portion which is opposite to the magnetic detection device on an external surface side of the flexible printed circuit: the flexible printed circuit includes a pair of cone-shaped depressions that are recessed inward at both end portions in the first direction (Y); a pair of external connection terminals of the lower leaf spring protrude and joined thereto by soldering in a state where the external connection terminals are housed in the pair of cone-shaped depressions without protruding over a main surface of the flexible printed circuit; the flexible printed circuit has a grounding pattern at a center portion on the external surface side thereof; the first plate part of the yoke has a protrusion part protruding downward at the first cutout part; the flexible printed circuit is attached on an exterior wall of the first protruding part of the base member in a state where the flexible printed circuit is inserted in the protrusion part the yoke and the grounding pattern are joined together by soldering at the protrusion part; and the protrusion part is Sn-plated and half-punched. 2. The lens holder driving device according to claim 1 , wherein: the ring-shaped upper end part of the yoke includes a semi-punched portion that is semi-punched at a plurality of portions on an inner periphery side of the ring-shaped upper end part; and the upper leaf spring makes contact with the plurality of semi-punched portions when the lens holder moves upward. 3. The lens holder driving device according to claim 1 , wherein: the vertical extending part of the inner housing has a protrusion protruding outward in a radial direction; and the yoke is fitted to the inner housing in a lightly pressed state with the outer cylinder part of the yoke pushing down the protrusion of the inner housing to thereby set a position of the yoke with respect to the inner housing. 4. The lens holder driving device according to claim 3 , wherein the protrusion has a substantially semi-columnar shape which extends in a direction parallel to the direction of the optical axis (O). 5. The lens holder driving device according to claim 4 , wherein the protrusion has a top end portion having a substantially half cone shape at an upper part thereof.