Camera module, electronic device in which camera module is mounted, and method for manufacturing camera module

The invention claimed is: 1. A camera module comprising: a lens unit comprising a plurality of lenses which are stacked on top of each other; and an actuator configured to drive the lens unit, the plurality of lenses which comprise the lens unit being fixed to each other with use of an adhesive applied between the plurality of lenses, the actuator comprising an opening for incorporating the lens unit in an optical axis direction, the lens unit being incorporated into the actuator through the opening and held inside the actuator so as to face directly an inner wall surface of the actuator, the camera module further comprising a stopper with an L shape for fixing the lens unit within the actuator, at least a part of the stopper being fitted into a gap between the lens unit and the inner wall surface, and the lens unit being configured such that: only a part of an edge surface of a lens positioned furthest from the opening contacts the inner wall surface of the actuator, a remaining part of the edge surface of the lens positioned furthest from the opening does not contact the inner wall surface of the actuator, and no other lens(es) in the actuator are in contact with the inner wall surface of the actuator. 2. The camera module as set forth in claim 1 , wherein: two edge surfaces which (i) respectively belong to any two adjacent lenses among the plurality of lenses and (ii) face each other comprise respective steps each of which protrudes toward a side opposite to one of the two edge surfaces which one faces the each of the steps; and the plurality of lenses are joined to each other by applying an adhesive to a gap formed between the steps. 3. A camera module as set forth in claim 2 , further comprising: a spacer provided between two adjacent lenses among the plurality of lenses, the spacer comprising respective two edge surfaces, each of the two edge surfaces comprising a step which protrudes toward a side opposite to one of the two adjacent lenses corresponding to the spacer which one faces the each of the two edge surfaces, the spacer and each of the two adjacent lenses corresponding to the spacer being joined to each other by applying an adhesive to a gap formed between (i) the step provided on the each of the two edge surfaces of the spacer and (ii) the step provided on the edge surface of the one of the two adjacent lenses which one faces the each of the two edge surfaces of the spacer. 4. A camera module as set forth in claim 2 , further comprising a light-shielding plate provided between two adjacent lenses among the plurality of lenses, the light-shielding plate and each of the two adjacent lenses which correspond to the light-shielding plate being joined to each other by applying an adhesive to a gap formed between the light-shielding plate and the each of the two adjacent lenses corresponding to the light-shielding plate. 5. A camera module as set forth in claim 2 , further comprising a light-shielding plate provided between two adjacent lenses among the plurality of lenses, one of the two adjacent lenses which correspond to the light-shielding plate comprising a protrusion on the edge surface of the one of the two adjacent lenses, the light-shielding plate being engaged with the edge surface of the other of the two adjacent lenses by being disposed on top of the protrusion. 6. The camera module as set forth in claim 2 , wherein: the edge surface of one of any two adjacent lenses among the plurality of lenses has a protruding shape; the edge surface of the other of the any two adjacent lenses has a recessed shape; and an optical axis of the lens unit is aligned by causing the protruding shape and the recessed shape to be engaged with or fitted into each other. 7. The camera module as set forth in claim 2 , wherein an optical axis of the lens unit is aligned by causing outer wall surfaces of the respective plurality of lenses to be aligned with each other. 8. The camera module as set forth in claim 1 , wherein: two edge surfaces which (i) respectively belong to any two adjacent lenses among the plurality of lenses and (ii) face each other comprise respective steps each of which protrudes toward a side opposite to one of the two edge surfaces which one faces the each of the steps; the plurality of lenses are joined to each other by applying an adhesive to a gap formed between the steps; the camera module further comprises a spacer provided between two adjacent lenses among the plurality of lenses, the spacer comprising respective two edge surfaces, each of the two edge surfaces comprising a step which protrudes toward a side opposite to one of the two adjacent lenses corresponding to the spacer which one faces the each of the two edge surfaces, the spacer and each of the two adjacent lenses corresponding to the spacer being joined to each other by applying an adhesive to a gap formed between (i) the step provided on the each of the two edge surfaces of the spacer and (ii) the step provided on the edge surface of the one of the two adjacent lenses which one faces the each of the two edge surfaces of the spacer; the edge surface of one of any two adjacent lenses among the plurality of lenses has a protruding shape; the edge surface of the other of the any two adjacent lenses has a recessed shape; and an optical axis of the lens unit is aligned by causing the protruding shape and the recessed shape to be engaged with or fitted into each other. 9. The camera module as set forth in claim 1 , further comprising: a substrate; an image pickup device provided on the substrate; and a sensor cover configured to cover the image pickup device, the sensor cover including a portion which abuts against the image pickup device, the actuator abutting against the sensor cover. 10. The camera module as set forth in claim 1 , wherein: the actuator comprises a base member and an upper cover provided on the base member and comprises the opening; and the lens unit is supported by a suspension wire, which is attached to the base member inside the actuator and around which a camera shake compensation coil is fixed, so as to have a distance from the lens unit. 11. A camera module comprising: a lens unit comprising a plurality of lenses which are stacked on top of each other; and an actuator configured to drive the lens unit, the plurality of lenses which constitute the lens unit being fixed to each other by being fitted into each other, the actuator comprising an opening for incorporating the lens unit in an optical axis direction, the lens unit being incorporated into the actuator through the opening and held inside the actuator so as to face directly an inner wall surface of the actuator the camera module further comprising a stopper with an L shape for fixing the lens unit within the actuator, at least a part of the stopper being fitted into a gap between the lens unit and the inner wall surface, and the lens unit being configured such that: only a part of an edge surface of a lens positioned furthest from the opening contacts the inner wall surface of the actuator, a remaining part of the edge surface of the lens positioned furthest from the opening does not contact the inner wall surface of the actuator; and no other lens(es) in the actuator are in contact with the inner wall surface of the actuator. 12. An electronic device in which a camera module recited in claim 1 is incorporated. 13. A method of manufacturing a camera module, the camera module including: a lens unit comprising a plurality of lenses which are stacked on top of each other; an actuator configured to drive the lens unit; and