Oblique projection optical system and projection type display apparatus using the same

The invention claimed is: 1. A projection type display apparatus comprising: a group of lenses consisting of a plurality of lenses for enlarging an image displayed on a display screen of a display device and projecting an enlarged image on a projection screen, wherein the group of lenses comprises a first lens arranged at a position optically nearest to the projection screen, wherein the first lens has an effective image area through which a light flux of the image is passed and has such a shape that a portion which does not include the effective image area is truncated, and wherein, a height (shift amount) of a position of the displayed enlarged image with respect to an optical axis shared by the plurality of lenses in the vertical direction of the projection screen is increased; and a mirror for reflecting an optical path arranged between the first lens and the projection screen, wherein an upper end of a vertical effective image area of the first lens is located above a lower end of a vertical effective image area of the mirror, wherein the mirror has a predetermined angle of elevation with respect to the optical axis, and wherein the mirror is provided with a mirror moving mechanism adaptable to move the mirror along the optical axis. 2. The projection type display apparatus according to claim 1 , wherein the effective image area through which the light flux of the image is passed does not include the optical axis shared by a plurality of lenses which do not include at least the first lens among the group of lenses, and wherein the shape of the first lens has such a shape that a portion which does not include the optical axis of the first lens is truncated. 3. The projection type display apparatus according to claim 1 , wherein the first lens has a shape asymmetric about the optical axis. 4. The projection type display apparatus according to claim 1 , wherein, assuming that L is an interval between the first lens and the projection screen and D is a diagonal length of the projection screen, a following relationship holds: 2.0<D/L. 5. The projection type display apparatus according to claim 1 , wherein the first lens has a shape asymmetric about an optical axis of an effective surface of the first lens, and has such a shape that a portion of an aspheric shape which is symmetric about the optical axis is truncated. 6. The projection type display apparatus according to claim 1 , wherein the mirror is provided with a rotation adjusting mechanism adaptable to change the angle of elevation. 7. The projection type display apparatus according to claim 1 , wherein the first lens is accommodated in a range of a maximum vertical width of a surface of a housing of the projection display apparatus facing to the projection screen. 8. A projection type display apparatus according to claim 1 , comprising: a group of lenses consisting of a plurality of lenses for enlarging an image displayed on a display screen of a display device and projecting an enlarged image on a projection screen, wherein the group of lenses comprises a first lens arranged at a position optically nearest to the projection screen, wherein the first lens has an effective image area through which a light flux of the image is passed and has such a shape that a portion which does not include the effective image area is truncated, and wherein, a height (shift amount) of a position of the displayed enlarged image with respect to an optical axis shared by the plurality of lenses in the vertical direction of the projection screen is increased; and a mirror for reflecting an optical path arranged between the first lens and the projection screen, wherein the mirror is configured such that, when the mirror is arranged at a predetermined angle with respect to the optical axis, an enlarged image obtained by the image light flux reflected by the mirror is displayed in a direction toward the display screen of the display device, and wherein the mirror is provided with a mirror moving mechanism adaptable to move the mirror along the optical axis. 9. The projection type display apparatus according to claim 1 , comprising a mirror for reflecting an optical path arranged between the first lens and the projection screen, wherein the mirror is provided with a rotation adjusting mechanism adaptable to change an angle with respect to the optical axis, and wherein in a first state that the mirror is arranged at a predetermined angle with respect to the optical axis, an enlarged image obtained by the image light flux reflected by the mirror is displayed in a direction toward the display screen, while in a second state that the mirror is accommodated in the projection type display apparatus, an enlarged image is formed in a direction along an extension of the optical axis. 10. The projection type display apparatus according to claim 8 , wherein an upper end of a vertical effective image area of the first lens is located above a lower end of a vertical effective image area of the mirror. 11. The projection type display apparatus according to claim 8 , means for detecting a rotation angle of the mirror; and an image correction function which corrects distortion of a projected image in accordance with the detected rotation angle. 12. The projection type display apparatus according to claim 1 , comprising a mirror for reflecting an optical path arranged between the first lens and the projection screen, wherein the mirror is configured such that, when the mirror is arranged at a predetermined angle θ1 with respect to the optical axis, an enlarged image obtained by the image light flux returned reflected by the mirror is formed toward the display screen, and wherein the projection type display apparatus is tilted by θ2 with respect to a reference flat surface substantially perpendicular to the enlarged image, and the angles θ1 and θ2 satisfy a relationship, 1.5≦θ2/θ1≦2.5. 13. The projection type display apparatus according to claim 1 , wherein the first lens is a plastic lens, and wherein among a predetermined number of successive lenses arranged from the first lens, a refractive index of at least one lens is equal or greater than 1.8. 14. The projection type display apparatus according to claim 1 , wherein the truncated portion of the first lens is substantially parallel to a lower end line of a housing of the projection display apparatus. 15. The projection type display apparatus according to claim 1 , wherein the mirror is a flat mirror.