Projector and projector system

What is claimed is: 1. A projector comprising: a spatial light modulator configured to display a first image; at least one lens configured to project the first image displayed by the spatial light modulator; at least one image sensor configured to capture, through the at least one lens, a second image projected by another projector; and a computing unit for computing a distance between a surface on which the second image is projected and the another projector, using imaging data of the second image captured imaged by the at least one image sensor, and spacing information on a spacing between the projector and the another projector. 2. The projector according to claim 1 , wherein the computing unit computes angular information on an angle between a direction of projection of the second image and a direction of capturing of the second image, the angle being computed from a position of the second image projected by the another projector, the position being obtained from the imaging data of the second image; and the computing unit computes the distance between the surface on which the second image is projected and the another projector, the distance being computed from the angular information and the spacing information. 3. The projector according to claim 1 , further comprising a communication unit for receiving positional information on the another projector from the another projector, wherein the computing unit computes the spacing information based on the positional information received by the communication unit. 4. The projector according to claim 1 , wherein the spatial light modulator is disposed on an optical axis of projection of the first image, and the at least one image sensor is disposed on an outside of the spatial light modulator with respect to the optical axis. 5. The projector according to claim 4 , wherein the at least one image sensor imaging unit comprises a plurality of image sensors. 6. The projector according to claim 4 , wherein the at least one image sensor is disposed on an opposite side of the at least one lens across the spatial light modulator, in a direction of the optical axis. 7. The projector according to claim 1 , wherein the at least one image sensor is disposed on an optical axis of projection of the first image, on an opposite side of the at least one lens across the spatial light modulator; and the at least one image sensor is larger in area than the spatial light modulator. 8. The projector according to claim 1 , further comprising an optical-path splitting unit for splitting an optical path into an optical path from the spatial light modulator to the at least one lens and an optical path from the at least one lens to the at least one image sensor. 9. The projector according to claim 1 , wherein at least a part of the second image captured by the at least one image sensor is projected on an area outside of a region in which the first image is projected by the spatial light modulator. 10. A projector system comprising: a first projector being the projector according to claim 1 ; and a second projector being the another projector according to claim 1 . 11. The projector system according to claim 10 , wherein the second projector includes: a second spatial light modulator configured to display the second image; at least one second lens configured to project the second image displayed by the second spatial light modulator; at least one second image sensor configured to capture the first image through the at least one second lens; and a second computing unit for computing a distance between the first projector and a surface on which the first image is projected, using imaging data of the first image captured by the second image sensor, and the spacing information on the spacing between the first projector and the second projector. 12. The projector system according to claim 10 , further comprising a third projector for projecting a third image, wherein the computing unit computes a distance between the third projector and a surface on which the third image is projected, using imaging data of the third image captured by the at least one image sensor, and spacing information on a spacing between the third projector and the first projector. 13. A projector system comprising “n” units of first to n-th projectors each of which is the projector according to claim 1 , “n” being an integer, wherein the another projector, according to claim 1 , corresponding to each of the first to (n−1)-th projectors is a respective one of the second to n-th projectors; and the another projector, according to claim 1 , corresponding to the n-th projector is the first projector. 14. A projector system comprising: a second projector for projecting a second image, the second projector including a second communication unit for transmitting positional information on the second projector; a first projector for projecting a first image, the first projector including: a spatial light modulator configured to display the first image; at least one lens configured to project the first image displayed by the spatial light modulator; an image sensor configured to capture the second image through the at least one lens; and a first communication unit for transmitting positional information on the first projector and for transmitting imaging data of the second image captured by the image sensor; and a control box for communicating with the first projector and the second projector, the control box including: a third communication unit for receiving the imaging data of the second image and the positional information on the first projector from the first communication unit, and for receiving the positional information on the second projector from the second communication unit; and a computing unit for computing spacing information on a spacing between the first projector and the second projector, and for computing a distance between the second projector and a surface on which the second image is projected, wherein the spacing is computed from the imaging data of the second image, the positional information on the first projector, and the positional information on the second projector, and wherein the distance is computed from the spacing information and the imaging data of the second image.