Turbocharger

What is claimed is: 1. A turbocharger comprising: a bearing housing provided with a bearing hole; a turbine shaft including a shaft rotatably supported by a bearing to be housed in the bearing hole, a turbine wheel provided on one end side of the shaft, and a compressor wheel provided on another end side of the shaft; a compressor housing connected to the bearing housing and configured to house the compressor wheel in a housing space formed in the compressor housing; a diffuser flow passage of an annular shape located outside of the compressor wheel in a radial direction, and formed by two opposed surfaces of the compressor housing and the bearing housing being opposed to each other; and a seal plate attached to the bearing housing, located inside of the diffuser flow passage in the radial direction, and disposed to be opposed to a back surface of the compressor wheel, wherein a gap in the radial direction is formed between a radially inside end of the opposed surface of the bearing housing forming the diffuser flow passage and an outer peripheral edge of the compressor wheel, the seal plate includes a region with a diameter larger than a diameter of the compressor wheel, the region of the seal plate is positioned at a same level as the gap in the radial direction, the region of the seal plate includes an extending portion extending from the region toward the gap along an axis of the turbine shaft, and the extending portion is positioned closer to a compressor housing side than any region of the seal plate opposed to the back surface of the compressor wheel. 2. The turbocharger according to claim 1 , wherein, of the extending portion, a surface opposed to the compressor housing is an inclined surface that comes closer to the compressor housing as the inclined surface extends outward in the radial direction. 3. The turbocharger according to claim 2 , wherein a tapered surface is provided in a region of the bearing housing, the region forming an end portion on an inside in the radial direction of the diffuser flow passage, the tapered surface being inclined in such an orientation that the tapered surface comes closer to a bearing side as the tapered surface extends inward in the radial direction, and the inclined surface extends on an extended line of the tapered surface. 4. The turbocharger according to claim 3 , wherein an end portion on an inside in the radial direction of the inclined surface is located closer to the bearing side than a region of a wall surface of the bearing housing forming the diffuser flow passage, the region being continuous from the tapered surface to an outside in the radial direction. 5. The turbocharger according to claim 2 , wherein a radially outer end of the inclined surface is closer to the compressor housing than the surface of the bearing housing forming the diffuser flow passage.