Scroll compressor

What is claimed is: 1. A scroll compressor comprising: a fixed scroll having a spiral lap placed on one surface of a plate; and a movable scroll having a spiral lap placed on one surface of a plate, the lap of the fixed scroll and the lap of the movable scroll being interlocked to form a compression chamber between the lap of the fixed scroll and the lap of the movable scroll which are adjacent to each other, and at least one of the laps of the fixed scroll and the movable scroll having a spiral shape in which a base radius of an outer involute of the lap decreases as a winding angle increases in a region extending from a winding start point of the lap to a winding middle part of the lap, a spiral shape in which the base radius of the outer involute of the lap in a region extending from the winding middle part of the lap to a winding end point of the lap is larger than the smallest value of the base radius of the outer involute of the lap in the region extending from the winding start point of the lap to the winding middle part of the lap, a thickness of the lap continuously decreasing from a point between the winding start point of the lap and an inside edge point of the winding middle part in a radial direction of the lap to a thinnest point of the winding middle part of the lap and continuously increasing from the thinnest point of the winding middle part of the lap to a point between the winding end point of the lap and an outside edge point of the winding middle part in the radial direction of the lap, the winding middle part of the lap being a range of the entire lap excluding a range corresponding to a half lap-turn from the winding start point and a range corresponding to a half lap-turn from the winding end point, the inside edge point being a point positioned a half lap-turn away from an outer involute start point of the lap toward an outer involute end point of the lap, and the outside edge point being a point positioned a half lap-turn away from the outer involute end point of the lap toward the outer involute start point of the lap. 2. The scroll compressor according to claim 1 , wherein the at least one of the laps of the fixed scroll and the movable scroll extends forms a spiral shape in which a winding angle at a compression-chamber-forming point is smaller than a winding angle at an inner involute end point of the lap, the compression-chamber-forming point being a point where an outermost compression chamber is formed, the point being included in the outer involute of the lap, the point being a point where the lap of the movable scroll and the lap of the fixed scroll contact, and the outermost compression chamber being positioned on an outermost part of the plate in a radial direction. 3. The scroll compressor according to claim 1 , wherein a countersunk part is formed on a surface of the plate of the movable scroll, with the surface being on the opposite side of the surface where the lap is placed. 4. The scroll compressor according to claim 1 , wherein a radial direction gap is formed between an inner peripheral surface of the lap of the fixed scroll and an outer peripheral surface of the lap of the movable scroll, and the radial direction gap in a range corresponding to one lap-turn from the winding end point of the lap of the movable scroll is larger than the radial direction gap near the winding start point of the movable scroll. 5. The scroll compressor according to claim 4 , wherein the radial direction gap is δ in a range corresponding to one lap-turn from the winding end point of the lap of the movable scroll, and δ is in a range that satisfies the expression ( L−T−D× 2)≦δ≦( L−T−D× 2+ P+M ), where L is a groove width of the fixed scroll, T is a wall thickness of the movable scroll, D is a turning radius of the movable scroll, P is a pin bearing gap between a boss of the movable scroll and a pin shaft part of a crankshaft connected thereto, and M is a main bearing gap between the crankshaft and a bearing metal supporting the crankshaft. 6. A scroll compressor comprising: a fixed scroll having a spiral lap placed on one surface of a plate; and a movable scroll having a spiral lap placed on one surface of a plate, the lap of the fixed scroll and the lap of the movable scroll being interlocked to form a compression chamber between the lap of the fixed scroll and the lap of the movable scroll which are adjacent to each other, and at least one of the laps of the fixed scroll and the movable scroll having a spiral shape in which a base radius of an outer involute of the lap decreases as a winding angle increases in a region extending from a winding start point of the lap to a winding middle part of the lap, in a region extending from the winding middle part of the lap to a winding end point of the lap, a spiral shape in which a base radius of an inner involute of the lap decreases and a base radius of the outer involute of the lap either increases or stays constant as the winding angle increases or a spiral shape in which the base radius of the inner involute of the lap stays constant and the base radius of the outer involute of the lap either increases or stays constant as the winding angle increases, a thickness of the lap continuously decreasing from a point between the winding start point of the lap and an inside edge point of the winding middle part in a radial direction of the lap to a thinnest point of the winding middle part of the lap and continuously increasing from the thinnest point of the winding middle part of the lap to a point between the winding end point of the lap and an outside edge point of the winding middle part in the radial direction of the lap, the winding middle part of the lap being a range of the entire lap excluding a range corresponding to a half lap-turn from the winding start point and a range corresponding to a half lap-turn from the winding end point, the inside edge point being a point positioned a half lap-turn away from an outer involute start point of the lap toward an outer involute end point of the lap, and the outside edge point being a point positioned a half lap-turn away from the outer involute end point of the lap toward the outer involute start point of the lap. 7. The scroll compressor according to claim 6 , wherein the at least one of the laps of the fixed scroll and the movable scroll extends forms a spiral shape in which a winding angle at a compression-chamber-forming point is smaller than a winding angle at an inner involute end point of the lap, the compression-chamber-forming point being a point where an outermost compression chamber is formed, the point being included in the outer involute of the lap, the point being a point where the lap of the movable scroll and the lap of the fixed scroll contact, and the outermost compression chamber being positioned on an outermost part of the plate in a radial direction. 8. The scroll compressor according to claim 6 , wherein a countersunk part is formed on a surface of the plate of the movable scroll, with the surface being on the opposite side of the surface where the lap is placed. 9. The scroll compressor according to claim 6 , wherein a radial direction gap is formed between an inner peripheral surface of the lap of the fixed scroll and an outer peripheral surface of the lap of the movable scroll, and the radial direction gap in a range corresponding to one lap-turn from the winding end point of the lap of the movable scroll is larger than the radial direction gap near the winding start point of the movable scroll. 10. The scroll compressor according to claim 9 , wherein the radial direction gap is δ in a range corresponding to one lap-turn from t