Cryogenic refrigerator with scotch yoke driving unit

What is claimed is: 1. A cryogenic refrigerator comprising: a cylinder; a displacer that is mounted within the cylinder; a spool valve that is connected to a compressor and performs switching between an intake mode where a high-pressure refrigerant gas is supplied from the compressor to the cylinder and an exhaust mode where a low-pressure refrigerant gas within the cylinder is made to flow back to the compressor; and a drive unit configured to move the spool valve, the drive unit including a scotch yoke frame comprising a sliding groove formed therein and a crank pin configured to engage with the sliding groove through a roller bearing, wherein the sliding groove includes a horizontal groove and an inclination groove which are connected to each other at a predetermined position, the inclination groove extends obliquely downward from the predetermined position, wherein the horizontal groove extends in a direction orthogonal to an axial direction, the predetermined position is a center of the sliding groove in the direction orthogonal to the axial direction, wherein the spool valve has a valve body and a drive rod that extends in the axial direction, the drive rod moves relative to the valve body, wherein the drive unit is configured to move the spool valve in a manner such that a speed of the drive rod when the drive rod moves from a top dead center to a bottom dead center is different from a speed of the drive rod when the drive rod moves from the bottom dead center to the top dead center, at a same displacement position, and wherein the displacer is connected to a lower end portion of the drive rod and the scotch yoke frame is connected to an upper end portion of the drive rod. 2. The cryogenic refrigerator according to claim 1 , wherein the drive unit drives the displacer so that, at the same displacement position in the vicinity of the bottom dead center, the magnitude of a speed when the drive rod moves to the bottom dead center is larger compared to the magnitude of a speed when the drive rod moves away from the bottom dead center. 3. The cryogenic refrigerator according to claim 1 , wherein the drive unit drives the displacer so that, at the same displacement position in the vicinity of the top dead center, the magnitude of a speed when the drive rod moves to the top dead center is larger compared to the magnitude of a speed when the drive rod moves away from the top dead center. 4. The cryogenic refrigerator according to claim 1 , wherein the drive rod includes an upper circulation hole that is formed so as to pass through the drive rod in a direction orthogonal to the axial direction of the drive rod, a lower circulation hole that is arranged so as to be spaced apart from the upper circulation hole in the axial direction and is formed so as to pass through the drive rod in a radial direction orthogonal to the axial direction, and a communication channel that is formed within the drive rod and communicates the upper circulation hole with the lower circulation hole, wherein the lower circulation hole opens to a room-temperature chamber formed between the cylinder and the displacer. 5. The cryogenic refrigerator according to claim 1 , wherein the horizontal groove is formed by flat upper and lower surfaces, and the inclination groove is formed by flat upper and lower surfaces.