Belt-type continuously variable transmission for working machine

What is claimed is: 1. A belt-type continuously variable transmission for a working machine that is capable of continuously changing a speed reduction ratio of a driven pulley to a drive pulley, in which the driven pulley includes a fixed sheave, a movable sheave displaceable in an axial direction with respect to the fixed sheave, a coil spring that urges the movable sheave toward the fixed sheave, and a torque cam mechanism that converts a part of a rotational force that acts on the movable sheave into a thrust that presses a side surface of a V-belt, comprising: a speed reduction ratio regulation mechanism that regulates a minimum speed reduction ratio of a rotational speed of the driven pulley to the drive pulley, wherein the speed reduction ratio regulation mechanism has a swing arm that adjusts an allowable range in which moving away in the axial direction of the movable sheave with respect to the fixed sheave is possible, and a regulation drive section that drives a swing distal end portion of the swing arm to swing continuously, the swing arm extends in a direction to intersect a rotation center line of the driven pulley, a swing base end portion of the swing arm is supported by a bracket to be swingable in a direction along the rotation center line of the driven pulley, a region between the swing base end portion and the swing distal end portion in the swing arm is configured to be a pair of swing intermediate portions, and the pair of swing intermediate portions are located by being separated at both sides radially outward of the coil spring so as to sandwich the coil spring from both sides in a radial direction, and are portions that adjust the allowable range in which moving away in the axial direction of the movable sheave with respect to the fixed sheave is possible. 2. The belt-type continuously variable transmission for a working machine according to claim 1 , wherein the swing arm is located at an opposite side from the fixed sheave with respect to the movable sheave. 3. The belt-type continuously variable transmission for a working machine according to claim 1 , wherein the regulation drive section includes an electric motor, a worm gear mechanism in which a worm is driven by the electric motor, and a drive force output portion that is driven by a worm wheel of the worm gear mechanism, and the swing distal end portion is connected to the drive force output portion by a connecting rod. 4. The belt-type continuously variable transmission for a working machine according to claim 1 , further comprising: a swing angle detection sensor that detects a swing angle of the swing arm, wherein the swing angle detection sensor is connected to the swing distal end portion in the swing arm or a vicinity of the swing distal end portion, by a link mechanism. 5. The belt-type continuously variable transmission for a working machine according to claim 1 , further comprising: a roller bearing, in a side portion that faces the pair of swing intermediate portions in the movable sheave, wherein an inner ring of the roller bearing is located concentrically with the rotation center line of the driven pulley, and is provided in the movable sheave, an outer ring of the roller bearing is covered with an annular cover rotatable with the outer ring, either one of a side surface of the cover and side surfaces of the pair of swing intermediate portions, which face each other, has a protruded portion that is protruded toward the other one, and the protruded portion is located to be able to press a side surface of the outer ring of the roller bearing via the cover when the pair of swing intermediate portions are displaced. 6. The belt-type continuously variable transmission for a working machine according to claim 1 , which is provided in a working power transmission system from a drive source to a working unit of the working machine. 7. A belt-type continuously variable transmission for a working machine that is capable of continuously changing a speed reduction ratio of a driven pulley to a drive pulley, in which the driven pulley includes a fixed sheave, a movable sheave displaceable in an axial direction with respect to the fixed sheave, a coil spring that urges the movable sheave toward the fixed sheave, and a torque cam mechanism that converts a part of a rotational force that acts on the movable sheave into a thrust that presses a side surface of a V-belt, comprising: a speed reduction ratio regulation mechanism that regulates a minimum speed reduction ratio of a rotational speed of the driven pulley to the drive pulley, wherein the speed reduction ratio regulation mechanism has a swing arm that adjusts an allowable range in which moving away in the axial direction of the movable sheave with respect to the fixed sheave is possible, and a regulation drive section that drives a swing distal end portion of the swing arm to swing continuously, the swing arm extends in a direction to intersect a rotation center line of the driven pulley, a swing base end portion of the swing arm is supported by a bracket to be swingable in a direction along the rotation center line of the driven pulley, a region between the swing base end portion and the swing distal end portion in the swing arm is configured to be a pair of swing intermediate portions, and the pair of swing intermediate portions are located by being separated at both sides radially outward of the coil spring, and are portions that adjust the allowable range in which moving away in the axial direction of the movable sheave with respect to the fixed sheave is possible, a swing angle detection sensor that detects a swing angle of the swing arm, wherein the swing angle detection sensor is connected to the swing distal end portion in the swing arm or a vicinity of the swing distal end portion, by a link mechanism including a first link bar and a second link, the first link pivotally connected to the swing distal end portion of the swing arm and the second link bar, the second link connected to the swing angle detection sensor. 8. The belt-type continuously variable transmission for a working machine according to claim 7 , wherein the regulation drive section includes an electric motor, a worm gear mechanism in which a worm is driven by the electric motor, and a drive force output portion that is driven by a worm wheel of the worm gear mechanism, and the swing distal end portion is connected to the drive force output portion by a connecting rod. 9. The belt-type continuously variable transmission for a working machine according to claim 7 , further comprising: a roller bearing, in a side portion that faces the pair of swing intermediate portions in the movable sheave, wherein an inner ring of the roller bearing is located concentrically with the rotation center line of the driven pulley, and is provided in the movable sheave, an outer ring of the roller bearing is covered with an annular cover rotatable with the outer ring, either one of a side surface of the cover and side surfaces of the pair of swing intermediate portions, which face each other, has a protruded portion that is protruded toward the other one, and the protruded portion is located to be able to press a side surface of the outer ring of the roller bearing via the cover when the pair of swing intermediate portions are displaced. 10. A belt-type continuously variable transmission for a working machine that is capable of continuously changing a speed reduction ratio of a driven pulley to a drive pulley, in which the driven pulley includes a fixed sheave, a movable sheave displaceable in an axial direction with respect to the fixed sheave, a coil spring that urges the movable sheave to