Shock absorber

The invention claimed is: 1. A shock absorber comprising: a cylinder; a piston slidably inserted in the cylinder, the piston partitioning the inside of the cylinder with an expansion-side chamber and a compression-side chamber; a piston rod movably inserted into the cylinder, the piston rod being coupled to the piston; a damping passage disposed at the piston, the damping passage communicating between the expansion-side chamber and the compression-side chamber; a bypass path that bypasses the damping passage, the bypass path communicating between the expansion-side chamber and the compression-side chamber via an inside of the piston rod; a shutter movably mounted to the piston rod in an axial direction, the shutter opening and closing the bypass path; a biasing member that biases the shutter to a direction of opening the bypass path; and a control spring secured to the cylinder by one end, another end of the control spring being opposed to the shutter, wherein when the piston exceeds a predetermined position with respect to the cylinder by displacing on the compression-side chamber side, the shutter is pushed by the control spring and closes the bypass path, the control spring is a conical coil spring, the other end side of the control spring having a small diameter, and a guide ring, which is slidably in contact with an inner periphery of the cylinder, is mounted to the small-diameter side end of the control spring. 2. The shock absorber according to claim 1 , wherein the guide ring is made of synthetic resin, and the control spring pushes the shutter via the guide ring. 3. The shock absorber according to claim 1 , further comprising an expansion-side damping valve and a compression-side damping valve disposed at the bypass path. 4. The shock absorber according to claim 1 , wherein the guide ring includes: a tubular link portion inserted in the control spring; a guiding portion that outwardly projects from one end of the link portion to be slidably in contact with the inner periphery of the cylinder, the guiding portion being supported to a small-diameter side end of the control spring; and a collision portion that inwardly projects from another end of the link portion, the collision portion being opposed to an end portion of the shutter. 5. The shock absorber according to claim 1 , wherein the shutter has a tubular shape, the shutter including a collar portion at an intermediate portion on an outer periphery, the collar portion projecting outward, and the control spring causes the guide ring to abut against the collar portion to push the shutter. 6. The shock absorber according to claim 1 , further comprising a shutter supporting member in a shape of a cylinder with a closed bottom, the shutter supporting member being disposed at a distal end of the piston rod, wherein an outlet end of the bypass path is disposed at a pipe portion of the shutter supporting member; the shutter is slidably installed to an outer periphery of the shutter supporting member, the shutter opening and closing the outlet end of the bypass path, a sump chamber is disposed between the shutter and the shutter supporting member, a volume of the sump chamber being expanded and contracted by a relative movement between the shutter and the shutter supporting member in an axial direction, and the shutter includes a reduced passage, the reduced passage communicating between the sump chamber and the compression-side chamber. 7. The shock absorber according to claim 6 , wherein the damping passages are an expansion-side piston passage and a compression-side piston passage disposed at the piston, the shock absorber further includes: an expansion-side leaf valve stacked on the piston, the expansion-side leaf valve being mounted to an outer periphery of the piston rod, the expansion-side leaf valve opening and closing an outlet end of the expansion-side piston passage; and a compression-side leaf valve stacked on the piston, the compression-side leaf valve being mounted to the outer periphery of the piston rod, the compression-side leaf valve opening and closing an outlet end of the compression-side piston passage, and the shutter supporting member secures the compression-side leaf valve, the piston, and the expansion-side leaf valve to the piston rod.