Hydraulic shock absorber

The invention claimed is: 1. A hydraulic shock absorber comprising: a cylinder; a first support member at a first end portion of the cylinder; a cover member that closes a second end portion of the cylinder; a main piston rod slidably extending through the first support member; a sub piston rod positioned on a same axis as that of the main piston rod, and connected to a first end portion of the main piston rod which is positioned inside the cylinder; a pipe arranged in the cylinder in a state in which the pipe is positioned on the same axis as that of the main piston rod and the sub piston rod, and including a first end portion fixed to the cover member and a second end portion into which a distal end portion of the sub piston rod is inserted; a second support member fixed to the second end portion of the pipe, and including an outer circumferential portion having a diameter larger than a diameter of the pipe, fitted on an inner circumferential surface of the cylinder, and further including an inner circumferential portion which slidably supports the distal end portion of the sub piston rod; a piston slidably fitted in the cylinder in a state in which the piston is fixed between the main piston rod and the sub piston rod, and defining a first oil chamber between the piston and the first support member and a second oil chamber between the piston and the second support member; a free piston slidably fitted between the pipe and the cylinder such that the pipe extends through the free piston, and defining a third oil chamber between the free piston and the second support member and a gas chamber between the free piston and the cover member; a first hydraulic oil passage that communicates the first oil chamber with the second oil chamber; a valve in the first hydraulic oil passage; and a second hydraulic oil passage in the second support member such that hydraulic oil is able to freely pass, and communicates the second oil chamber with the third oil chamber; wherein the first oil chamber, the second oil chamber, and the third oil chamber are filled with the hydraulic oil; the gas chamber is filled with a gas having a pressure which pushes the free piston toward the second support member; a closed space in the pipe; an outer diameter of a sliding portion of the main piston rod differs from an outer diameter of a sliding portion of the sub piston rod; and a total cross-sectional area of the second hydraulic oil passage is not less than a difference between a cross-sectional area of the sliding portion of the main piston rod and a cross-sectional area of the sliding portion of the sub piston rod. 2. The hydraulic shock absorber according to claim 1 , wherein the second hydraulic oil passage is provided in an outer circumferential portion of the second support member, and has a shape which partially widens a gap between the outer circumferential portion of the second support member and the inner circumferential surface of the cylinder. 3. The hydraulic shock absorber according to claim 1 , wherein the outer diameter of the sliding portion of the sub piston rod is larger than the outer diameter of the sliding portion of the main piston rod. 4. The hydraulic shock absorber according to claim 3 , wherein the closed space is connected to a gas supply passage which is able to be switched between a state in which a gas is supplied and a pressure rises, and a state in which the gas is exhausted and the gas supply passage is closed in a low pressure state; and the gas to be supplied to the gas supply passage is a gas having a pressure which cancels a gas reaction force generated by the difference between the cross-sectional area of the sliding portion of the main piston rod and the cross-sectional area of the sliding portion of the sub piston rod, or a pressure higher than the difference. 5. The hydraulic shock absorber according to claim 1 , further comprising: a third hydraulic oil passage in the main piston rod or the sub piston rod, and that communicates the first oil chamber with the second oil chamber; and an adjustable valve that changes a cross-sectional area of the third hydraulic oil passage. 6. The hydraulic shock absorber according to claim 1 , wherein the pipe includes a smaller-diameter portion in which the free piston is slidably fitted, and a larger-diameter portion which has an outer diameter larger than an outer diameter of the smaller-diameter portion and to which the second support member is fixed; and the second support member is fixed such that the second support member is fitted in the larger-diameter portion. 7. The hydraulic shock absorber according to claim 1 , wherein the pipe has a shape having a constant outer diameter from one end to the other end, and the second support member is fixed to the pipe such that the pipe is fitted in the inner circumferential portion. 8. The hydraulic shock absorber according to claim 1 , wherein the free piston has a ring shape including an outer circumferential portion slidably fitted in the cylinder and a hollow portion through which the pipe extends; the outer circumferential portion of the free piston is supported on the cylinder by a bearing adjacent to the third oil chamber in an axial direction of the free piston and an outer circumferential seal spaced apart from the bearing on a side of the gas chamber; and an inner circumferential portion of the free piston is supported on the pipe by an inner circumferential seal positioned between the bearing and the outer circumferential seal in the axial direction.