Variable length connecting rod and variable compression ratio internal combustion engine

The invention claimed is: 1. A variable length connecting rod which can be changed in effective length, comprising: a connecting rod body having, at a big end, a crank pin receiving opening which receives a crank pin; an eccentric member attached to said connecting rod body at a small end at an opposite side to said big end so as to be able to swivel in a circumferential direction of said small end, the eccentric member changing the effective length of said variable length connecting rod if swiveled; a piston mechanism having one hydraulic cylinder provided in said connecting rod body and one hydraulic piston slidable in said hydraulic cylinder, the piston mechanism configured so that if said hydraulic cylinder is supplied with hydraulic fluid, said eccentric member swivels in one direction while if said hydraulic cylinder discharges hydraulic fluid, said eccentric member swivels in the other direction; a hydraulic fluid supply source supplying a hydraulic fluid to said hydraulic cylinder; and a flow direction switching mechanism which can switch the flow of hydraulic fluid between a first state which permits the supply of hydraulic fluid from said hydraulic fluid supply source to said hydraulic cylinder, but prohibits the discharge of hydraulic fluid from said hydraulic cylinder and a second state which prohibits the supply of hydraulic fluid to said hydraulic cylinder, but permits the discharge of hydraulic fluid from said hydraulic cylinder, wherein said variable length connecting rod comprises just one said piston mechanism for swiveling said eccentric member, and wherein said flow direction switching mechanism is arranged between said hydraulic cylinder and said crank pin receiving opening in an axial direction of said connecting rod body. 2. The variable length connecting rod according to claim 1 , wherein said flow direction switching mechanism can switch between said first state and said second state by hydraulic pressure, and is configured to become said second state where the effective length of said variable length connecting rod becomes shorter when hydraulic pressure is not supplied and to become said first state where the effective length of said variable length connecting rod becomes longer when hydraulic pressure is supplied. 3. The variable length connecting rod according to claim 1 , wherein said eccentric member comprises a piston pin receiving opening which receives a piston pin and is configured so that the axis of said piston pin receiving opening is offset from the swivel axis of said eccentric member, and wherein an open end of said hydraulic cylinder is arranged at a side where said piston pin receiving opening is offset from an axis of said variable length connecting rod. 4. The variable length connecting rod according to claim 1 , wherein said flow direction switching mechanism comprises a switching pin which is provided in said connecting rod body and which operates by hydraulic pressure supplied from the outside, and said switching pin is configured so that by operation of said switching pin, said flow direction switching mechanism is switched between said first state and said second state and is arranged in said connecting rod body so that the operating direction becomes parallel to the axis of said crank pin receiving opening. 5. The variable length connecting rod according to claim 1 , wherein the connecting rod further comprises an exhaust fluid path for discharging hydraulic fluid to the outside of said connecting rod body, said flow direction switching mechanism comprises a single check valve which permits flow from a primary side to a secondary side and prohibits flow from a secondary side to a primary side and two switching pins, and said two switching pins are configured so that when said flow direction switching mechanism is in a first state, the primary side of said check valve is communicated with said hydraulic fluid supply source and the secondary side of said check valve is communicated with said hydraulic cylinder, and when the flow direction switching mechanism is in a second state, the primary side of said check valve is communicated with said hydraulic cylinder and the secondary side of said check valve is communicated with said exhaust fluid path. 6. The variable length connecting rod according to claim 5 , wherein said two switching pins are provided at the two sides from a center axis of said connecting rod body and said check valve is provided on a center axis of said connecting rod body. 7. The variable length connecting rod according to claim 1 , further comprising a stopping device which can use hydraulic pressure to make said eccentric member stop at an intermediate position between a first position at which it is swiveled the most to one side and a second position at which it is swiveled the most to the opposite side from said one side. 8. The variable length connecting rod according to claim 7 , wherein said eccentric member comprises a first arm and a second arm which extends in an opposite direction to said first arm, and the hydraulic piston of said piston mechanism is connected to said first arm, and said stopping device comprises a stopping member which can project out from said connecting rod body in the direction in which said second arm extends, and is configured so that when stopping member projects out from said connecting rod body, said stopping member abuts against said eccentric member whereby said eccentric member can be stopped at said intermediate position. 9. The variable length connecting rod according to claim 8 , wherein said flow direction switching mechanism can be switched between said first state and said second state by hydraulic pressure supplied from a hydraulic pressure supply source, and said stopping device is switched between a state where said stopping member projects out and a state where it does not project out by hydraulic pressure supplied from said hydraulic pressure supply source, and a switching hydraulic pressure in said flow direction switching mechanism and a switching hydraulic pressure in said stopping device are different values. 10. The variable length connecting rod according to claim 1 , wherein said eccentric member comprises a first arm and a second arm which extends in an opposite direction to said first arm, and the hydraulic piston of said piston mechanism is connected to said first arm, and said second arm is bent, at the end at the opposite side to said first arm side, toward the big end of said connecting rod body. 11. A variable compression ratio internal combustion engine which can change a mechanical compression ratio, having a variable length connecting rod according to claim 1 , wherein mechanical compression ratio is changed by changing the effective length of said variable length connecting rod.