Variable compression ratio apparatus

What is claimed is: 1. A variable compression ratio apparatus, comprising: a piston pin connecting a piston and a small end portion of a connecting rod; a small diameter eccentric cam disposed at an outer circumference surface of the piston pin in an eccentric state with a center axis of the piston pin; a large diameter eccentric cam disposed between an outer circumference surface of the small diameter eccentric cam and an inner circumference surface of the small end portion of the connecting rod in an eccentric state with the center axis of the piston pin; a first plunger movably disposed in a first plunger space formed at a side inside the piston pin so as to control a rotational position of the small diameter eccentric cam by controlling oil supplied to first and second chambers formed between the outer circumference surface of the small diameter eccentric cam and an inner circumference surface of the large diameter eccentric cam according to a control position; a second plunger movably disposed in a second plunger space formed at an other side inside the piston pin so as to control a rotational position of the large diameter eccentric cam by controlling oil supplied to third and fourth chambers formed between an outer circumference surface of the large diameter eccentric cam and the inner circumference surface of the small end portion according to a control position; and first and second oil injection nozzles disposed at a side and an other side of a lower portion of the piston, respectively, and configured to control the control position of the first and second plungers by supplying hydraulic pressure to an end portion of the first plunger and an other portion of the second plunger through first and second guide passages formed inside the piston by injecting oil to the lower portion of the piston. 2. The variable compression ratio apparatus of claim 1 , wherein a first pocket is formed at a lower side of the piston, and a first guide passage is formed inside the piston so as to deliver oil from the first pocket to the end portion of the first plunger, and wherein a second pocket is formed at an other lower side of the piston, and a second guide passage is formed inside the piston so as to deliver oil from the second pocket to an other end of the second plunger. 3. The variable compression ratio apparatus of claim 2 , wherein the first and second oil-jet injection nozzles control positions of the first and second plungers by injecting oil to the first and second pockets and delivering oil to the end portion of the first plunger and the other portion of the second plunger through the first guide passage and the second guide passage. 4. The variable compression ratio apparatus of claim 2 , wherein a groove that is divided into the first chamber and the second chamber by a first protrusion protruded from a side of an outer circumference surface of the small diameter eccentric cam is formed on the inner circumference surface of the large diameter eccentric cam, and wherein a groove that is divided into the third chamber and the fourth chamber by a second protrusion protruded from a side of an outer circumference surface of the large diameter eccentric cam is formed on the inner circumference surface of the small end portion of the connecting rod. 5. The variable compression ratio apparatus of claim 2 , wherein the first and second plungers are respectively disposed at a side and other side of inside of a valve body that penetrates a center portion of the piston pin in a length direction. 6. The variable compression ratio apparatus of claim 5 , further comprising: a first return spring disposed inside the valve body so as to elastically support the first plunger in a side; and a second return spring disposed inside the valve body so as to elastically support the second plunger in other side. 7. The variable compression ratio apparatus of claim 6 , wherein a first check space is formed at an end portion of inside of the first plunger, and a second check space is formed at an other end portion of inside of the first plunger, wherein a first check space connection passage is formed inside the first plunger to connect the first check space with the second check space, wherein a portion on which the first check space and the second check space are formed on an outer circumference surface of the first plunger contacts an inner circumference of the first plunger space, wherein a first small diameter portion is formed at a center portion where the first check space connection passage is formed in a predetermined gap with the first plunger space, wherein in the first check space connection passage, a first open passage passing through an outer circumference surface is formed, wherein in the first plunger, a first check passage that goes through outside is formed, and in the second check space, a second check passage that goes through outside is formed, wherein in the valve body, a first supply passage connected to the first small diameter portion at all times and supplied with hydraulic pressure from the connecting rod is formed, wherein a second chamber connection passage is formed, that is connected to the second check passage and connected to the second chamber through a side from an inner circumference surface to an outer circumference surface of the valve body, in a state that the first plunger is moved to a side by the first return spring, and wherein a first chamber connection passage is formed, that is connected to the first check passage and connected to the first chamber through a side from the inner circumference surface to the outer circumference surface of the valve body, in a state that the first plunger is moved to other side by the first oil-jet injection nozzle. 8. The variable compression ratio apparatus of claim 7 , further comprising: a first check valve disposed in the first check space, inhibiting hydraulic pressure being transferred to the first check space connection passage from the first check space; and a second check valve disposed in the second check space, inhibiting hydraulic pressure being transferred to the second check space connection passage from the second check space. 9. The variable compression ratio apparatus of claim 8 , wherein the first and second check valves include a ball disposed in an oil passage, and a check spring for elastically supporting the ball. 10. The variable compression ratio apparatus of claim 6 , wherein a third check space is formed at an end portion of inside of the second plunger, and a fourth check space is formed at an other end portion of inside of the second plunger, wherein a second check space connection passage is formed inside the second plunger to connect the third check space with the fourth check space, wherein a portion on which the third check space and the fourth check space are formed on an outer circumference surface of the second plunger contacts an inner circumference of the second plunger space, wherein a second small diameter portion is formed at a center portion where the second check space connection passage is formed in a predetermined gap with the second plunger space, wherein in the second check space connection passage, a second open passage passing through an outer circumference surface is formed, wherein in the second plunger, a third check passage that goes through outside is formed, and in the fourth check space, a fourth check passage that goes through outside is formed, wherein in the valve body, a second supply passage connected to the second small diameter portion at all times and supplied with hydraulic pressure from the connecting rod is formed, wherein a fourth chamber connection passage