Bearing guide device of a combustion piston for a variable compression ratio engine

The invention claimed is: 1. A bearing guide device of a combustion piston for a variable compression ratio engine, the device comprising: a synchronized roller comprising a cylindrical body and a pinion, the cylindrical body having an effective diameter that can vary as a result of a radial load when the engine is running, the synchronized roller cooperating with: a synchronization plate forming one piece with the engine block and comprising a first raceway for receiving the cylindrical body and a first rack for receiving the pinion; and a transmission unit forming one piece with the combustion piston and comprising a second raceway for receiving the cylindrical body and a second rack for receiving the pinion; wherein moving the combustion piston from a top dead center to a bottom dead center causes the pinion to move from a first position to a second position in relation to the first and second racks, wherein the first rack and/or the second rack has a different circular pitch from the circular pitch of the pinion so that flanks of teeth of the pinion engage on the flanks of the teeth of the first rack and/or second rack only when the pinion is in the first or second position, thus outside of the first and the second positions there is no forced contact between the flanks of the teeth of the pinion and the flanks of the teeth of the first and/or second racks. 2. The bearing guide device of claim 1 , wherein the effective diameter of the cylindrical body is always smaller or always greater than the pitch diameter of the pinion when the engine is running. 3. The bearing guide device of claim 2 , wherein the effective diameter of the cylindrical body is always smaller than the pitch diameter of the pinion when the engine is running, and the first rack and/or the second rack has a smaller circular pitch than the circular pitch of the pinion. 4. The bearing guide device of claim 3 , wherein the first rack has a smaller circular pitch than the circular pitch of the pinion, the second rack has a circular pitch that is equal to the circular pitch of the pinion, and a gap between two teeth of the second rack is bigger than a thickness of a pinion tooth. 5. The bearing guide device of claim 3 , wherein the first rack and the second rack have a circular pitch that is smaller than the circular pitch of the pinion. 6. The bearing guide device of claim 2 , wherein the effective diameter of the cylindrical body is always larger than the pitch diameter of the pinion when the engine is running, and the first rack and/or the second rack has a bigger circular pitch than the circular pitch of the pinion. 7. The bearing guide device of claim 6 , wherein the second rack has a bigger circular pitch than the circular pitch of the pinion, wherein the first rack has a circular pitch that is equal to the circular pitch of the pinion, and wherein a width of the gullet of the teeth of the first rack is bigger than a thickness of a tooth. 8. The bearing guide device of claim 6 , wherein the first rack and the second rack have a circular pitch that is bigger than the circular pitch of the pinion. 9. The bearing guide device of claim 1 , wherein the cylindrical body has a curved profile. 10. The bearing guide device of claim 1 , wherein the effective diameter of the cylindrical body is always smaller than the pitch diameter of the pinion when the engine is running, and the first rack and/or the second rack has a smaller circular pitch than the circular pitch of the pinion. 11. The bearing guide device of claim 1 , wherein the effective diameter of the cylindrical body is always larger than the pitch diameter of the pinion when the engine is running and wherein the first rack and/or the second rack has a bigger circular pitch than the circular pitch of the pinion.