Oil separator

The invention claimed is: 1. An oil separator comprising: a distribution chamber distributing blowby gas; an introducing hole introducing the blowby gas into the distribution chamber; at least one set of cyclone oil separator units disposed in symmetry relative to at least one plane having an axis extending through an axis of the introducing hole of axes of flowing directions of the blowby gas entering the distribution chamber through the introducing hole; distribution channels causing the blowby gas to flow from the distribution chamber to the respective oil separator units; a first lid portion surrounding and covering therein the oil separator units, the distribution chamber, the introducing hole and the distribution channels; and a second lid portion surrounding and covering therein the first lid portion; the first lid portion and the second lid portion together forming at least a portion of a lateral face portion as a double-layered structure; wherein a space into which the oil from the oil separator units is discharged is formed on the inner side of the double-layered structure; and wherein a closed space is formed between the first lid portion and an extending portion extending from cylindrical portions of the at least one set of oil separator units. 2. The oil separator according to claim 1 , wherein at least one of a channel cross section area or a channel length of the distribution channel is same for all the respective distribution channels. 3. The oil separator according to claim 1 , wherein at least one of a flow rate and a velocity of the blowby gas flowing in the each distribution channel is same. 4. The oil separator according to claim 1 , wherein: the oil separator further comprises a gas discharging hole discharging blowby gas exiting the oil separator units to the outside; and the gas discharging hole and the gas introducing hole are disposed on a same axis. 5. The oil separator according to claim 1 , wherein a wall face of the distribution chamber present in the flowing direction of blowby gas introduced through the introducing hole to the distribution chamber includes a guide configured to guide the blowby gas to the respective distribution channel. 6. The oil separator according to claim 1 , wherein the portion formed as the double-layered structure comprises a sealed space. 7. An oil separator comprising at least one set of cyclone oil separator units effecting gas-liquid separation of blowby gas; a distribution chamber distributing blowby gas to be introduced to the oil separator units; an introducing hole introducing the blowby gas into the distribution chamber; distribution channels causing the blowby gas to flow from the distribution chamber to the respective oil separator units; a first lid portion surrounding and covering therein the oil separator units, the distribution chamber, the introducing hole and the distribution channels, and a second lid portion surrounding and covering therein the first lid portion; the first lid portion and the second lid portion together forming at least a portion of a lateral face portion as a double-layered structure; wherein a space into which the oil from the oil separator units is discharged is formed on the inner side of the double-layered structure; and wherein a closed space is formed between the first lid portion and an extending portion extending from cylindrical portions of the at least one set of oil separator units. 8. The oil separator according to claim 7 , wherein the portion formed as the double-layered structure comprises a sealed space.