Oil separator unit

What is claimed is: 1. An oil separator unit configured to separate an oil mist contained in a blowby gas generated in an internal combustion engine, comprising: an upstream member disposed on an upstream side in a flow direction of the blowby gas and having an opening through which the blowby gas passes; a downstream member disposed on a downstream side in the flow direction of the blowby gas and having a hit portion hit by the blowby gas; and a porous member including a first surface facing the upstream member and a second surface facing the downstream member and formed in a substantially rectangular shape with a predetermined thickness so as to trap the oil mist contained in the blowby gas that has passed through the opening, wherein the upstream member includes an upstream surface facing the first surface and a spacer projected from the upstream surface and provided in contact with the first surface to support the first surface, the downstream member includes a downstream surface facing the second surface and a rib projected from the downstream surface and provided in contact with the second surface to support the second surface, the spacer is extended along a first direction and the rib is extended along a second direction substantially perpendicular to the first direction, the spacer includes a support surface configured to support the first surface of the porous member and a projecting portion projected from the support surface of the spacer, and the rib includes a support surface configured to support the second surface of the porous member and a projecting portion projected from the support surface of the rib. 2. The oil separator unit according to claim 1 , wherein the rib has a substantially rectangular cross-sectional shape, and the second direction corresponds to a gravity direction. 3. The oil separator unit according to claim 2 , wherein the rib is provided extending from an upper end to a lower end of the porous member. 4. The oil separator unit according to claim 1 , wherein the upstream member includes a plurality of the spacers extended along the first direction in parallel with each other and formed in substantially plate shapes, and the downstream member includes a plurality of the ribs extended along the second direction in parallel with each other. 5. The oil separator unit according to claim 4 , wherein the opening is configured to elongate along the second direction, the plurality of the spacers include first side spacers and second side spacers, disposed apart from each other at both sides of the opening in the first direction, and the plurality of the ribs include a first rib, a second rib and a third rib provided to correspond to respective positions of the first side spacers, the opening and the second side spacers. 6. The oil separator unit according to claim 1 , wherein the upstream member includes a recess at an outside of the spacer in a width direction of the upstream member on the upstream surface, and the downstream member includes a flange fitted in the recess, and a connecting part extending along the flow direction of the blowby gas that has passed through the opening and having a first end connected to the flange and a second end connected to the downstream surface. 7. The oil separator unit according to claim 1 , wherein the upstream member includes a thick portion in a periphery of the opening so as to increase a thickness of the opening along the flow direction of the blowby gas. 8. The oil separator unit according to claim 1 , wherein the projecting portion of the spacer and the projecting portion of the rib are formed so that a position of the projecting portion of the spacer and a position of the projecting portion of the rib match with each other in the first direction and in the second direction.