Air intake manifold

The invention claimed is: 1. A resin-made intake manifold having an intercooler receiving portion for receiving therein an intercooler, wherein: the intercooler receiving portion is formed in a rectangular parallelopiped shape extending along a cylinder line direction of an engine and has an opening exposed to an outside of the intake manifold, one end part of the intercooler receiving portion being placed in the vicinity of an air inlet opening formed in the intake manifold, wall portions defining the intercooler receiving portion are placed at the one end part and another end part of the intercooler receiving portion in the cylinder line direction, and the wall portions are formed, on inner surfaces thereof, with ribs that project toward an inside of the intercooler receiving portion, the ribs being structured to avoid contact of the inner surfaces with the intercooler, wherein a clearance is formed between the intercooler and leading ends of the ribs to avoid contact between the intercooler and the leading ends of the ribs. 2. The resin-made intake manifold as claimed in claim 1 , in which the opening of the intercooler receiving portion is closed by the intercooler that is received in the intercooler receiving portion. 3. The resin-made intake manifold as claimed in claim 1 , wherein: the intake manifold is of a type including a collector portion and a branched passage portion having a plurality of branch passages through which intake air in the collector portion is distributed to cylinders of the engine, and the intercooler receiving portion is formed in the collector portion. 4. The resin-made intake manifold as claimed in claim 1 , wherein: the wall portions include a wall portion placed at the another end part in the cylinder line direction, the wall portion having, on an inner surface of the wall portion, more ribs than another wall portion placed at the one end part of the intercooler receiving portion. 5. The resin-made intake manifold as claimed in claim 1 , in which the intercooler is fixed to a portion of the intercooler receiving portion. 6. The resin-made intake manifold as claimed in claim 1 , in which the clearance is set to avoid contact between the intercooler and leading ends of the ribs even when the resin-made intake manifold exhibits deformation due to thermal contraction. 7. The resin-made intake manifold as claimed in claim 1 , wherein the intercooler and the ribs are out of contact with each other in a longitudinal section of the intercooler, the longitudinal section passing through the ribs.