Membrane humidifier for fuel cell

What is claimed is: 1. A membrane humidifier for a fuel cell, the membrane humidifier comprising: a humidifier housing; and a bundle of hollow fiber membranes which has both ends potted by potting members and accommodated in the humidifier housing, wherein a bypass flow tube having a plurality of pores is also potted by the potting members in addition to the bundle of hollow fiber membranes, such that a part of dry air from an air blower is bypassed from the outside to the inside of the potting member through the bypass flow tube, and thereafter, the dry air is injected into an internal space of the humidifier housing where the bundle of hollow fiber membranes is present. 2. The membrane humidifier of claim 1 , wherein a hollow fiber membrane having large pores is adopted as the bypass flow tube. 3. The membrane humidifier of claim 1 , wherein plastic tubing, which has a larger diameter than the hollow fiber membrane and has a plurality of pores, is adopted as the bypass flow tube. 4. The membrane humidifier of claim 1 , wherein disconnected hollow fiber membranes are adopted as the bypass flow tube. 5. The membrane humidifier of claim 1 , wherein the bypass flow tube is arranged to be biased to a bottom side of the humidifier housing. 6. The membrane humidifier of claim 1 , wherein the pores are formed over an overall length of the bypass flow tube. 7. A membrane humidifier for a fuel cell, the membrane humidifier comprising: a humidifier housing; and a bundle of hollow fiber membranes which has both ends potted by potting members and accommodated in the humidifier housing, wherein a plurality of bypass flow tubes having a plurality of pores are also potted by the potting members in addition to the bundle of hollow fiber membranes, such that a part of dry air from an air blower is bypassed from the outside to the inside of the potting member through the bypass flow tubes, and thereafter, the dry air is injected into an internal space of the humidifier housing where the bundle of hollow fiber membranes is present. 8. The membrane humidifier of claim 1 , wherein metal tubing, which has a larger diameter than the hollow fiber membrane and has a plurality of pores, is adopted as the bypass flow tube. 9. The membrane humidifier of claim 1 , wherein the pores are formed only in a front end portion of an overall length of the bypass flow tube. 10. The membrane humidifier of claim 1 , wherein the pores are formed only in a rear end portion of an overall length of the bypass flow tube.