Motor with heat dissipation structure

I claim: 1. In a motor including a housing, a cover, a rotating shaft, and a cooling fan, wherein the housing has a surrounding wall defining therein an inner space with a front opening and has a rear closure wall opposite to the front opening, the rear closure wall defining a central hole and a plurality of outlet holes; the cover, which closes the front opening of the housing, has a central hub defining a central hole and has a peripheral portion integrally formed around the central hub; the rotating shaft is mounted across the inner space of the housing, the rotating shaft having a first end which is inserted through the central hole of the rear closure wall and having a second end which is inserted through the central hole of the central hub of the cover; the cooling fan is fixed to the second end of the rotating shaft, so that the cooling fan is rotated together with the rotating shaft; wherein the improvement comprises: the peripheral portion of the cover is provided with an air collecting ring around the central hub and defines a plurality of first inlet holes between the air collecting ring and the central hub, whereby a central portion of a whirling, ongoing air current generated by the cooling fan can flow through the space between the air collecting ring and the central hub of the cover and then flow through the first inlet holes of the cover to enter the inner space of the housing and finally flow out of the housing via the outlet holes for dissipating the heat generated in the housing, wherein the surrounding wall of the housing defines a plurality of second inlet holes; the cover is provided at an outer rim of its peripheral portion with a plurality of wind-catching projections, each of which is formed as a bulging layer having a roof and two slant walls at two opposite sides of the roof, the two slant walls formed integrally with the peripheral portion of the cover, thus defining an air guiding channel between the roof, the two slant walls, and the peripheral portion of the cover, the cover being installed to the housing such that each of the wind-catching projections is located above one of the second inlet holes and each of the air guiding channels faces towards the cooling fan; whereby an outer portion of the air current generated by the cooling fan can flow through the air guiding channels and the second inlet holes to enter the inner space of the housing for dissipating the heat generated in the housing. 2. The motor of claim 1 , wherein a recess is defined between two adjacent ones of the wind-catching projections, so that some of the outer portion of the air current generated by the cooling fan, which does not enter the housing, may flow along the outer surface of the surrounding wall of the housing to cool down the housing.