Axial air-gap motor stator and fan having the same

What is claimed is: 1. An axial air-gap motor stator, comprising a plurality of metal substrates stacked together, each metal substrate having a port, a plurality of pole teeth being disposed around the port, the two adjacent pole teeth on each metal substrate being disposed with a magnetic pole and wherein the number of the pole teeth of each metal substrate is a natural number twice the number of the magnetic poles of each metal substrate; wherein the magnetic poles of the metal substrates are arranged in a staggered manner. 2. The axial air-gap motor stator according to claim 1 , wherein each pole tooth extends to form a pin for connecting with an inner edge of the port of each metal substrate, as a single unit. 3. The axial air-gap motor stator according to claim 2 , wherein each magnetic pole comprises a magnetic circuit and a winding wound around the magnetic circuit. 4. The axial air-gap motor stator according to claim 3 , wherein each magnetic circuit bridges the two pins of the two adjacent pole teeth, and the corresponding pins of the pole teeth are arranged in a staggered manner. 5. The axial air-gap motor stator according to claim 1 , wherein the number of the pole teeth of each metal substrate is a product of the number of the metal substrates multiplying the number of magnetic poles of each metal substrate. 6. A fan of an axial air-gap motor stator, comprising: a bottom plate with a pivot disposed thereon; a plurality of metal substrates stacked together and stacked with the bottom plate, each metal substrate having a port, a plurality of pole teeth being disposed around the port, the adjacent two pole teeth on each metal substrate being disposed with a magnetic pole and wherein the number of the pole teeth of each metal substrate is a natural number twice the number of the magnetic poles of each metal substrate; and a fan blade pivoted on the pivot; wherein the magnetic poles of the metal substrates are arranged in a staggered manner. 7. The fan of the axial air-gap motor stator according to claim 6 , wherein the bottom plate is stacked on the metal substrates by covering them or by injection molding. 8. The fan of the axial air-gap motor stator according to claim 6 , wherein an air shielding plate is covered on the bottom plate and the air shielding plate has a fan blade hole corresponding to the fan blade. 9. The fan of the axial air-gap motor stator according to claim 6 , wherein a surface of the bottom plate for the pivot to be disposed on forms an air passage area which is recessed, and the fan blade is accommodated in the air passage area. 10. The fan of the axial air-gap motor stator according to claim 9 , wherein the number of the pole teeth of each metal substrate is a product of the number of the metal substrates multiplying the number of magnetic poles of each metal substrate. 11. The fan of the axial air-gap motor stator according to claim 6 , wherein one side of the bottom plate forms an air vent connecting with the air passage area. 12. The fan of the axial air-gap motor stator according to claim 11 , wherein each pole tooth extends to form a pin for connecting with an inner edge of the port of each metal substrate, as a single unit. 13. The fan of the axial air-gap motor stator according to claim 12 , wherein each magnetic pole comprises a magnetic circuit and a winding wound around the magnetic circuit. 14. The fan of the axial air-gap motor stator according to claim 13 , wherein each magnetic circuit bridges the two pins of the two adjacent pole teeth, and the corresponding pins of the pole teeth are arranged in a staggered manner. 15. The fan of the axial air-gap motor stator according to claim 6 , wherein the number of the pole teeth of each metal substrate is a product of the number of the metal substrates multiplying the number of magnetic poles of each metal substrate.