Resistance spot welding electrode cap

What is claimed is: 1. An electrode cap for resistance spot welding, which comprises: a cylindrical electrode cap body ( 1 ); a contact surface ( 3 ) with a welding surface ( 31 ), a circumference ( 32 ), and a groove ( 33 ), wherein the groove ( 33 ) is located in the center of the contact surface ( 3 ), a upper edge of the groove ( 33 ) is connected with the welding surface ( 31 ), and the circumference ( 32 ) is the outer diameter of the welding surface ( 31 ); a side surface ( 2 ) which is a transition area from the electrode cap body ( 1 ) to the contact surface ( 3 ), and has a shape of an arc surface or a tapered surface; wherein an upper surface and a lower surface of the side surface ( 2 ) are respectively connected with the contact surface ( 3 ) and one end of the electrode cap body ( 1 ) in the form of arc or chamfer. 2. The electrode cap for resistance spot welding of claim 1 , wherein the shape of the groove ( 33 ) is an arc surface as a whole; or a bottom of the groove ( 33 ) is a flat surface, and a connecting part of the groove ( 33 ) and the welding surface ( 31 ) is transitioned by an arc surface or tapered surface; or the middle of the groove is an arc-shaped boss, and a connecting part of the groove ( 33 ) and the welding surface ( 31 ) is transitioned by an arc surface or tapered surface. 3. The electrode cap for resistance spot welding of claim 1 , wherein the groove ( 33 ) has a depth h of 0.1-2 mm. 4. The electrode cap for resistance spot welding of claim 1 , wherein when the groove ( 33 ) is an arc surface as a whole, a radius of curvature of the arc surface of the groove ( 33 ) is 1-50 mm; and when a bottom of the groove is a flat surface, the flat surface is a circle with a radius of 0.1-10 mm. 5. The electrode cap for resistance spot welding of claim 1 , wherein the welding surface ( 31 ) is a ring-shaped plane, or a ring-shaped spherical surface with a center of the sphere and the electrode cap body on the same side, or a ring-shaped spherical surface with a center of the sphere and the electrode cap body on the opposite side, or an upward convex ring-shaped arc surface. 6. The electrode cap for resistance spot welding of claim 1 , which further comprises a ring-shaped ridge ( 4 ) located on the welding surface ( 31 ) or groove ( 33 ), and a cross-sectional shape of the ring-shaped ridge ( 4 ) is a straight line, a curve or a combination of a straight line and a curve. 7. The electrode cap for resistance spot welding of claim 6 , which further comprises a slot ( 43 ) formed between two adjacent ring-shaped ridges ( 4 ). 8. The electrode cap for resistance spot welding of claim 7 , wherein the convex height H of the ring-shaped ridge ( 4 ) is 20-500 μm. 9. The electrode cap for resistance spot welding of claim 7 , wherein the number of the ring-shaped ridge ( 4 ) is 0-5. 10. The electrode cap for resistance spot welding of claim 7 , wherein the distance between two adjacent ring-shaped ridges ( 4 ) is 50-3000 μm. 11. The electrode cap for resistance spot welding of claim 1 , wherein during resistance spot welding of two-layer metal workpieces, the electrode cap forms a ring-shaped molten pool which grows from outside to inside, thereby forming a nugget. 12. A method of resistance spot welding, which comprises: (a) providing a first aluminum alloy workpiece and a second aluminum alloy workpiece; (b) operating welding gun arms to make a first welding electrode cap and a second welding electrode cap contact with the first aluminum alloy workpiece and the second aluminum alloy workpiece, respectively; and (c) applying pressure and current through the welding gun arm and the first and second electrode caps, so that contacting parts of the first and second workpieces are melted and a spot welding joint is formed, wherein the first welding electrode cap and/or the second welding electrode cap is an electrode cap for resistance spot welding of claim 1 . 13. The method of claim 12 , wherein in step (c), during resistance spot welding of aluminum alloy workpieces, the electrode caps form a ring-shaped molten pool which grows from outside to inside, thereby forming a nugget. 14. An electrode cap for resistance spot welding, which comprises: a cylindrical electrode cap body ( 1 ); a contact surface ( 3 ) with a welding surface ( 31 ), a circumference ( 32 ), and a groove ( 33 ), wherein the groove ( 33 ) is located in the center of the contact surface ( 3 ), a upper edge of the groove ( 33 ) is connected with the welding surface ( 31 ), and the circumference ( 32 ) is the outer diameter of the welding surface ( 31 ); a side surface ( 2 ) which is a transition area from the electrode cap body ( 1 ) to the contact surface ( 3 ), and has a shape of an arc surface or a tapered surface; wherein an upper surface and a lower surface of the side surface ( 2 ) are respectively connected with the contact surface ( 3 ) and one end of the electrode cap body ( 1 ) in the form of arc; which further comprises a ring-shaped ridge ( 4 ) located on the welding surface ( 31 ) or groove ( 33 ), and a cross-sectional shape of the ring-shaped ridge ( 4 ) is a straight line, a curve or a combination of a straight line and a curve. 15. The electrode cap for resistance spot welding of claim 14 , wherein during resistance spot welding of two-layer metal workpieces, the electrode cap forms a ring-shaped molten pool which grows from outside to inside, thereby forming a nugget.