Kickstand for protective case

What is claimed is: 1. A kickstand ( 10 ) for a protective case, comprising: a standing leg ( 20 ); a base ( 30 ), having a first surface ( 31 ) and a second surface ( 32 ), wherein the standing leg ( 20 ) is pivoted on the base ( 20 ); an adhesive provided on the second surface of the base for attaching the kickstand to a protective case; and a spring mechanism ( 40 ) to bias the standing leg ( 20 ) toward an open position of the standing leg ( 20 ), wherein the standing leg ( 20 ) and the base ( 30 ) are constructed to be magnetically attractable to each other, wherein in a closed position of the standing leg ( 20 ), a magnetic force between the standing leg ( 20 ) and the base ( 30 ) is stronger than a tensile force of the spring mechanism ( 40 ) to maintain the closed position of the standing leg ( 20 ), and wherein in the open position of the standing leg ( 20 ), the tensile force of the spring mechanism ( 40 ) is stronger than the magnetic force between the standing leg ( 20 ) and the base ( 30 ) to maintain the open position of the standing leg ( 20 ), wherein the spring mechanism ( 40 ) includes a helical spring ( 41 ) and a shaft ( 42 ) wherein the shaft ( 42 ) passes through the helical spring ( 41 ), wherein the base ( 30 ) comprises a hole ( 37 ) for partially receiving the helical spring ( 41 ) therein. 2. The kickstand of claim 1 , wherein the standing leg ( 20 ) comprises a first cylinder ( 21 ) and a second cylinder ( 22 ) wherein the shaft ( 42 ) passes through the first and second cylinders ( 21 ), ( 22 ) and the first and second cylinders ( 21 ), ( 22 ) are on both sides of the helical spring ( 41 ), wherein the hole ( 37 ) partially receives the first and second cylinders ( 21 ), ( 22 ) therein. 3. The kickstand of claim 2 , wherein the standing leg ( 20 ) further comprises a first stopper ( 23 ) and a second stopper ( 24 ) respectively formed on outer sides or the first and second cylinders ( 21 ), ( 22 ), wherein the base ( 30 ) comprises a first opening ( 35 ) and a second opening ( 36 ) to receive both ends of the shaft ( 42 ), wherein the base ( 30 ) further comprises a third stopper ( 33 ) and a fourth stopper ( 34 ) provided on opposite sides of the hole ( 37 ) of the base ( 30 ), wherein in the open position of the standing leg ( 20 ), the first stopper ( 23 ) is in contact with the third stopper ( 33 ) and the second stopper ( 24 ) is in contact with the fourth stopper ( 34 ) for preventing the standing leg ( 20 ) from rotating beyond a predetermined angle. 4. The kickstand of claim 3 , wherein the third stopper ( 33 ) forms a lower boundary of the first opening ( 35 ) and the fourth stopper ( 34 ) forms a lower boundary of the second opening ( 36 ). 5. The kickstand of claim 1 , wherein the standing leg ( 20 ) has a magnet ( 29 ) and the base ( 30 ) has a ferromagnetic member ( 39 ) so that the standing leg ( 20 ) and the base ( 30 ) are constructed to be magnetically attractable to each other. 6. The kickstand of claim 1 , wherein the base ( 30 ) has a magnet ( 39 ) and the standing leg ( 20 ) has a ferromagnetic member ( 29 ) so that the standing leg ( 20 ) and the base ( 30 ) are constructed to be magnetically attractable to each other. 7. The kickstand of claim 1 , wherein the base ( 30 ) has a recess or a substantially enclosed rib which is formed on the second surface ( 32 ) to receive the adhesive therein. 8. The kickstand of claim 1 , wherein the adhesive is a double-sided tape. 9. The kickstand of claim 8 , wherein one side of the double-sided tape is attached to the second surface of the base and the other side of the double-sided tape is covered with a peel off backing so that the other side of the double-sided tape can be attached to the protective case after peeling off the peel off backing, wherein at least one side of the peel off backing is extended beyond a boundary of the second surface of the base for each peeling off of the peel off backing using a finger. 10. The kickstand of claim 1 , wherein the base ( 30 ) has an outer boundary rib ( 38 ) to receive the standing leg ( 20 ) therein when the standing leg ( 20 ) is in the closed position of the standing leg ( 20 ). 11. The kickstand of claim 9 , wherein the outer boundary rib ( 38 ) has an open area where the outer boundary rib is not formed for insertion of a finger into the open area to open the standing leg ( 20 ) from a closed position to an open position, and wherein the standing leg ( 20 ) comprises a recess ( 28 ) formed at an area corresponding to the open area for insertion of a finger into the recess ( 28 ) to open the standing leg ( 20 ) from a closed position to an open position. 12. A kickstand ( 10 ), comprising: a standing leg ( 20 ); a base ( 30 ) wherein the standing leg ( 20 ) is pivoted on the base ( 20 ); and a shaft ( 42 ); wherein the base ( 30 ) comprises a first opening ( 35 ) and a second opening ( 36 ) to receive both ends of the shaft ( 42 ), wherein the shaft ( 42 ) is substantially in a shape of a cylinder and comprises a head ( 51 ), a body ( 52 ), and a bottom ( 53 ), wherein the shaft ( 42 ) further comprises a cylindrical hole ( 54 ) formed on the bottom ( 53 ) and a metal pin ( 55 ) is received in the cylindrical hole ( 54 ), wherein a diameter of the head ( 51 ) is greater than that of the body ( 52 ). 13. The kickstand of claim 12 , wherein the diameter of the head ( 51 ) is greater than that of the first opening ( 35 ) or that of the second opening ( 36 ). 14. The kickstand of claim 12 , wherein a diameter of the bottom ( 53 ) is greater than that of the body ( 52 ). 15. A method to insert a cylindrical shaft ( 42 ) into first and second openings ( 35 ), ( 36 ) of a base ( 30 ) and secure the cylindrical shaft ( 42 ) to the base ( 30 ), wherein a kickstand comprises the base ( 20 ) and a standing leg ( 20 ), and the standing leg ( 20 ) is pivoted on the base ( 30 ), the method comprising the steps of: inserting the cylindrical shaft ( 42 ) through the first and second openings ( 35 ), ( 36 ) wherein the shaft ( 42 ) comprises a head ( 51 ), a body ( 52 ), and a bottom ( 53 ), hitting the head ( 51 ) of the cylindrical shaft ( 42 ) to insert the cylindrical shaft ( 42 ) into the first and second openings ( 35 ), ( 36 ) and to fixedly secure the cylindrical shaft ( 42 ) to the first opening ( 35 ) wherein a diameter of the head ( 52 ) is greater than that of the first opening ( 35 ) before the step of hitting the head ( 51 ) of the cylindrical shaft ( 42 ), and the diameter of the first opening is enlarged after the step of hitting the head ( 51 ) of the cylindrical shaft ( 42 ), and inserting a metal pin ( 55 ) into a cylindrical hole ( 54 ) of the cylindrical shaft ( 42 ) to fixedly secure the cylindrical shaft ( 42 ) to the second opening ( 36 ) wherein a diameter of a bottom ( 53 ) of the shaft ( 42 ) is smaller than that of the second opening ( 36 ) before the step of inserting the metal pin ( 55 ) into the cylindrical hole ( 54 ) and a diameter of the cylindrical hole ( 54 ) is enlarged after the step of hitting the metal pin ( 55 ) into the cylindrical hole ( 54 ) to fixedly secure the bottom ( 53 ) to the second opening ( 36 ). 16. The method of claim 15 , wherein the diameter of the cylindrical hole ( 54 ) is smaller than the diameter of the metal pin ( 55 ) before the step of inserting the metal pin ( 55 ) into the cylindrical hole ( 54 ), and wherein the diameter of the second opening ( 36 ) is enlarged after the step of inserting the metal pin ( 55 ) into t