Safety device and battery using the same

What is claimed is: 1. A safety device for preventing overcurrent, comprising: a first heat dissipation part made of electrically conductive material; a second heat dissipation part made of electrically conductive material, the second heat dissipation part and the first heat dissipation part being symmetrically shaped; and a connecting part made of electrically conductive material arranged between the first heat dissipation part and the second heat dissipation part; the connecting part comprising: a first heat locking portion connecting to the first heat dissipation part, a second heat locking portion connecting to the second heat dissipation part, and a fusing portion connecting between the first heat locking portion and the second heat locking portion; and the first heat locking portion and the second heat locking portion having a same structure, but different heat locking hole features; wherein the first heat locking portion, the second heat locking portion and the fusing portion are all of a symmetrical structure, the first heat locking portion is provided with a first edge and a second edge which are symmetrical in position and shape, the second heat locking portion is provided with a third edge and a fourth edge which are symmetrical in position and shape, the fusing portion is provided with a fifth edge and a sixth edge which are symmetrical in position and shape, the first edge, the fifth edge and the third edge are sequentially connected, and the second edge, the sixth edge and the fourth edge are sequentially connected; wherein each of the fifth edge and the sixth edge has an arc-shaped overall outline, and a minimum distance from the fifth edge to the sixth edge is located on a central position of the fusing portion; wherein each of the first heat dissipation part and the second heat dissipation part is provided with a mounting pin and at least an auxiliary pin; and wherein two first auxiliary heat locking openings are provided on each side of a jointing portion of the first heat dissipation part and the connecting part, and two second auxiliary heat locking openings are provided on each side of a jointing portion of the second heat dissipation part and the connecting part. 2. The safety device according to claim 1 , wherein the fusing portion is provided with a symmetrically shaped fusing hole. 3. The safety device according to claim 2 , wherein the fusing hole is filled with an auxiliary fuse material. 4. The safety device according to claim 1 , wherein the fusing portion is connected with the first heat locking portion and the second heat locking portion by welding, the first heat locking portion and the second heat locking portion are made of thermal conductive materials, and the fusing portion is made of fusing material. 5. The safety device according to claim 1 , wherein a maximum distance from the fifth edge to the sixth edge is less than or equal to a minimum distance from the first edge to the second edge, and also less than or equal to a minimum distance from the third edge to the fourth edge. 6. The safety device according to claim 1 , wherein the first heat locking portion comprises a first heat locking hole, the second heat locking portion comprises a second heat locking hole, and the different heat locking hole features comprise: the first heat locking hole and the second heat locking hole being different in size. 7. The safety device according to claim 1 , wherein the first heat locking portion comprises a first heat locking hole, the second heat locking portion comprises a second heat locking hole, and the different heat locking hole features comprise: the first heat locking hole and the second heat locking hole being asymmetrical in position. 8. The safety device according to claim 1 , wherein the first heat locking portion comprises a first heat locking hole, the second heat locking portion comprises a second heat locking hole, and the different heat locking hole features comprise: the first heat locking hole and the second heat locking hole being asymmetrical in position and different in size. 9. The safety device according to claim 8 , wherein the first heat locking hole has a same symmetry axis as the first heat locking portion, and the second heat locking hole has a same symmetry axis as the second heat locking portion. 10. The safety device according to claim 8 , wherein a sum of two minimum distances from any two symmetrical positions on the first edge and the second edge to the first heat locking hole is greater than a minimum distance from the fifth edge to the sixth edge. 11. The safety device according to claim 8 , wherein a sum of two minimum distances from any two symmetrical positions on the third edge and the fourth edge to the second heat locking hole is greater than a minimum distance from the fifth edge to the sixth edge. 12. The safety device according to claim 1 , wherein the different heat locking hole features comprise: only one of the first heat locking portion and the second heat locking portion comprising a heat locking hole. 13. The safety device according to claim 12 , wherein the heat locking hole is filled with fusible material. 14. The safety device according to claim 12 , wherein the one of the first heat locking portion and the second heat locking portion comprising the heat locking hole further comprises a sub heat locking hole that is smaller in size and positioned closer to the fusing portion than the heat locking hole. 15. A circuit, comprising: a circuit board; a safety device mounted to the circuit board for preventing overcurrent, the safety device comprising: a first heat dissipation part made of electrically conductive material; a second heat dissipation part made of electrically conductive material, the second heat dissipation part and the first heat dissipation part being symmetrically shaped; and a connecting part made of electrically conductive material arranged between the first heat dissipation part and the second heat dissipation part; the connecting part comprising: a first heat locking portion connecting to the first heat dissipation part, a second heat locking portion connecting to the second heat dissipation part, and a fusing portion connecting between the first heat locking portion and the second heat locking portion; and the first heat locking portion and the second heat locking portion having a same structure, but different heat locking hole features; wherein the first heat locking portion, the second heat locking portion and the fusing portion are all of a symmetrical structure, the first heat locking portion is provided with a first edge and a second edge which are symmetrical in position and shape, the second heat locking portion is provided with a third edge and a fourth edge which are symmetrical in position and shape, the fusing portion is provided with a fifth edge and a sixth edge which are symmetrical in position and shape, the first edge, the fifth edge and the third edge are sequentially connected, and the second edge, the sixth edge and the fourth edge are sequentially connected; wherein each of the fifth edge and the sixth edge has an arc-shaped overall outline, and a minimum distance from the fifth edge to the sixth edge is located on a central position of the fusing portion; wherein each of the first heat dissipation part and the second heat dissipation part is provided with a mounting pin and at least an auxiliary pin; and wherein two first auxiliary heat locking openings are provided on each side of a jointing portion of the first heat dissipation part and the connecting part, and two seco