Piezoeletric sensing element and torque sensor assembled with the same

What is claimed is: 1. A piezoelectric sensing element, comprising: a ring type piezoelectric device, with two sides respectively printed with a low-temperature electrode, wherein the polarization direction of the ring type piezoelectric device is clockwise or counterclockwise perpendicular to the direction of an annular cross sectional surface; two ceramic structural adhesives, respectively located above and below the ring type piezoelectric device; two electrode sheets, respectively located above and below the two ceramic structural adhesives, wherein the two electrode sheets can be adhered to the ring type piezoelectric device by pressurizing the two ceramic structural adhesives; two structural adhesives, respectively located above and below the two electrode sheets; a ring type sheet, located above or below one of the two structural adhesives; and a disk-shaped cylindrical ceramic sheet, located below or above another of the two structural adhesives. 2. The piezoelectric sensing element as claimed in claim 1 , wherein the ring type sheet is a ring type ceramic sheet. 3. The piezoelectric sensing element as claimed in claim 2 , wherein the disk-shaped sheet is a disk-shaped cylindrical ceramic sheet. 4. The piezoelectric sensing element as claimed in claim 1 , wherein the ring type sheet is a ring type material sheet with a high friction coefficient. 5. The piezoelectric sensing element as claimed in claim 4 , wherein the disk-shaped sheet is a disk-shaped cylindrical material sheet with a high friction coefficient. 6. The piezoelectric sensing element as claimed in claim 1 , wherein the ring type piezoelectric device meets a d 15 effective piezoelectric coefficient, and the ring type piezoelectric device is formed in one piece. 7. A torque sensor comprising: a piezoelectric sensing element as claimed in claim 6 ; a deformation structural element for receiving a force applied by a torque test object, wherein the piezoelectric sensing element is disposed within the deformation structural element; and a fixing element comprising a through hole, wherein the fixing element is corresponding to the deformation structural element so as to sandwich the piezoelectric sensing element therebetween, and the through hole is capable of accommodating the torque test object, such that the torque test object contact the deformation structural element through the piezoelectric sensing element. 8. The torque sensor as claimed in claim 7 , wherein the ring type sheet is a ring type ceramic sheet. 9. The torque sensor as claimed in claim 8 , wherein the disk-shaped sheet is a disk-shaped cylindrical ceramic sheet. 10. The torque sensor as claimed in claim 7 , wherein the ring type sheet is a ring type material sheet with a high friction coefficient. 11. The torque sensor as claimed in claim 10 , wherein the disk-shaped sheet is a disk-shaped cylindrical material sheet with a high friction coefficient. 12. The torque sensor as claimed in claim 7 , wherein the ring type piezoelectric device meets a d 15 effective piezoelectric coefficient, and the ring type piezoelectric device is formed in one piece. 13. The torque sensor as claimed in claim 7 further comprising a wireless communication device and a base for fixing the wireless communication device. 14. The torque sensor as claimed in claim 7 , wherein the fixing element, the deformation structural element, and the piezoelectric sensing element are mounted together by means of a second structural adhesive or a screw bolt.