Energy harvesting device, method for manufacturing the same, and wireless device including the same

What is claimed is: 1. A energy harvesting device, comprising: a support body; a first cantilever connected to the support body; and an electricity generation layer on the first cantilever, wherein the first cantilever has a thickness that gradually increases in a direction that is away from the support body. 2. The energy harvesting device of claim 1 , wherein the first cantilever comprises a first bottom surface that is concave upward. 3. The energy harvesting device of claim 2 , wherein the support body comprises: a support connected to the first cantilever; and a first base disposed under the support, wherein the first base comprises a first top surface that is rounded to correspond to the first bottom surface, and the first top surface is convex upward. 4. The energy harvesting device of claim 3 , further comprising a second cantilever extending from the support onto the first cantilever, wherein the second cantilever has a thickness that gradually increases in a direction that is away from the support body. 5. The energy harvesting device of claim 4 , wherein the second cantilever comprises a rounded second top surface that is concave downward. 6. The energy harvesting device of claim 5 , wherein the support body further comprises a second base disposed on the support to face the first base and having a second bottom surface rounded to correspond to the second top surface, wherein the second base is convex downward. 7. The energy harvesting device of claim 4 , wherein the electricity generation layer comprises a piezoelectric layer disposed between the first cantilever and the second cantilever. 8. The energy harvesting device of claim 7 , wherein the electricity generation layer further comprises: a first electrode layer between the first cantilever and the piezoelectric layer; and a second electrode layer between the piezoelectric layer and the second cantilever. 9. The energy harvesting device of claim 1 , wherein the first cantilever has a mass that gradually increases in a direction that is away from the support body. 10. The energy harvesting device of claim 1 , further comprising a mass connected to an end of the first cantilever facing the support. 11. The energy harvesting device of claim 1 , wherein the first cantilever comprises an inclined first bottom surface. 12. The energy harvesting device of claim 11 , wherein the support body comprises: a support connected to the first cantilever; and a first base for allowing the support to stand up in a direction perpendicular to the first cantilever, wherein the first base comprises a first top surface that is inclined to correspond to the inclined first bottom surface. 13. A wireless device, comprising: a housing; a printed circuit board disposed in the housing; a plurality of semiconductor chips mounted on the printed circuit board; and an energy harvesting device supplying a power voltage to the semiconductor chips, wherein the energy harvesting device comprises: a support body; a first cantilever connected to the support body; and an electricity generation layer on the first cantilever, wherein the first cantilever has a thickness that gradually increases in a direction that is away from the support body. 14. The wireless device of claim 13 , wherein the support body is fixed to the housing, and the support body further comprises a first push button pushing the first cantilever. 15. The wireless device of claim 13 , further comprising: a second push button generating a turn-on signal; and an antenna transmitting a wireless control signal according to the turn-on signal, wherein the first push button and the second push button are disposed on both facing sides of the housing, respectively. 16. A method for manufacturing an energy harvesting device, the method comprising: providing a first cantilever to a support body; and forming an electricity generation layer on the first cantilever, wherein the support body comprises: a first base below the first cantilever; and a support formed on one side of the first base, the support being connected to the first cantilever, wherein the first cantilever has a thickness that gradually increases in a direction that is away from the support. 17. The method of claim 16 , wherein the first cantilever comprises a rounded first bottom surface, and the first base comprises a rounded first top surface facing the rounded first bottom surface, wherein the forming of the electricity generation layer comprises: coupling the first bottom surface to the first top surface; and forming the electricity generation layer on the first cantilever. 18. The method of claim 17 , wherein the electricity generation layer is taped on the first cantilever layer. 19. The method of claim 16 , further comprising: providing the first cantilever; coupling the first cantilever to the support; and connecting the support to the first base.