Ultrasonic transmission structure

The invention claimed is: 1. An ultrasonic wave transmission structure adapted to radiate an ultrasonic wave through amplification of an incident ultrasonic wave, the ultrasonic wave transmission structure comprising: multiple rings each provided with a body portion having a different radius from other body portions and spaced apart from another body portion adjacent thereto and a slit disposed between adjacent body portions; a membrane disposed in the multiple rings; and a mass increasing portion coupled to a membrane region adjoining the slit to increase a mass of the membrane, wherein a resonant frequency of the membrane is changed by changing a total mass of the membrane and the mass increasing portion. 2. The ultrasonic wave transmission structure according to claim 1 , wherein the mass increasing portion is disposed in a loop shape corresponding to a shape of the ring or disposed in a circular shape or a polygonal shape. 3. The ultrasonic wave transmission structure according to claim 1 , wherein a membrane region adjoining the slit is divided into multiple sub-membrane regions depending upon a distance from a center of the multiple rings and the total mass per area is the same in the sub-membrane regions. 4. The ultrasonic wave transmission structure according to claim 1 , wherein a membrane region adjoining the slit is divided into multiple sub-membrane regions depending upon a distance from a center of the multiple rings and the total mass per area in the sub-membrane regions is sequentially changed from the center of the multiple rings. 5. The ultrasonic wave transmission structure according to claim 4 , wherein a focusing distance of radiated ultrasonic waves is adjusted by adjusting a total mass difference corresponding to a difference between the total mass in a sub-membrane region disposed at the center of the multiple rings and the total mass in a sub-membrane region disposed at a periphery of the multiple rings. 6. The ultrasonic wave transmission structure according to claim 5 , wherein the focusing distance is decreased when the total mass difference is relatively large and the focusing distance is increased when the total mass difference is relatively small. 7. An ultrasonic wave transmission structure adapted to radiate an ultrasonic wave through amplification of an incident ultrasonic wave, the ultrasonic wave transmission structure comprising: multiple rings each provided with a body portion having a different radius from other body portions and spaced apart from another body portion adjacent thereto and a slit disposed between adjacent body portions; a membrane disposed in the multiple rings; and a mass decreasing portion formed in a membrane region adjoining the slit to decrease a mass of the membrane, wherein a resonant frequency of the membrane is changed by changing a total mass of the membrane and the mass decreasing portion. 8. The ultrasonic wave transmission structure according to claim 7 , wherein the mass decreasing portion is disposed in a hole shape penetrating the membrane. 9. The ultrasonic wave transmission structure according to claim 7 , wherein a membrane region adjoining the slit is divided into multiple sub-membrane regions depending upon a distance from a center of the multiple rings and the total mass per area is the same in the sub-membrane regions. 10. The ultrasonic wave transmission structure according to claim 7 , wherein a membrane region adjoining the slit is divided into multiple sub-membrane regions depending upon a distance from a center of the multiple rings and the total mass per area in the sub-membrane regions is sequentially changed from the center of the multiple rings. 11. The ultrasonic wave transmission structure according to claim 10 , wherein a focusing distance of radiated ultrasonic waves is adjusted by adjusting a total mass difference corresponding to a difference between the total mass in a sub-membrane region disposed at the center of the multiple rings and the total mass in a sub-membrane region disposed at a periphery of the multiple rings. 12. The ultrasonic wave transmission structure according to claim 11 , wherein the focusing distance is decreased when the total mass difference is relatively large and the focusing distance is increased when the total mass difference is relatively small. 13. An ultrasonic wave transmission structure adapted to radiate an ultrasonic wave through amplification of an incident ultrasonic wave, the ultrasonic wave transmission structure comprising: multiple rings each provided with a body portion having a different radius from other body portions and spaced apart from another body portion adjacent thereto and a slit disposed between adjacent body portions; and a membrane disposed in the multiple rings, wherein a membrane region adjoining the slit is divided into multiple sub-membrane regions depending upon a distance from a center of the multiple rings and a resonant frequency in the sub-membrane regions is changed by changing thicknesses of the sub-membrane regions depending upon the distance from the center of the multiple rings. 14. The ultrasonic wave transmission structure according to claim 13 , wherein the sub-membrane regions are formed to thicknesses sequentially changed from the center of the multiple rings. 15. The ultrasonic wave transmission structure according to claim 14 , wherein a focusing distance of radiated ultrasonic waves is adjusted by adjusting a thickness difference corresponding to a difference in thickness between a sub-membrane region disposed at the center of the multiple rings and a sub-membrane region disposed at a periphery of the multiple rings. 16. The ultrasonic wave transmission structure according to claim 15 , wherein the focusing distance is decreased when the thickness difference is relatively large and the focusing distance is increased when the thickness difference is relatively small.