USE OF PULSED THERMAL RADIATION AND NANO-STRUCTURES FOR THE EFFECTIVE GENERATION OF SOUND WAVES IN KHZ RANGE

摘要

Disclosed herein is a high-efficiency kilohertz-range acoustic wave generator using a pulsed thermal radiation beam and a nanostructure. A nanorod unit having a high thermal expansion coefficient is provided behind a light interrupter so that the efficiency of generating acoustic waves can be enhanced. A pulse beam generated from the light interrupter is directly radiated onto the nanorod unit having a nanorod bundle structure with a nanorod-opposite-end support. Thermal deformation of the nanorod unit attributable to thermal expansion and contraction is repeated. In this way, the amplitude of sound waves can be increased, and relatively high decibel sound can thus be generated.

主权项

1. A high-efficiency kilohertz-range acoustic wave generator using a pulsed thermal radiation beam and a nanostructure, comprising:
a focusing tube (100) focusing solar light collected by a solar tracking reflector (10) to form high-density light and emitting the focused solar light; a light interrupter (200) including a circular disk (220) and a rotating drive unit (230), the circular disk (220) having a plurality of holes (210) arranged at positions spaced apart from each other at regular intervals in a circumferential direction around the rotating drive unit (230) so that solar light emitted from the focusing tube (100) passes through the holes (210) and thus is intermittently emitted, and a pulse beam is formed by intermittent solar light that has passed through one of the holes (210) of the light interrupter; a nanorod unit (300) including a plurality of nanorod cells (310) arranged without interfering with each other and configured such that the pulse beam passes in a direction perpendicular to linear bodies of the nanorod cells (310), the nanorod cells (310) being thermally-expanded by pulse beams and thermally-contracted (repeatedly deformed), whereby the linear bodies of the nanorod cells (310) micro-vibrate upward and downward, thus generating sound; and a nanorod-opposite-end support (400) supporting opposite longitudinal ends of the nanorod unit (300).