Wind Chime Piezoelectric Power Generation Device

Abstract

The invention relates to a windbell-type piezoelectric power generation device and belongs to the field of piezoelectric power generation. The windbell-type piezoelectric power generation device is formed by hanging a plurality of rod assemblies in an array-type mode; each rod assembly includes at least two rigid rods (1) from top to bottom, the rigid rods (1) are connected through flexible joints (2), and the side wall of each flexible joint (2) is at least provided with one piezoelectric unit (3) in an attached mode. The rigid rods (1) are connected through the flexible joints (2) provided with the piezoelectric units (3) in the attached mode to form the rod assemblies. Each rod assembly in a hanging state has a plurality of bending resonant frequencies, and the rod assemblies will perform bending resonance when a driving frequency is close to a certain resonant frequency; when incoming flow passes by the rod assemblies on a windward side, the rod assemblies bend, Karman vortex streets are generated behind the rod assemblies, and the adjacent Karman vortex streets in the array have phase differences which jointly act on the rod assemblies and excite the rod assemblies to generate resonance. According to the windbell-type piezoelectric power generation device, the utilization rate of incoming flow kinetic energy is improved by utilizing the array-type structure, and the electromechanical conversion efficiency of the system is improved by utilizing the resonance; the windbell-type piezoelectric power generation device has the advantages of being insensitive in incoming flow direction and wide in flow rate range.

Description

technical field [0001] The invention belongs to the fields of wind power generation and hydropower generation, in particular to a wind chime type piezoelectric power generation device. Background technique [0002] Using natural wind energy and water energy to generate electricity, the self-powered system for various outdoor facilities is in line with today's energy-saving, environmental protection, and low-carbon development trends. It is used in industrial monitoring, intelligent transportation, smart grid, mine safety, environmental monitoring, safe home, Healthcare and other fields have broad application prospects. [0003] US11 / 252903, a small wind-driven generator, was designed and manufactured by Priya of the United States using piezoelectric devices. It can generate electricity under the wind power of 8-16 kilometers per hour. The generator's paddles are attached to a cam that oscillates a series of bimorphs arranged in a circle around an axis to output electricity...

AI Technical Summary

Problems solved by technology

This solution has two disadvantages: one is that the piezoelectric bimorph collides with the cam and rubs against it every time it rotates, thus causing wear and tear, resulting in energy loss and reducing the service life

The main disadvantage of this solution is that in addition to the energy loss caused by friction and the reduced service life, when the car passes by continuously and generates strong wind, the logo will rotate at high speed, so that the steel ball moves close to the piezoelectric conversion element. If the components do not receive alternating pressure, they will not be able to generate electricity

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