The disclosure relates generally to an electrical generator system and method and in particular to an electrical energy generator using piezoelectric elements.
It is known that piezoelectric crystals can be used to generate a spark. This is typically the element in a grill lighter that generates the spark that is used to light the gas in the grill or the lighter fluid on the charcoal of a barbeque. It is also known that one can use piezoelectric crystals to capture energy from the movement of the ocean wherein the movement of the ocean causes the crystals to generate electrical energy. It is also known that piezoelectric crystals can be used in downhole drill applications to provide electrical power to downhole sensors and devices wherein the vibrations of the drill column excites the piezoelectric crystals to generate electrical energy. Thus, it is well known that piezoelectric crystals can be used to generate sparks and electrical energy.
However, to date, no one has created an electrical energy generator that generate energy based on the rotational movement actuating piezo electric elements. Thus, it is desirable to provide such as an electrical energy generator and it is to this end that the disclosure is directed.
The disclosure is particularly applicable to an electrical energy generating system using the piezoelectric elements shown and described below and it is in this context that the disclosure will be described. It will be appreciated, however, that the electrical energy generating system in accordance with the disclosure has greater utility since it can be used with other types of piezoelectric elements, can be used as a stand-alone electrical energy generator, can be used in conjunction with other apparatus, such as a wave generator, wind power, fuel motor, water head (river, dam), etc to provide the external power. Furthermore, the electrical energy generator may be used in various other applications and with other external power means in which it is desirable to have an electrical energy device.
Each piezoelectric element 28 may have an actuating element (not shown) and can be manufactured in a multitude of ways and out of various different materials because different materials give off varying electrical power when bent, stretched, compressed, twisted, etc. so that many configurations piezoelectric element can be actuated and engineered and are part of the disclosure. The unifying aspect of any piezoelectric element is that, when it is stressed in some manner, electrical energy is generated. In one implementation, the piezoelectric element can be a quartz crystal that is used to produce a spark when stresses and quickly released from the stress placed on it.
The one or more retainer elements 30 hold the piezoelectric element 28 and its activating mechanism to the second member 24 (that may be referred to as a base plate) and transfers in some manner a ground connection of the piezoelectric element 28 to the base plate 24.
The first element 22 rotates as described above and provides the timing of the electrical energy generator. In particular, the first element 22 spins which means that the surfaces 32 and the corners rotate past each roller/lifter 26. When a flat surface is adjacent a particular roller/lifter 26, the roller/lifter is in a relaxed position. Then, when a corner where the surfaces 32 meet on the first element is adjacent a particular roller/lifter 26, the first element 22 lifts the particular roller/lifter 26 which is turn drives/stresses the piezoelectric element 28 attached to the particular roller/lifter 26 which causes the piezoelectric element 28 attached to the particular roller/lifter 26 to generate a bit of electrical energy (a spark). As an example of the timing aspect of the first element 22, if the electrical energy generating element 14 has 6 lobes that can activate 10 piezoelectric elements mounted on a base plate (1 spark/activation) and the electrical energy generating element 14 has ten base plates being energized at the same time at 1000 RPM of the drive shaft, the electrical energy generating element 14 achieves 60-cycle electrical power mechanically without conditioning.
The drive shaft 20 spins the first element 22 and may be powered by a power source, such as a wave generator, wind power, fuel motor, solar power, water head (river, dam), etc. since the electrical energy generator can be powered by any power/energy source. The base plate 24 mounts the components and bonds all the ground circuits together for all of the piezoelectric elements. Each roller/lifter 26 rides on the second element 24 and provides the low friction lift energy to activate the Piezoelectric element and its mechanism.
The piezoelectric element 28 (that may be a crystal in some embodiments) may be aligned so that each piezoelectric element polarity and wiring are the same which means that the electrical energy generating element 14 and the generator produces DC current. Alternatively, if the polarity of each piezoelectric element 28 is alternated in the electrical energy generating element 14 of the generator, the generator produces AC current.
While the foregoing has been with reference to a particular embodiment of the invention, it will be appreciated by those skilled in the art that changes in this embodiment may be made without departing from the principles and spirit of the disclosure, the scope of which is defined by the appended claims.
The application claims the benefit under 35 USC 119(e) and 120 to U.S. Provisional Patent Application Ser. No. 61/468,036, filed on Mar. 27, 2011 and entitled “Electrical Energy Generator Using Piezoelectric Crystals”, the entirety of which is incorporated herein by reference.
Number | Date | Country | |
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61468036 | Mar 2011 | US |