1.Title of the invention

Piezo Electric Accumulator

2. Applicant

Name : Eesavyasa Technologies Pvt. Ltd.
Nationality : Indian
Address : 108-B, I.D.A. Khanapuram, Khammam(DT), Andhra Pradesh. Pin: 507002

3. Preamble to the description:

Complete specification:

Summary:

In the summary of invention, each important salient feature is explained as follows:

1. Piezoelectric crystalline layers when properly arranged as thin film layer over glass or acrylic surfaces and containing electrodes at any two ends on their surface can convert all types of electromagnetic waves into corresponding voltage signals on other side.

2. The major task of concept is to accumulate such electronic voltages generated into an uniform output by mixing with compounds used zenar diode making. Alternative layers of these materials can regulate the upper limit of voltage barrier and thereby achieves maximum benefit of such accumulation activity.

3. We are synthesizing layers of piezoelectric material and compounds used in making of zenar diodes. These layers are arranged over each other successively. By keeping graphite conductive layer between them, an array of such layers transforms into a power accumulator of uniform voltage output.

4. We are also synthesizing layers of piezoelectric material without using zenar diodec compounds in association with electroluminescent materials, semiconductor materials, etc, to devise new electronic components of multiple applications.

5. We are producing LED monitors, microwave generators and high radiation sources with the help of triboluminiscence property exhibited by the piezoelectric material wafers when taken in different atmospheres in glass tubes.

4. Description

The present concept of invention is to convert all types of electromagnetic vibrations applied over piezo electric surfaces into electric voltages or electric signals and they will be further converted into other forms of energies like light, sound or any other forms possible by associating with relevant sensitive electronic grade materials.

Here the major task of concept is accumulating such electronic voltages generated into an uniform output by mixing with compounds used in making zenar diodes. Alternative layers of these materials can regulate the upper limit of voltage barrier and thereby achieves maximum benefit of such accumulation activity. For this purpose, a glass or acrylic or copper like metal surfaces are coated with thin film wafers of piezoelectric material by sputtering. This is followed by next level of sputtering with required thickness of compounds used to make zenar diodes producing known voltage upper barrier. This kind of multiple layers can be placed on each other like a cell which produces certain fixed electrical energy. For example like in 12 volts car batteries where in different capacitor plates produces different voltages of electricity which accumulates to give a collective volts direct current (DC) supply. Depending on the number of such piezoelectric accumulation cells which can be interconnected by placing graphite connective layer, any length and thickness of piezoelectric accumulators of required output power supply may be synthesized. The key point of the technology is regulating the voltage speckles by keeping an upper limiting voltage barrier with zenar diode material.

When these types of known thickness of devices are coated with desired thicknesses of electroluminescent materials they can act as display monitors similar to that of LCD monitors which itself is another type of signal accumulation method.

These piezoelectric material wafers without zenar diode making material, when associated with opto-sensitive compounds can produces wide range of sensors which can convert mechanical stresses, pressure stresses, acoustic readings, ultrasonic sounds, or infrasonic sounds or any other type of electromagnetic waves into optical signals on the other side. These signals can be transmitted to any distance without losing much data and clarity. Such transmitted optical signals can be converted into digital displays, data storage devises, or data transmissions and when coupled with radio frequencies can control remote operations also.

The other kind of piezoelectric accumulation is, when such material is wafered over a glass surface and cut into micro slices with the help of microtoner and when arranged like a transistor, they act as light emitting monitors responding to external power source. These materials hold a special property called as triboluminiscene which is a finger printing property of piezoelectric materials responding to mechanical vibrations.

Using multipixellation procedure, in the presence of air, this technology is useful in devising digital display units also as in LCD monitor production.

Background of invention

There are certain piezoelectric materials available in nature like quartz, Rochelle salts, lead lanthanides, barium salts and lead titanium zirconate (PZT) which are sensible towards electromagnetic waves like mechanical, sound waves, etc. By vibrating these material coated surface, it converts any of these energy stress waves into electrical energy voltages and vice versa. But so far no energy accumulators which can give uniform output continuously are synthesized. Similarly using these materials signal transmissions, accumulations and amplifications are so far not developed. The present invention is an endeavor in cementing these gaps by providing suitable solutions.

5. Claims

1. We claim that using any type of piezoelectric material which is normally available or synthesized commercially, energy accumulators can be produced which can give an uniform output.

2. We claim that using Lead titanium zirconate (PZT) kind of piezoelectric materials layered with zenar diode compounds on our said devise when arranged under a suitable surface and placed before tidal waves, or pressure waves produced due to fall of water droplets or wind vibrations that cause mechanical stress helps in the making of continuous power generation systems.

3. We claim that when this type of materials as mentioned in claim 1, are adhered to a rubber or rubber like surface which are coated on the other side with neodymium magnet are arranged in circular, cylindrical roller consisting of electrical coil produces power. The edges of PZT strips attached to vehicular wheels vibrates due to rotation and generates accumulated electricity. Neodymium coated surface when rotates over electric coils also continuously generate power like a dynamo. The combination of these two generations will give a continuous abundant source wherever rotational movements are possible.

4. We claim that the principle mentioned in claim number 3 finds its application for continuous power generation and accumulation and wherever rotator motion occurs as in case of wheels of buses, trains or any vehicular wheel movements possible.

5. We claim that the other important area of our invention is that if similar kind of wafers when kept in high vacuum and power is received from external source will emit x-rays and other high energetic radiations.

6. We claim that LCD kind of monitors can be produced with triboluminiscent nature of piezoelectric wafers.

7. We claim that these materials wafers as mentioned in claim 1, can act as sensors in recording minute mechanical changes in machine operations, seismic sensors or ultrasonic sensors or any such type of sensor where signal can be transformed into optical data.

8. We claim that using these materials as mentioned in claim 1, can be made use in making of devices for data transmission.

9. We claim that using these materials as mentioned in claim 1, can be made use in making of devices for converting sound waves to electric energy accumulation.