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Static super electric energy machine and application

A technology of super electric energy and electric energy machine, which is applied in the direction of conversion equipment that can be converted to direct current without intermediate conversion, and can solve the problems of reduced power saving effect, inseparable excitation transformer, and inability to use independent power supply.

Inactive Publication Date: 2017-04-19
张炳全
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As for the frequency conversion series resonance withstand voltage test device, it is another example of using series resonance. Compared with the previous similar devices, the weight of the whole set of equipment and power supply are greatly reduced, and the resonance voltage can reach dozens of times the input voltage, but it is still far from No bulky excitation transformer, and it can only be used for withstand voltage test and cannot be used as a new power supply
The practice of parallel capacitors in the inductive circuit to improve the power factor is a model of using parallel resonance, which can only save electricity but cannot be used as a new independent power supply.
The utility model patent of resonant power saver, its principle is also parallel resonance, when the load power is fixed, the power saving effect is remarkable, but when the load power changes, the circuit will lose resonance, resulting in a decline in power saving effect, and more detuning less power saving

Method used

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  • Static super electric energy machine and application
  • Static super electric energy machine and application

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0047] Example 1. As figure 1 , figure 2 The series resonant static super electric energy machine shown: the high-frequency high-voltage low-inductance or non-inductive variable capacitor C is connected in series with the primary (high-voltage) coil L1 of the high-frequency high-voltage transformer T or the high-frequency high-voltage variable inductor L3 is connected to the high-voltage The primary (high-voltage) coil L1 of the high-frequency high-voltage transformer T and the high-frequency high-voltage low-inductance or non-inductive variable capacitor C are connected in series to form a series resonant circuit. When working, the output terminal L2 is connected to the electrical load through a frequency converter or a rectifier. The input voltage at the input terminal is low-voltage medium-high-frequency alternating current. After the circuit is automatically tuned and series resonance occurs, a high voltage will be generated at both ends of the capacitor C and the inducta...

Embodiment 2

[0048] Example 2. If image 3 The two ends of the series resonant capacitor shown in the parallel connection type static super electric energy machine: a series resonant circuit is composed of a high-frequency high-voltage variable inductor L3 and a high-frequency high-voltage non-inductive fixed capacitor C. When working, the output terminal L2 passes through a frequency converter or The rectifier is connected to the electric load, and the excitation power supply inputs the low-voltage medium-high frequency alternating current with the voltage U from the input terminal. When the circuit undergoes automatic tuning and generates series resonance, the capacitor C begins to charge. When a charging cycle ends, the capacitor C stored on the two plates Under the action of the high voltage at both ends of the capacitor, the charge is discharged through the parallel high-frequency high-voltage variable inductor L4 and the primary (high-voltage) coil L1 of the step-down transformer. Aft...

Embodiment 3

[0049] Example 3. As Figure 4 , Figure 5 The parallel resonant static super electric energy machine shown: the high-frequency high-voltage non-inductive variable or fixed capacitor C is connected in parallel with the primary coil L1 of the coupling transformer T, or the variable inductor L3 is first connected in series with the primary coil L1 of the coupling transformer T and then It is connected in parallel with a low-inductance or non-inductive fixed capacitor C to form a parallel resonant circuit. When working, the output terminal L2 is connected to an electrical load through a frequency converter or a rectifier. The medium-high frequency excitation power supply with an input voltage of U excites a large current, and the circuit is automatically tuned to generate a parallel connection. After resonance, the excitation large current drops sharply to the minimum value, while the current flowing through the inductance branch and the capacitance branch remains unchanged at th...

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Abstract

The invention relates to two types of static super electric energy machines. The two types of static super electric energy machines being reconstructed on the basis of series resonance, parallel resonance and a transformer have no rotary motion parts. The static super electric energy machine mainly comprises a high-quality inductor and a high-quality capacitor which form a series resonance or parallel resonance circuit, resonance can be generated in a respective circuit only through inputting an AC current having frequency identical to circuit natural oscillation frequency, large-power electric energy can be pushed at an output end, and the output power is made to be greatly larger than an input power; inductance or capacitance can be automatically tuned according to induction electromotive force change of the output end, the static super electric energy machine can cooperate with a chargeable cell or a super capacitor, an inverter, an intelligent controller and a rectifier to form an independent static power generation system, no pollution and zero exhaust can be realized, and inexhaustible electric energy can be provided for various types of equipment needing electric energy.

Description

technical field [0001] The invention belongs to the field of electric power generation. Background technique [0002] The existing mainstream generators are basically rotary generators, which can be divided into two categories: rotating field type and rotating armature type. Various existing power generation technologies have objectively some defects, mainly as follows: nuclear fission power generation is unsafe; nuclear fusion power generation is far away; thermal power generation is polluting; wind power generation is unstable; The construction period is long and has an impact on the ecological environment; solar photovoltaic is a mature static power generation, but it is easily restricted by weather, time of day and season, and the high cost is not conducive to popularization. [0003] Through the search and research of existing technologies, 3 kinds of known and public related technologies and 1 Chinese utility model patent were found: 1. Ore radio; 2. Frequency convers...

Claims

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Application Information

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IPC IPC(8): H02M5/06H02M5/10
Inventor 张炳全
Owner 张炳全
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