DE4022622A1 - Miniature power plant for rotary current generator drive - replaces internal combustion engine by switched combination of battery-powered motor-generator sets with high efficiency - Google Patents

Abstract

A 12 V battery (I) supplies a DC motor (II) driving two current generators (III) which feed 24V motors (IV). These have sufficient power to drive a 10 kW 220/380) V rotary generator (XI) via gearing (X). To double the current demand, a 10 kW 380 V motor (XII) drives a 20 kW generator (XIII). A current transformer (VII) converts the 220 V output of the generator into 24 V for battery recharge when required. The entire system allows selective multiplication of currents and voltages by series and parallel circuit switching combinations. ADVANTAGE - Environmental damage from noise and exhaust fumes of internal combustion engine is avoided.

Description

The invention relates to a group of ballasts that allow to operate a rotating power generator.

Objective of the invention

Through these DC ballasts, which are high we have degree of efficiency, and are able to use an internal combustion engine to put into operation, these ballasts are also in able to replace an internal combustion engine. This was the one Objective of the invention.

The advantages achieved by this invention are that from environmentally harmful combustion engines due to noise and exhaust gases to solve.

The devices designated in Roman numerals serve the Er purification of the drawing.

(I) 12 V DC battery delivers current to 12 V motor (II), This has 2 V-belt pulleys, with the V-belt 2 each 24 V power generator (III) driven, these give it generated electricity from (each) 2 24 V motors (IV) each, these drive a rotating power generator (XI), an upstream Gear ratio (X) over this, the generator is driven. This has an output of (3) 220 V / 380 V 10 KW. Between 24 V motors and power generator is a transmission gear (X) brought in.

To double the power requirement, a motor (XII) is included connected to a power of 380 V 10 KW, this drives a power generator (XIII) 220 V / 380 V 20 KW, connected downstream.

It is more advantageous to use this power generator directly after the 24 V. To switch motors. The 24 V ballasts from (III) can if necessary, the 12 V devices would have to be doubled be doubled.

A current transformer (IV) is installed in the system 24 V, from the generator, 24 V or transformer, to 220 V 2.2 KW converts, these values are entered into the drive motor (VIII). This drive motor drives the Power generator (XI). The motor (VIII) is for the 12 V system Type B is more suitable than for system A.

A more powerful motor is preferable for system A, which is powered by 220 V power generator (XIII). A current transformer (VII) is also installed in the system which converts the 220 V input from the power generator into 24 V. These 24 V are fed back to the 24 V ballasts to close the circuit. It is also a transformer or to interpose an automatic charging, and the battery, if necessary, electricity switched on again. (Not in the drawing available.)

Furthermore, it is necessary for the ballasts from (IV and V) 24 V drive motors to be switched alternately. By Changeover switches at certain intervals, through time relays to switch off together or individually and completely.

Instead of the 24 V devices, the motor (VIII) is switched on. Control center (IX), from which all circuits for the Mini power plant can be made. In the control center with  Power plant. In the control center with integrated Switchgear with which all devices in this system are switched will.

With this overall system by arrangement it is possible to choose Multiply the current and voltage values to create. Any combination is possible due to the arrangement of the switching devices of series and parallel connections possible.

Mini power plant type B

A 12 V system designed for a smaller power requirement is. This can be done by adding additional devices, the Strombe may be increased.

These are identified in the drawing by Roman numerals, from (I-V) devices, ballasts like type A is a doubling of the devices mentioned is an advantage.

For type B for the same devices of this system, such as with type A controlled by a control center (VI). Battery (I), 12 V motor (II), 12 V power generator (III), 12 V an drive motor (IV), current transformer 220 V / 12 V (V), control center (VI), power generator 220 V (VII), drive motor (downstream) (IX), power generator (downstream) (XIII), switching relay (Ia).

Claims (2)

1. Mini power plant, ballasts type A, B, characterized by direct current devices that make it possible to drive a rotating power generator: type A. The ballasts consist of a 12 V battery that deliver current to a 12 V direct current motor. This 12 V drive motor drives 2 24 V power generators each. These deliver the power to 2 24 V drive motors each, which have the power to drive a 220 V / 380 V 10 KW power generator. If the 380 V has a higher current value (on) than the 220 V, a 380 V 10 KW drive motor can be interposed in order to cover a higher current demand, in order to a 220 V / 380 V 20 KW generator with higher (double) current values switch on. For the devices identified by Roman numerals in the drawing, from Roman IV ballasts, the main claim is made. 2. Mini power plant, type A according to claim 1, characterized net that a current transformer, input 24 V, is from 24 V Stromer generator powered, output 220 V, a drive motor drives with the same current values. This can be around 12 V or to protect 24 V devices. Because of this Drive motor has only 2.2 KW power, due to the electricity converter, this motor is more suitable for type B. Instead, there is a more powerful drive motor interconnect, whose electricity is taken from the generator becomes. This engine is responsible for the first 220 V power generator to drive. Furthermore, a current transformer is introduced, the input 220 V, taken from the generator, converted into 12 V and 24 V. In order to close the circuit, the 12 V are again supplied to the battery, and the 24 V can be switched back to the 24 V Devices can be entered. In order to be able to control the devices of the plant, a central one is Switchgear introduced. Type B is a 12 V system designed for a smaller current needs is thought. But can also by adding more Devices the power requirement can be increased. For type B, for the same devices in this system, as with type A of Roman I-V as the main claim makes.