SU1325179A1 - Power plant - Google Patents

Abstract

The invention can be used in low power installations with Stirling engines. The purpose of the invention is to provide the possibility of using a radioisotope heat source and excluding engine spacing when the electrical receiver (EF) is disconnected. In the circuit of the generator core (G) 2, parallel to the EA, a switch (K) 3 and a backup resistance 4, connected in series, are included. Current sensor 6 is installed in the G 2 circuit in series with the EI and connected via converter 5 to K 3. In an emergency and when the E11 is disconnected, sensor 6 sends a signal to input K 3, which connects resistance 4 to the winding of G 2 core, which prevents engine overload . 1 il. and 7 (L oo Yu a 1; o

Description

The invention relates to mechanical engineering, in particular to engine-building, and can be used in low-power power plants with a Stirling engine, for example, in navigation systems, space technology and other sectors of the national economy.

The purpose of the invention is to provide the possibility of using a radioisotope heat source and to eliminate the separation of an engine with such a source when the power receiver is disconnected.

The drawing shows the block diagram of the power plant.

The power plant contains a Stirling engine I, the crankshaft of which is connected by means of a drive with a generator 2. A constant heat source is used as a source of heat: 1. For example, a radioisotonic heat source.

The terminals of the generator 2 are connected in series with the switch 3 and the backup resistance 4. Controlling the input of the switch 3 is connected via converter 5 with the output of current sensor 6. The terminals of the generator 2 sv-1any also with output terminals 7. A current sensor 6 is installed in the circuit between one of the output terminals 7 and the corresponding output terminal of the generator 2 in such a way that when connecting an electrical receiver (not shown) to the terminals 7, it captures the current receiver.

As a current sensor 6, induction type sensors can be used. Converter 5 serves to convert the signal of current sensor 6 into a control signal supplied to the input of switch 3. It can be assembled on 1-conductor 1x cells or Ko61 type microcircuits. The switch 3 serves to disconnect or connect the backup resistance 4 to the generator 2 in accordance with the control signal. The switch can be assembled on thyristor type elements.

Power installation works as follows.

The Stirling engine 1 drives the rotor of the generator 2 by means of a drive. When the generator 2 operates, an emf is induced at the terminals of the core winding. When the electric receiver is connected to the output terminals 7 along the circuit, the core winding - the electric receiver collects current to flow, which is detected by the current sensor 6. Sigpal sensor 6 current through converter 5 according to .uiKKjp P. fepeiun Zack :) 3031 ;; “)

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steps onto the control input of switch 3, which opens the back-up resistance 4 - switch 3 - generator core 2 winding. In this case, the generator core 2 goes through the main load - the electrical receiver connected to the output terminals 7.

In the event of an emergency, for example, when a short-circuit current flows through an electrical receiver, a fuse in the electrical receiver circuit is activated, as a result of which it is switched off. An open circuit of the receiver is detected by current sensor 6, the signal from which through converter 5 is fed to the control input of switch 3, which connects the backup resistance 4 to the winding of the generator core 2.

When the circuit is restored, the core - power receiver winding starts to flow a current through the power receiver, which is detected by the current sensor 6. The signal from sensor 6 is fed through converter 5 to control UP1 of switch 3, which, when activated, shuts off standby resistance 4 from generator 2. Generator 2 again starts to work on the electrical receiver.

When the electric receiver is disconnected, the generator almost instantly (in a fraction of a second) is connected to the reserve load, which prevents the engine from switching to differential conditions (eliminates the occurrence of overloads at the moment the receiver is disconnected. This increases the engine's life and reliability.

Claims (1)

Invention Formula A power plant containing a Stirling engine, an electric generator kinematically connected to the engine crankshaft, and an electrical receiver connected to the electrical circuit of the generator core, which is designed to make it possible to use a radio-isotonic source of heat and to avoid source when disconnecting the electric receiver, the power plant is additionally equipped with a backup resistance, a switch, a converter and a current sensor, and the backup resistance Well connected to the switch and both are connected together to the generator core in parallel to the receiver, and a current sensor is installed in the generator circuit in series with the receiver and connected through a converter to the switch. 0 0