SU1022279A1 - Self-sustained electric power source - Google Patents

Description

The invention relates to devices for automatically regulating the voltage of asynchronous generators and can be used to power a hand-held tool in field production of agricultural production. Autonomous sources of electrical energy with voltage stabilization, with capacitor excitation, are known that contain measurement and throttle control elements connected to the stator windings of the LJ generator. The disadvantages of such devices include low efficiency and the presence of higher harmonics. The closest technical solution to the proposed is an autonomous source of electrical energy containing an induction generator with capacitor excitation, a sensing element for voltage connected to the terminals for connecting to the load, a regulating element and a three-phase rectifier 2, the device also has low efficiency and is cumbersome. The purpose of the invention is to increase efficiency. The goal is achieved by the fact that an autonomous source of electrical energy containing an induction generator with capacitor excitation, a sensitive element connected to a voltage for connecting to a load, a regulating element and a three-phase rectifier, is equipped with a DC motor and a condensation battery, and the regulating element is made in the form of a zener diode, with the DC motor mounted on the same shaft with the generator, the capacitor battery is connected on one side to the terminals of the stat On the other hand, it is connected to a three-phase rectifier connected to the DC motor core, the winding, the excitation of which through a regulating element is connected to the sensing element by voltage. The drawing shows the proposed autonomous source. The asynchronous generator 1 is connected to the driving motor 2 and the engine core 3 of direct current by means of shafts. Excitation capacitors and control capacitors 5 are connected to the stator of the asynchronous generator 1. At the zero point of the capacitors 5 there is a three-phase rectifier 6 connected to the engine core 3 of the direct current. The excitation winding 7 of this motor through a regulating element, for example, Zener diode 8, is connected to the sensitive element 9. The latter is central with the stator of the asynchronous generator 1. The independent source of electrical energy works as follows. The drive motor 2 rotates the rotor of the asynchronous generator 1 and the measles of the engine 3 of direct current. At idle, the generator 1 is self-excited from the capacitor bank capacity. In this case, the generator voltage will be nominal. The capacitance of the capacitor battery 5 is selected to calculate the compensation of the reactive component of the load and the rotor response of the generator 1 under load. The DC motor 3 rotates together with the generator 1 and at idle does not consume current from the rectifier 6, respectively the capacitor battery 5 also current will not flow due to the fact that the zener diode 8 is closed and the maximum current passes through the field winding. When the load is connected, the voltage on the generator 1 decreases, it registers the sensitive element 9 and the voltage of the zener diode 8 starts to close, reducing the current in the excitation winding 7, and this reduces the flow. The DC motor 9 tends to increase the rotational speed, but since it is rigidly connected to the generator shaft T and the drive motor 2 its speed remains constant, but at the same time it begins to consume the current that passes through the rectifier 6 and the capacitor battery 5. Capacitive the current from the capacitor bank 5 compensates for the reactive component of the load and the response of the rotor of the generator 1, thereby restoring the voltage on the load. As the load increases, the DC field of the 3-D current decreases more and the capacitive current of the capacitor bank 5 increases. At the same time, the torque of the 3-DC motor increases, this moment is directed according to the torque of the drive motor and to some extent compensates for the power required by the generator drive , appropriate310222794

but it saves fuel from the drive engine with a minimum amount of complexing device 2.thread products.

The proposed autonomous source. Through the regulating capacitance, the current of electrical energy increases efficiency, passes without surges and pulsations, the source, respectively, decreases, thereby there are no higher harmonic fuel consumption. What are the components that have

The question of the stabilization of the nerator, as well as the magnetic system of the voltage of the asynchronous generator of powered engines, is simply resolved.

negative impact on both self

Claims (1)

AUTONOMOUS SOURCE OF ELECTRIC ENERGY, comprising an asynchronous generator with capacitor excitation, a voltage sensing element connected to the terminals for connection to the load, a regulating element and a three-phase rectifier, characterized in that, in order to increase the efficiency, it is equipped with a DC motor and capacitor the battery, and the regulating element is made in the form of a zener diode, and the DC motor is mounted on the same shaft as the generator, the capacitor bank is connected on one side to the the imam of the generator stator, and on the other, to a 'three-phase rectifier connected to the armature of a DC motor, the field winding of which is connected to the cu-® through the control element. a real element in terms of voltage, ζβ but— · —KJ— ^and