RU2133545C1 - Ac generator - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: hollow stator with magnetic core has two sections of cross closed slots to receive field windings; armature fixed on rod has magnetic core carrying two poles with field winding placed between them and connected to DC power supply. EFFECT: improved efficiency, simplified design, reduced cost of generated electricity. 2 dwg

Description

 The invention relates to electrical engineering, in particular to engine-generator systems, and can be used in the design and manufacture of AC sources.

 A known system is an alternator-motor generator [1], in which the armature rotates in order to excite the emf in the power windings of the stator. Often, if necessary, in this system, internal combustion engines are used as the engine. The disadvantage of this system is the difficulty of converting using the crank mechanism of the reciprocating movement of the engine pistons into the rotational movement of the crankshaft connected to the generator armature.

 The invention is aimed at simplifying the engine-generator system, associated with the exclusion of the conversion of types of movement, and in this regard, allowing the use of an internal combustion engine with reciprocating pistons in the specified system as a drive for the generator armature.

 This is achieved by the fact that the hollow stator with the magnetic circuit is made with two sections of transverse closed grooves for placement of power windings in them, and the armature rigidly mounted on the rod contains a magnetic circuit with two poles, between which a field winding connected to the direct current source is installed.

 In FIG. 1 presents a constructive, and in FIG. 2 - electrical diagram of the proposed generator.

 The stator 1 is a hollow magnetic circuit, on the inner surface of which in its end parts transverse closed grooves are made for placement of power windings 2 and 3 in them.

The armature 4 is rigidly mounted on the rod 5 moving in the respective supports in the stator (not shown in FIG. 1), and contains a magnetic circuit 6 with poles 7 and 8, between which a field coil 9 is wound. The cross-sectional shapes of the magnetic circuit 6 and the inner contour of the surface of the magnetic circuit stator 1 must match each other. A direct excitation current I _B (see Fig. 2) is supplied to magnetize the magnetic circuit 6 to the windings of the latter through sliding contacts 10.

 The generator operates as follows.

Let the armature 4 connected to the direct current I _B be in the left extreme position 1 relative to the stator 1 (see Fig. 1). Then the magnetic fluxes Φ arising in the magnetic circuit 6, closing through the magnetic circuit of the stator 1, will tend to move the armature 4 to the right to occupy a central neutral position inside the stator 1 strictly between its windings 2 and 3, which in this case are a solenoid. However, due to the action of inertial forces due to the mass of the armature 4, the latter moves further to the right to the extreme position II (see Fig. 1). In this case, the forces of the magnetic flux Φ act in the opposite direction to the movement of the armature 4, thereby causing the slow movement of the latter to a complete stop in position II, after which the armature under the action of magnetic forces begins to move to the left to the extreme position 1, etc. In connection with the noted anchor 4 with the rod 5 in the absence of resistance forces (friction in the rod supports, air resistance, etc.) will make an endless reciprocating motion with a frequency f and amplitude A, depending on the design and electro-technical parameters of the generator .

 Thus, due to the interaction of magnetic and inertial forces, each generator will have a corresponding frequency f and amplitude A.

 To generate AC electricity, it is necessary to connect the armature rod 5 to the engine, which allows the armature 4 to reciprocate with the indicated frequency f and amplitude A. In this case, the inertial resistance of the generator will be zero.

 The use of the proposed generator in technology will significantly increase the efficiency of the engine-generator system and simplify it.

Sources of information
1. Pietrovsky L.M. Electric cars. Moscow. 1958. 510 p.

Claims (1)

 An alternating current generator comprising a stator and an armature, characterized in that the hollow stator with a magnetic circuit is made with two sections of transverse closed grooves in which the power windings are located, and the anchor rigidly fixed to the rod includes a magnetic circuit with two poles between which an excitation winding is installed connected to a direct current source.

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