RU1800554C - Collector electric machine - Google Patents

Abstract

SUMMARY OF THE INVENTION: A machine frame comprises a magnetic circuit made in the form of alternating arcs of a larger diameter and a smaller diameter, the ends of which are connected by straight sections. Excitation coils are located on the direct sections, two coils in series; ki to the pole. Two field coils of each of the poles are made with a different number of turns. The invention improves the performance of the machine by compensating the magnetic flux of the reaction core. 1 ill.

Description

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The invention relates to electrical engineering. nickel and can be used in DC, alternating and pulsating current collector motors, as well as in universal electric motors.

The purpose of the invention is to improve the performance of the machine by compensating for the magnetic flux of the core reaction.

This goal is achieved in that the two excitation coils of each of the poles are made with an unequal number of turns.

The invention is illustrated by the example of a universal bipolar low power machine (up to 5 kW).

The drawing shows a cross section of a machine.

The machine contains measles 1 with a collector 2 and brushes 3. The skeleton of the machine contains arcuate sections 4 and 5 of the magnetic circuit of radius RB and arcuate sections 6 and 7 of radius RM, which correspond to the pole pieces. The cores of the main poles are formed by straight radial sections 8-11 of the magnetic circuit of the machine, which connect the adjacent ends of the arcuate sections. In sections 8-11, excitation coils 12-15 are arranged in series. In sequential excitation machines, the coil circuit 12-15 is connected inside the machine, as shown in the drawing, to the core circuit, i.e. with brushes 3. Terminals for. DC, ripple, or AC power connections are terminals 16 and 17.

The machine operates as follows. When pins 16 and 17 are connected to the power supply through the circuit of excitation coils 12-15 and current 1 flows through the winding of core 1, a magnetizing force appears, which ensures the appearance of magnetic flux F. When it interacts with the current of the root winding, a torque M.

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ABOUT

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The working magnetic flux of the main poles is formed by summing the magnetic flux Φ | Phi and both cores at each pole. Moreover, in machines of one-sided rotation (drives of hand tools, household appliances), it is possible to make unequal excitation coils:

Wi wn f | F

compensates the magnetic flux of the reaction cor. In addition, the necessary distribution of magnetic induction around the circumference of the core within the pole division C is provided by the choice of the gap value b as a function of the distance x from the middle of the main pole, i.e. from the axis O O.

It is also possible in principle that the skeleton of the machine can be detachable when the arcuate elements of the magnetic core 4 and 5 are made separately (cast or laminated), and then fastened to the main poles 6, 8, 9,12, 13 and 7. 10, 11, 14, 15 Such a design is suitable in machines with a power of 2-5 kW.

The technical and economic efficiency of the invention is determined by the following factors:

- due to the splitting of the pole core into two parts, a more uniform distribution of the working magnetic flux is provided over the surface of the pole pieces, which is especially important in double pole machines with a pole division arc of 140-160 °;

- it is possible to compensate for the reaction of core;

- reducing the cost of winding copper on coils 12-15 of the main poles, although the complexity of their manufacture is slightly increased;

- the cooling conditions of the coils of the main poles 12-15 are improved, since half of each coil is outside the machine.

Claims (1)

SUMMARY OF THE INVENTION A collector electric machine comprising a core with a collector and brushes, a magnetic circuit with main poles provided with pole pieces facing the root, in which the magnetic circuit and pole pieces are made in the form of alternating arcs of correspondingly larger and smaller radius, and the ends of adjacent arcs are interconnected direct sections of the magnetic circuit, with each main pole formed by two adjacent direct sections of the magnetic circuit with a common pole tip, with two excitation coils connected in series, characterized in that, in order to improve machine performance by compensating the armature reaction magnetic flux, excitation of two coils of each of the poles are made with unequal number of turns.