SU80956A1 - AC collector frequency converter - Google Patents

Description

The main disadvantage of existing AC collector frequency converter designs is that, due to the need to minimize the transformer emf. (to ensure proper switching) the number of collector plates is required to maximize. This leads to an increase in the collector diameter and, consequently, to an increase in the rotating part of the converter. As a result, the converter receives large dimensions, even with low power.

The proposed collector converter makes it possible to minimize the transformer emf. by using a collector with a large number of plates. This is achieved by the fact that the collector is installed on the outer cylindrical surface of the external rotating magnetic circuit of the secondary system, inside of which there is a fixed magnetic system of the mashina.

FIG. 1 shows a longitudinal section of the transducer; in fig. 2 shows the option of activating the winding of the core to the collector plates.

The brushes / transducer are in contact with the external collector 2, the plates of which are connected by means of frontal connections 3 to the winding of the rotating core 4. Anchor 4 rests on the fixed shaft 5 with the help of covers 6.

Due to the external arrangement of the rotating core, the collector is placed on the outer surface of the core, which allows it to be made of considerable diameter. As a result, it is possible to admit a large number of collector plates, which reduces the value of transformer emf. and emf self-induction.

To improve the switching conditions on the fixed core 7, additional poles with two windings 8 are used, which compensate the transformer emf. and emf self-induction.

For a greater decrease in emf. The commutator can be made doubled, i.e. the collector plates are connected (FIG. 2,

the whole section, and with a half, the supply of connecting wires from two sides to the collector plates. In this case, the emf. transformation and emf self-induction will have a half value, since the number of turns of the short-circuited section is halved.

The converter allows you to perform an adjustable AC drive (power transmission for diesel locomotives, an electric transmission for tanks, excavator drives, etc.), which makes it possible to replace expensive and demanding continuous-current motors with asynchronous motors that are very reliable in operation, do not require frequent inspection and about 2.5 times smaller in weight.

In particular, an alternating-current electric drive of a diesel locomotive, according to preliminary estimates, is cheaper than a direct current drive by a factor of three and less in weight by a factor of two.

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...,. Subject invention

AC collector frequency converter with frequency control by varying the rotational speed of the machine is different from the fact that the collector is installed on the outer cylindrical surface of the external rotating magnetic circuit of the secondary system, inside which the stationary primary system of the machine is located.

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