DE607391C - Self-excited DC shaded pole generator for constant voltage - Google Patents

Description

The installation of small hydropower plants is made very expensive because they work reliably automatic turbine and voltage regulators as in large systems must be provided. Nevertheless, there is a certain amount of it Operation by hand is usually unavoidable. If such smaller systems., How often, work with direct current and should not require any maintenance, so one can think of saving the expensive automatic turbine and high-speed voltage regulators to use self-regulating generators and the turbines to let go on discharge. You would then have to have a direct current generator with a speed range of about 1: 2 every load automatically keeps its terminal voltage constant. Machines for more or less constant performance also come with

Small power stations are out of the question, nor are arrangements in which the machine must work in parallel with a battery or an auxiliary battery is required because of the high cost and maintenance of accumulators.

There are now DC generators with greatly variable speed become known, at aiming for a constant voltage within a large speed range is made by applying two flows per pitch, one of which is constant and is generated by a permanent magnet, the other with the speed changes and is generated by a voltage proportional to the speed, so that the resulting field with the speed according to the equilateral hyperbola required for constant tension. Except for very small machines However, permanent magnets are no longer used in electrical engineering because they only are able to deliver weak fields and also decrease over time. That's why such arrangements have not been introduced.

In these known power generators it was assumed that the constant Flow must already be present at standstill. In contrast, the proposal goes according to the invention from the fact that the constant flow is only required from the lower operating speed and even then does not need to be completely constant, but rather still with the speed ■ can grow somewhat. It is only essential that the saturation knee of the magnetization curve is reached before the lower operating speed is achieved.

The arrangement is then as follows:

There are two mechanically coupled machines. As can be seen from the drawing, one is the main engine M;

the other serves as the excitation machine E. In the main machine, two sub-flows are active in each bolt division limited by “the brushes a, a” to generate the EMF. One is generated by the main pole k, h ', the other by the secondary pole n, n'. The voltage windings c, d, c ', d' of the main and secondary pole are connected to the terminals b, b 'of the exciter. The field winding e, e 'of the exciter E is connected to the terminals a, a! of the main machine M. The two machines excite each other in such a way that both the field of the exciter machine and each of the two sub-flows of the main machine grows during start-up, similar to the field of an ordinary direct current generator with self-excitation. If the speed increases further, the field of the exciter machine assumes a constant value. At the same time, the saturation of the magnetic circuit occurs at one sub-pole of the main machine, the main pole h, h ', while the smaller-sized flux of the other sub-pole of the main machine, the secondary pole n, n', also occurs

continues to increase in a fairly straight line with the speed. That way it becomes resulting field active between two brushes of the main machine for EMF generation, namely the difference between main and tributary, smaller again after reaching a maximum value. Through appropriate Dimensioning of the magnetic circuits of the main and secondary pole is achieved :, that the field decrease in the operating speed range is fairly accurate, an equilateral Hyperbola is going on and as a result the tension remains constant.

Claims (1)

Claim: Self-excited * DC shaded pole generator for constant voltage between Idle and full load within wide speed limits with counteracting one another Partial poles interspersed with magnetic force fluxes, characterized in that that the partial poles generating a main and an auxiliary flux are mechanically coupled to the shaded pole generator and from the lower speed limit from the saturated exciter, whose excitation winding is connected to the armature terminals of the shaded pole generator are excited, and that 'the main flow increases with the speed, like the field of a normal DC shunt generator with self-excitation and in the control range always works above the saturation knee of the magnetization curve, while the one counteracting the main flux Auxiliary flow in the entire speed range approximately in a straight line with the Speed increases. 1 sheet of drawings