DE1538649B2 - Generator system for alternating current of constant frequency with changing drive speed - Google Patents

Description

The invention relates to a generator system for alternating current of constant frequency with changing Drive speed, a synchronous generator directly feeding an alternating current network and one of contains a drive shaft driven differential gear, the output shaft of which the synchronous generator drives with the help of a speed control with constant speed, using a to the Differential shaft of the differential gear coupled, additional alternating current machine, which in normal operation works as a generator and feeds the AC network via a controllable converter.

It is known to couple an additional AC machine to the differential shaft, which as Generator works and feeds the AC network via a converter, with a regulation of the Output speed of the differential gear via the output from the additional alternator Power and the resulting speed of the differential shaft takes place (French patent 1 334 683).

This regulation is only for a certain speed range the drive shaft is provided, for example for speeds of at least 80% of the nominal speed the output shaft. It fails when the speed of the drive shaft falls below a certain level Value drops, so that then the speed of the network

ίο the feeding generator and the mains frequency drop. In this case, there are more on board a vehicle from the engine used for propulsion independent power generators are provided to which the Drive shaft (slow travel, stopping, reversing) is switched over in good time, so that then at least important electricity consumers can continue to be supplied with constant frequency and constant voltage, however, timely switching to other

ao other power generators in the known generator system not possible in the event of sudden, unforeseen drops in speed of the drive shaft. Self in the case of an automatic switchover, between the switchover command and the reaching of the setpoint frequency, e.g.

and target tension a certain, through the mechä * - niche and electrical time constants of the new machines and switching devices to be switched on Time. During this time, the frequency and voltage of the vehicle electrical system decrease, which is important the lighting, location, Signal and control devices can have serious consequences.

The object on which the invention is based is to be seen in creating a generator system with which, even in the event of a fault, the frequency of the on-board network is maintained until others Generators for supplying the on-board network are ready for operation.

This object is achieved according to the invention in that in the event of a sudden, unforeseen drop the speed of the drive shaft below a minimum value, the additional working as a synchronous generator AC machine can be separated from the converter by means of a changeover switch and directly connected to the AC network can be connected, in which case the additional alternating current machine from the synchronous generator is fed via the mains as a motor.

In the meantime, other power generators are ready for operation.

From US-PS 2 911 541 a wave generator system is known, in which the flywheel generator working as a shaft generator from the propeller shaft is driven via a differential gear and an electromagnetic clutch. A controllable one Electric motor works on the planetary gear of the gearbox and keeps the speed of the shaft generator driving shaft largely constant. When a predetermined speed is reached A switch can be used to switch on an emergency generator and switch off the shaft generator causes. A complex flywheel generator is used in this system.

The system according to the invention has the advantage that, in the event of a fault, there is no time delay the switching of the additional generator to motor operation to support the AC network he follows. The important consumers are not endangered. In addition, the re-

Gelability of the system improved and the applicability to larger speed fluctuations of the drive shaft enables.

The speed n ₃ of the output shaft of the differential gear that drives the synchronous generator is obtained, as is well known, if the gear ratios of the speeds' of the differential gear are assumed to be 1: 1, as the difference between the speed of the drive shaft and the speed n _{2 of} the differential shaft:

Since the speed n ₃ should remain constant, the addend - n ₂ must be increased in the formula when the addend Ji _{1 is} reduced, ie the speed n ₂ becomes zero at a certain minimum value n _{lmin of} the speed of the drive shaft. In order to even below the minimum value ^ ₁ "η _in the constancy of the rotational speed _Ά to obtain the rotational speed must be n ₂ change sign, which by the inventive switching of the additional alternator from generator to motor operation opposite rotational direction at the changeover Ti _{1 s,} the is approximately equal to the minimum value n _lmln is reached. Switching can be triggered, for example, by a tachometer attached to the drive shaft, as is usually already available for other purposes.

The additional alternating current machine starts up as a motor in asynchronous operation from a standstill. When it is running up, the motor counteracts the simultaneous drop in speed Ai _{1 of} the drive shaft in the sense of compensation and thus in keeping the speed n _{3 of} the synchronous generator constant.

If the drop in the speed Ti ₁ slows down below the minimum value H _{1 min} for some time, the speed n _a and thus the mains frequency can increase as the motor runs up to its nominal speed. In order to keep the percentage increase in frequency compared to the nominal frequency small, a decrease in frequency should initially be accepted when the speed Ti ₁ drops below the value ^ _{1 mln.} The additional alternating current machine is only switched to motor operation at a switching speed Ti _{1 s} below the speed / I _{1 min} : H _{1 s} <n _lmin .

When the additional alternating current machine as a motor has reached its nominal speed, it cannot be used to further _{increase the speed n 3.} The mains frequency then drops if the speed n _{v continues to} drop.If the gear ratios of the differential gear are selected correctly, however, it is possible to keep the percentage frequency drop (in the time until other power generators are operational) down to small values of H ₁ within permissible limits.

Because of the moments of inertia of the rotating parts of the system, experience has shown that a sudden drop in speed H _{1 of} the drive shaft to zero is ruled out. However, should this extreme case occur, the system according to the invention maintains the network frequency at permissible values for a short time, namely until the rotational energy stored in the system, in particular in the synchronous generator, has been withdrawn to a minimum or destroyed.

The converter through which the additional AC machine powers the AC grid during normal operation feeds, has the task of converting the variable-frequency current generated by this machine into a current to convert with mains frequency. It can advantageously consist of a rectifier and a downstream, grid-run inverters exist. This design has the advantage of structural simplicity.

Another inexpensive version of the converter

ίο consists in the fact that it consists of a rectifier and a downstream, line-commutated, self-commutating inverter, such as the pulse inverter is known, exists. The pulse inverter has compared to the inverter commutated from the grid the advantage that it does not load the network with reactive current.

The three sizes speed n. _Z, arousal and active current of the additional alternator are mutually dependent. To control the speed n ₂ , it is therefore possible in principle to act on the excitation and the current of the machine. It is thus possible to achieve frequency regulation with constant excitation by changing the current of the additional machine, for example by means of a pulse inverter. The opposite solution is to adjust the excitation with a constant current. This last-mentioned principle uses an embodiment of the invention that is particularly advantageous because of its structural simplicity and its favorable control behavior, according to which a controller intervenes in the excitation of the additional alternating current machine. Another regulating or control device influences the modulation of the converter in such a way that the input current of the converter part of the converter is speed-independent. The invention is described below with reference to a drawing.

_{A drive shaft 1} rotating at the variable speed Ti 1, here a ship's propeller shaft, drives a differential gear 4. Its output shaft 3, which rotates at the constantly regulated speed n _s, is coupled to a synchronous generator 7 which feeds the alternating current network 5 and is excited in the usual way by the field winding 6. The differential shaft 2 drives the additional alternating current machine 8, which is a synchronous generator, at speed n ₂ and in normal operation feeds the network 5 simultaneously with the synchronous generator 7 via a changeover switch 9 and a converter consisting of the rectifier 10 and the inverter 11. The network frequency is regulated after a comparison of the actual value of the frequency / (proportional n ₃ ) with the setpoint frequency / _s by means of a comparison element 12 by the controller and amplifier 13, which adjusts the current of the excitation winding 14 of the additional alternating current machine 8. The input current of the inverter 11 is kept constant by a control device indicated by an action arrow, known per se and therefore not shown here in greater detail.

In the event of a sudden, unforeseen drop in the speed Ti _{1 of} the drive shaft 1 below the minimum value at which a reversal of the direction of rotation of the shaft 2 is necessary in order to maintain the constancy of the speed η _Λ , the switch 9 disconnects the additional alternating current machine 8 the converter 10, 11 and connects them as a motor via the line 15 directly to the alternating current network 5. It will

the frequency control 12, 13, 14 ineffective. At the same time as switching, unimportant consumers can be disconnected from the network by means of the switch 16 for the duration of the fault condition.

If the fault condition is eliminated after a short period of time, by flipping the switch again 9 normal operation can be resumed. If the fault condition persists, after the commissioning of additional power sources the synchronous generator and the additional Alternating current machine 8 by means not shown mechanically from the drive shaft or at the same time Disconnection of the excitation windings 6 and 14, electrically isolated from the network 5.

1 sheet of drawings

Claims (5)

Patent claims: 1. Generator system for alternating current of constant frequency with changing drive speed, Containing a synchronous generator feeding an alternating current network directly from a drive shaft, for example a ship propeller shaft, driven differential gear, whose Output shaft the synchronous generator with the help of a speed control with constant speed drives, applying a to the differential shaft the differential gear coupled, additional alternating current machine, which in normal operation works as a generator and the AC network via a controllable converter feeds, characterized in that in the event of a sudden, unforeseen drop in speed of the drive shaft (1) below a minimum value, the additional working as a synchronous generator AC machine (8) can be separated from the converter (10, 11) by means of a changeover switch (9) and can be connected directly to the alternating current network (S), in which case the additional alternating current machine (8) is fed from the synchronous generator (7) via the network (5) as a motor. 2. Generator system according to claim 1, characterized in that the converter (10, 11) from a rectifier (10) and a downstream inverter commutated from the network (11) exists. 3. Generator system according to claim 1, characterized in that the converter (10, 11) from a rectifier (10) and a downstream, line-commutated, self-commutating Inverter (11) consists. 4. Generator system according to claim 1, characterized in that for the purpose of frequency control a controller (13) intervenes in the excitation (14) of the additional alternating current machine (8). 5. generator system according to claim 2 and 3, characterized in that a further control or Control device influences the modulation of the converter (10, 11) so that the input current of the inverter part (11) of the converter (10,11) is speed-independent.