DE2231576C2 - Alternator - Google Patents

Description

The invention relates to an alternator according to the preamble of claim 1.

AC generators for supplying a battery charger and other consumers in Motor vehicles are operated in a very wide speed range. However, their output voltage should be always be constant. As can be seen from the known generator characteristic, it increases with a constant output voltage the achievable output current of a generator in the form of a lying parabola with increasing speed initially

«° strongly. In the higher speed range, however, the achievable output current only increases slightly. The output current is therefore limited. If you increase the number of turns per phase of the stator winding in one Generator, the output current already starts

■ »5 a lower rotor speed, but only smaller output currents in the upper speed range can be achieved. One is therefore forced to make a compromise to the effect that a generator can deliver a sufficient output current even in the lower speed range, but also has as large an output current as possible in the upper speed range. Experience has shown that generators that meet the performance requirements in the lower speed range work in the upper speed range below the operating temperatures already reached in the lower speed range. This is an indication that these generators are not fully utilized in the upper speed range.
Arrangements are already known in which the stator winding is switched from a delta connection to a star connection depending on the rotor speed. Arrangements have also become known in which the one / one windings of the stator are switched from a star connection into a series connection. These arrangements require a relatively high expenditure of switching means. In addition, high voltage peaks occur when switching. The stress peak / cn

achieve values that are a multiple of the nominal voltage of the generator. This allows the known Consequences such as shorted turns and shorted to ground can occur when switching over again the rectifier diodes are destroyed.

From GB-PS 11 94 678 a generator is known in which the phase windings are tapped so that two partial windings are created for each phase, namely the partial winding W between the generator star point and the tap point and the partial winding W ^ between the tap point and the generator connection point.

There is another set of diodes at the taps. The diodes will depend on the Output voltage switched on.

If the diodes are not conductive in the upper speed range, the phase windings are unbalanced because z. B. the current in phase υ only flows through winding part W ,, in phases ν and w, however, through both winding parts W and Wj. This results in an uneven distribution of the current in the air gap of the generator, which results in noise, additional harmonics and a reduction in efficiency.

The object of the invention is to design the known generator in such a way that the additional Harmonics are largely prevented, so that an efficiency improvement can be achieved, and that the magnetic noises are largely muffled.

This object is achieved by the characterizing features of claim 1.

The measures listed in the subclaims represent advantageous developments and improvements of the generator specified in the main claim represent.

The invention enables a better energy supply of motor vehicles, the generator has a higher efficiency than the usual ones Generators on. Generators according to the invention are also used to supply consumers, in particular with constant direct current consumption, outside the vehicle or in connection with a separate one Drive machine, for example for the purposes of camping, for electrical tools or for emergency power supply systems, suitable. The generator assemblies are inexpensive to manufacture, mainly because a wider range of tolerances in the Manufacturing can be approved and because several parts are used in a rough machined state can. This also applies to the use of switches without mechanical contacts, such as controllable ones Rectifiers or transducers. All exemplary embodiments of the generator according to the invention are in common that with the same output power a smaller volume and a smaller weight than with the Generators customary up to now are required. This results in better installation options, in particular in motor vehicles.

Several embodiments of the invention Generators are shown .ti of the drawing and in associated text.

In Fi g. 1 shows a first exemplary embodiment of a generator according to the invention, and / or in FIG. la a fin phase generator and in Fig. Ib a three-phase generator. The same switching elements are provided with the same reference symbols throughout the drawing. The generators according to FIG. I have plus diodes Γ and 1 "and minus diodes 2 and 2" in a known manner. Furthermore, there are fjreger diodes 3 'and

3 "provided.

The generator contains a phase winding arrangement 4 and an excitation winding 5. The excitation winding 5 is connected to the excitation diodes 3 ′, 3 ″ via a voltage regulator 6. An ignition switch 7 is closed during operation of the motor vehicle in which the generator according to the invention is installed; a charge control lamp 8 shows the proper functioning of the generator arrangement a ;;. The consumers 9 of the motor vehicle are with the help of a load switch

12 can be connected to the generator arrangement; Usually there is also a battery 10 in the motor vehicle intended.

In the single-phase generator according to FIG. 1a, one end of the single winding of the phase winding arrangement 4 is connected to the connecting line between the cathode of the negative diode 2 "and the anode of the positive diode 1" and to the anode of the exciter diode 3 ". The phase winding 4 is connected to a tap 11 which is connected to the connecting line between the terminal of a further minus diode 2 and the anode of a further plus diode 1 and to the anode of a further excitation diode 3. The other end of the phase winding 4 leads to a switching device 13. The switching device 13 has a mechanical switch with a switching element and a first and second switching contact. The first switching contact is on the connection line between the cathode of the negative diode 2 'and the anode of the positive diode Γ and on the anode of the excitation diode 3'. The second switching contact is on the other End of phase winding 4.

In the embodiment of Fig. Ib is - im In contrast to Fig. La - a three-phase generator is shown; the circuit arrangement differs essentially only through the use of three-phase bridge rectifiers for the supply the consumer 9 and the battery 10 as well as for feeding the erection winding 5. The switching device 13 is provided with three switching elements according to the intended use, which can be switched at the same time. In the embodiment of Fig. Ib are the three Windings of the phase winding arrangement 4 connected in a star.

In the lower number I are the one or the other Switch of switching device 13 closed. The diodes Γ, 2 ', 1 ", 2" and 3', 3 "can be live be. If the blade of the switching device 13 is lifted from the switching contacts, then only part of it the phase winding 4 effective, which lies between the one end and the tap 11. You can then the diodes 1, 2, 1 ", 2" and 3.3 "must be live.

As long as the switch or switches of the switching device

13 are closed, diodes 1, 2, 3 are not live. These diodes 1, 2, 3 are already connected to the taps 11 and are one Power takeover ready. The moment the or the sounder of the switching device 13 are opened, the diodes 1, 2, 3 can supply the current immediately take over. This avoids the dangerous disadvantage of known devices that when switching high voltage peaks occur.

The Auslührungsbcbeispielc in F ι g. 2 differ from the exemplary embodiments in FIG. 1 dadii'vh. that the switching device 13 has a third Nchaltkontakl which is connected to the tap; I 1 is connected. In the higher number range, the bell lifts off the second Schalikontaki. off and connects ilen first

Switching contact with the three-dimensional sound contact. in the In a higher speed range, the diodes I, 2 ', 3' are connected in parallel to the diodes 1, 2, 3.

In the exemplary embodiments according to FIG. Ϊ economy circuits are shown. The economy circuit according to FIG. 3 differs from the circuit according to FIG. 1 g. 2 in that the Frregerdioden 3 are saved, so are omitted.

In Fig. 3c is another example of an alternator shown in star connection. This Auslührungsbeispiel differs from the embodiment of FIG. 2b in that the third Switching contacts of the switching devices 13 with one another and with the star point of the plias winding arrangement 4 are connected, in the upper speed range, in which the .Schaltbrücke connects the first switch contacts with the third switch contacts the diodes! ', 2', 3 'are each connected to the star point. This arrangement has the advantage that in the higher speed range the diodes I ', 2', 3 'to reduce the influence of the harmonics, especially the third harmonic.

In the exemplary embodiments according to FIG. 4 is the phase winding arrangement 4 in the stator of the generator in two halves X ₂ -U ₂ and X \ - U \ in a single-phase generator and in two halves each X ₂ -U ₂ and X, - Uu X ₂ - V ₂ and X, - V, as well as Z ₂ - W ₂ and Zi- W] divided in a three-phase generator. In order to achieve the same electrical and thermal values of these winding halves, the winding is preferably designed as a two-wire winding. The phase winding 4 is therefore interrupted at the tap II. The winding connections U ₂ , V ₂ , W ₂ are connected to the second switching contacts and the winding connections Xi. Ki, Zi on the first switching contacts under the switching bridge of the switching device 13.

The third switching contact of the switching device 13 is in the case of a single-phase generator according to FIG. 4. to the one Winding end X: connected to the phase winding arrangement 4, the third switching contacts at one > Three-phase generators are conductively connected to one another and can - but do not have to - also be connected to the star point of the phase winding arrangement 4.

In the lower speed range, the phase fluctuations are

'<< gen connected in series so that the full winding of the winding arrangement is effective; this is the case with the single-phase generator according to FIG. 4a the winding X ₂ -U] and in the three-phase generator according to FIG. 4b the winding X ₂ -U]. Y ₂ - V, and Z ₂ - IV ₁ . In the lower speed range

i '' work richly! thin the winding with the diodes i ', 2'; 1 ", 2"; 3 ', 3 "(Fig. 4a) or with the diodes Γ, 2', 3 '(Fig. 4b) together. In the higher speed range, So if the respective Schaltbrückc connects the first to the third switching contact, the work

. '<> Winding halves of the phase winding arrangement 4 in parallel operation. The following winding parts work together with the following diodes: Winding / Λ - Ai with diodes Γ, 2 ', 1 ", 2", 3', 3 "; winding U] -X ₂ with diodes I, 2, 1", 2 ", 3 ", 3: with a three-phase generator

. · ■ - winding U ₁ . V ,. IV ₁ with diodes Γ. 2 ', 3' and U ₁ . V ₂ . W ₂ with diodes 1, 2, 3. The switching contacts of the switching device 13 are only stressed by half the current.

In Fig. b are solutions given, the mechanical

i'i see switches of the switching device 13 through a replace electronic switch. In the execution examples the F i g. I to 5 the switching device 13 can be replaced by a switching device, which contains thyristors as switching elements.

ι. F i g. 7 shows how, instead of the mechanical switch, the Switching device 13 can be used in a further switching device 15Transdtiktoren.

In addition 12 sheets of drawings

Claims (11)

Patent claims: 1. Self-excited three-phase generator in star connection, in particular for motor vehicles, in which one end of the phase windings, preferably located in the stator, is connected to the first positive and negative diodes of a rectifier via a switching device that can be actuated depending on external parameters, and in which there is a tap on each phase winding is connected to a second plus diode, characterized in that a second minus diode (2) is also connected to each of the taps (11) and that each switching element of the switching device (13, 14, 15) on the one hand to the connection point of the first plus and Minus diode (V, 2 ') and on the other hand is connected to the end of the phase winding (4) (Fig. Ib). 2. Self-excited alternating current genera lor, in particular for motor vehicles, in which each end of the phase winding preferably located in the stator via a switching device that can be actuated as a function of external parameters to a first or second plus and minus diode of a rectifier is connected and with a tap on the phase winding is connected to a third plus diode, characterized in that on the tap (11) also has a third negative diode (2) connected and that the switching element of the Switching device (13, 14, 15) on the one hand at the connection point of the first plus and minus diode (Γ, 2 ') and on the other hand to one end of the phase winding (4) is connected (Fig. 1 a). 3. Generator according to claim I or 2 with an excitation winding, a voltage regulator and excitation diodes, characterized in that one excitation diode (3 ') is connected to that of the excitation winding (5) remote electrode to each connection point of at least the first diodes (1, 2; Γ, 2 '; 1 ", 2") connected (Fig. 1). 4. Generator according to claim 3, characterized in that the switching device (13, 14, 15) is a Changeover contact is whose second fixed contact piece is connected to the tap (11) of the phase winding (4) or is connected to the star point of the generator in such a way that in one switching position the end and in the other switch position the tapping of the phase winding with the anode of the first positive diode (Γ) is conductively connected (Fig. 2c, 3c). 5. Three-phase generator according to claim 3, characterized in that each phase winding (4) on the Tap (11) is interrupted, that the two winding parts of the interrupted phase winding via the first and second fixed contact piece of the switching device (13, 14, 15) with the help of the Schaltaims in series or parallel with each other are connectable (Fig. 4b). 6. AC generator according to claim 3, characterized in that the phase winding (4) is interrupted at the tap (11) that the two winding parts of the so interrupted Phase winding over the first and second fixed contact piece of the switching device (13, 14, 15) with Using the switching arm in series or parallel connection can be connected to one another (FIG. 4a). 7. Three-phase generator according to claim 5, thereby confessing?: Calibrates. that the gearshift arm of the gearshift direction (13, 14, 15) is also connected to the star point of the phase winding arrangement (4) are (Fig. 4b). 8. AC generator according to at least one of claims 5 to 7, characterized in that the two partial windings of the phase winding (4) have the same mechanical and electrical values have, in particular that they are inserted as parallel wires or rods in the same groove. 9. AC generator according to at least one of the preceding claims, characterized in that that a mechanical switching device (13) is provided as the switching device (Fig. 1 until 5). 10. AC generator according to at least one of claims 1 to 9, characterized in that that a switching device is provided as a switching device, which is controllable as switching elements Rectifier (14) contains (Fig. 6). 11. Alternator after at least one of Claims 1 to 9, characterized in that the switching device is a switching device is provided, which contains transductors (15) as switching elements (FIG. 7).