DE2252466A1 - ARRANGEMENT FOR THE CONVERSION OF THREE-PHASE CURRENT GIVEN FREQUENCY INTO SINGLE-PHASE CURRENT THREE-FOLDED FREQUENCY - Google Patents

Description

Arrangement for converting three-phase current of a given frequency into Single-phase current with three times the frequency The invention relates to an arrangement for conversion of draiphase current of given frequency in single-phase currents of three times the frequency.

An AC power controller is known (Siemens magazine 42, 1968, ran 9, page 772), which consists of two anti-parallel thyristors over which an AC load is connected to the single-phase network. By control of the thyristors, the rms value of the load voltage can be determined with this arrangement and thus change the speed.

For three-phase operation, this AC power controller can be converted into a three-phase power controller expand (Elektro-Anzeiger, 25 years, No. 1/2 dated January 12, 1972, page 1-4), now in each of the star-connected winding phases of the motor an anti-parallel thyristor pair or a bidirectional thyristor (triae) and the neutral point is connected to the neutral conductor of the network. Also at With this arrangement, the load voltage is changed by phase control and thus the speed is controlled.

There is also an arrangement for converting three-phase electricity given frequency in single-phase current of double frequency known (DT-AS 1 249 988), with four connected to the three-phase supply voltage in the manner of the Scott circuit, DC-biased chokes, each with one or two primary windings and Each have two secondary windings, with the two secondary windings each having one Droasel are the same among themselves and in opposite bridge branches of a bridge circuit lie ', one bridge diagonal of which is fed by the pre-magnetizing direct current and the other bridge diagonal emits the current of double frequency.

Such an arrangement for frequency conversion has the disadvantage that On the one hand, it is relatively large and heavy and on the other hand it is used for pre-magnetization the chokes require direct current.

The invention is based on the object of a given three-phase current Frequency in single-phase current three times the frequency by means of itself for speed control convert known controllable converter valves, so that a single-phase consumer can be operated at a correspondingly higher speed or vibration frequency, and although there is single-phase operation, there is a three-phase load on the feeder Network is guaranteed.

This object is achieved according to the invention in that for phase control in each of the three grid phases stowable converter valve laid is, the cut phase voltages are connected in star and in the connection line A single-phase consumer between the neutral point and the neutral conductor of the network is switched.

An embodiment of the invention is shown in the drawing and is described in more detail below. 1 shows in a schematic representation the circuit arrangement according to the invention, FIG. 2 the course of the three-phase voltage 150 Hz voltage gained with a purely ohmic load.

As FIG. 1 shows, there is a controllable one in each of the three network phases 1, 2, 3 Converter valve 11, 12, 13, which according to the current state of the art in particularly advantageously as an anti-parallel thyristor pair or as a bidirectional thyristor (Triac) is formed, the outputs (cathodes) connected together at the star point 5 are. In the connecting line 6 between the star point 5 and the central point conductor 4 of the network, a single-phase load 7 is connected, for example an induction motor, its speed (n 1 4500 min-1; p - 4) above the synchronous speed of the given Frequency lies. However, since such a speed only operates at a frequency f 1 150 Ha can be reached, but the three-phase supply network can only be reached from f - 50 Ha possesses, according to the invention, the output alternating voltage, that is to say the one at the consumer applied voltage, from parts of the three-phase voltage feeding the rotary amperage 11, 12, 13 put together in such a way that the individual phase voltages at the earliest 300 electrical cut according to the voltage peak value and these cut-off voltages are interconnected at the star point, so that the in Fig. 2 shows the 150 Hz voltage curve (with a purely ohmic consumer load). The phase control or the setting of the control angle of the converter valves is for example through with the corresponding mains phase and the control electrode connected potentiometers 111, 121, 131 causes. So you can use them with inductive Consumer load of the control angle to greater than 300 electrical according to the voltage reduction value adjust what is required because the current versus voltage later Has zero crossing and a short circuit between two phases must be avoided.

Instead of the induction motor, an 8rechron motor can also be used Magnetic oscillator or a magnetic transducer connected as a consumer will.

The advantage of the invention is that it is an ironless, static frequency converter of the smallest size, with which the simplest Way speeds resp.

Allow frequencies to be reached that exceed the synchronous speed or Vibration frequency of the given network frequency.

The invention is used wherever speeds are desired that are above the synchronous speed of the given frequency, for example with Lüiter-, Puipen-, Bchleuder-, special machine tool drives or with Woodworking machines or oil burner motors.

Claims (3)

Claims 1. Arrangement for converting three-phase current of a given frequency in single-phase current with three times the frequency, that for phase control in each of the three network phases (1, 2, 3) a controllable Converter valve (11, 12, 13) is placed, the cut phase voltages are connected in star and in the connecting line (6) between the star point (5) and the central conductor (4) of the network is connected to a single-phase consumer (7) is. 2. Arrangement according to claim 1, d a d u r e h g e k e n nz e i c h n e t that the control electrodes of the converter valves (11, 12, 13) via potentiometers (111, 121, 131) are connected to the corresponding network phase. 3. Arrangement according to claim 1 and 2, d a d u r o h g ek e n n z e i c h n e t that the control angle α of the converter valves (11, 12, 13) in Dependence of the type of load on the single-phase consumer (7) on the potential tenants (111, 121, 131) is adjustable.