DE954353C - Device for the correct counting of the power consumption with three-phase current meter sets in the event of faults in one of the voltage circuits by means of an auxiliary measuring unit set - Google Patents

Description

Device for correct counting of electricity consumption with three-phase current meter sets in the event of faults in one of their voltage circuits by means of an auxiliary measuring mechanism at Three-phase current meter sets, i.e. with three-phase three-wire or four-wire meters with or Without a voltage converter, the voltage circuit is usually secured, namely lying when using voltage converters, the fuses on the side. These fuses have to, that is their purpose, to burn in the event of lightning strikes, overvoltages or the like; because they are supposed to protect the converters and the counting rate behind them. Unfortunately however, the relevant phase voltage drops after a fuse has blown for the counting record, so that it now measures incorrectly because the voltage circuit of the sentence is disturbed. The main circuit is not affected, so that so the currents remain the same even after the disturbance as in the case of an undisturbed voltage circuit.

The invention has the task of using a set of auxiliary measuring mechanisms in the event of a malfunction to correct the information of the disturbed main measuring mechanism so that even during the failure time the passage of electrical work is counted correctly.

The invention relates to a device for correct counting the power consumption with three-phase meter sets in the event of faults in one of their voltage circuits by means of an auxiliary measuring mechanism set.

According to the invention, a device responding in the event of a malfunction at least one of the auxiliary measuring units made effective and that of the auxiliary measuring unit in question Acting voltage drive flow B, based on the totalizer travel, in its vector size adjusted so that it contains the vector remainder for the disturbed main measuring mechanism of tension drive flow to the existing in trouble-free operation The vector of the voltage drive flow of this main measuring mechanism is supplemented, with the current coil of the auxiliary measuring unit concerned carries the load current that of the disturbed phase of the voltage circuit. If it is mentioned above that the vector matching is to be related to the counter path, this should mean that during the adjustment the translation in the measuring mechanism and other constants of the counter that are used for the speed of rotation of the meter armature at a certain current and a certain voltage are relevant must be taken into account. In the event that these constants and the transmission ratio for the main and auxiliary measuring mechanism must be the same actually the vector of the voltage instinct flow of the relief organization the vector remainder of the main mechanism exactly to the vector of the main measuring mechanism that is present when there is trouble-free operation add to. Otherwise go z. B. Differences in the translations as a proportionality factor a.

The term “vector remainder remaining in the event of a fault” applies generally also for the case that this remainder is equal to o, such as e.g. B. with four-wire meters.

The invention is explained in more detail with reference to the drawing.

Fig. I shows the circuit diagram of a counting set for three-wire systems with an auxiliary measuring mechanism set; Fig. 2 shows a corresponding circuit diagram for four-wire systems; FIGS. 3 and 4 show vector images, FIGS. 5 and 6 show circuit diagrams for explanatory purposes the mode of operation if a certain phase voltage fails; FIGS. 7 and 8 again show vector images, FIGS. g and 10 show circuit diagrams to explain the mode of operation if another phase fails; Fig. II shows a variant of Fig. I.

In Fig. 1, a voltage converter set is via a fuse set I0 II connected to phases R, S, T of a three-wire three-phase network N in a V circuit. In the course of the conductor R and the conductor T there is a current transformer set 12. The two Measuring units I and II of the counter Z are connected to the converter sets in the known Aron circuit II, 12 connected. The voltage coils 1, 3 of the measuring units are through a choke coil 4 added to a delta connection. The voltage transformers are often on the secondary side still other devices, e.g. B.

Pointer devices, relays or the like. Connected. The choke coil 4 is matched so that their impedance together with auxiliary devices lying approximately in parallel is equal to the impedance of a voltage winding of a main measuring mechanism. If later once the circuit of the auxiliary devices is changed, this adjustment is appropriate to correct. H is a set of auxiliary measuring units, namely three auxiliary measuring units I3 to Ig present. The current coils I6 to I8 of these auxiliary measuring units are in turn after, even in the trouble-free state, of the currents of the phases R, S, T or, depending on the transformation ratio of the current transformer I2, of Currents proportional to them. So the current coil I6 carries the same Current as the current coil 6 of the main system I and the current coil I8 the same current like the current coil 8 of the main system II, while the - current coil 17 is the negative Sum of the currents in phases R and T, i.e. a current corresponding to the current in phase S. Current leads. The voltage coil I9 of the auxiliary measuring unit I3 is connected to the voltage TS, the voltage coil 20 at the voltage and the coil 21 at SR. Any auxiliary measuring mechanism acts on a special armature that drives a counter.

The armatures have electromagnetic locking devices, so-called Stop relays that release the armature when the excitation is switched off. The magnet windings these relays are designated in sequence with 22 to 24 and with one ends connected to a common star point 25, while the other ends of the Are connected to the phase voltages R, S and T one after the other.

The arrangement works as follows: Are in the undisturbed state the auxiliary measuring units H are all blocked. The consumption is from the main measuring mechanisms I and II of the counter Z counted correctly, namely the active consumption. The measuring mechanisms of the counter Z therefore have an internal adjustment of go ", i.e. that the voltage drive flow of a system of the terminal voltage by go ° plus the Phase shift angle between current and current drive field lags. The auxiliary measuring units H, on the other hand, have an internal comparison of I80 ", so they are like devices for blind consumption matched.

If the converter fuse 10 of phase R blows, then measure the counter Z is no longer correct, as significant changes occur in the voltage circuit. The failure of phase R in the voltage circuit does not affect measuring system II.

So this still works correctly, but the measuring system will 1 disturbed. If phase R is present (FIGS. 3 and 5), the voltage coil is present I of the system I at the RS phase. The associated stress drive flow 00 is vertical to this tension. With ; is the drive flow of the current coil 6, so one of the load current indicated in the phase R proportional size. According to known laws, the torque is of the measuring mechanism 1 is equal to the product of the two drive flows 00 and j and the sine of the angle between the two rivers. If phase R fails in the voltage circuit (Fig. 4 and 6) is now the voltage coil I in series with the choke coil 4 at the voltage TS, namely only half of this voltage acts on the coil I. a, as indicated in Fig. 4 by a strongly drawn arrow. Through this the voltage drive flux of this coil goes over to SKl. l is through the match the choke coil 4 half as large as dio and shifted by 60 ° in phase on the other hand. It is not difficult to see that the meter must therefore measure incorrectly. But now there if phase R fails in the voltage branch, the stop relay 22 of the auxiliary measuring mechanism 13 its armature free, which now sets a counter of this measuring mechanism in motion. the Voltage coil 19 of this measuring mechanism is due to the voltage TS. As mentioned, have the auxiliary measuring units an internal adjustment of I80 ", and as a result- whose the voltage drive flow 02 of the auxiliary measuring unit I3 is parallel to the voltage and is balanced in such a way that the geometric sum of vectors 01 and 02 is accurate yields the vector 00 (as in FIG. 4). As a result, as explained in more detail below is, the counter of the auxiliary measuring mechanism I3 just about the shortfall in the counter of the counterZ continued. The torque of the auxiliary measuring unit I3 and thus be Counter travel is proportional to the current flow J (Fig. 4) multiplied by the voltage flow 02 and the sine of the angle between the two rivers. The one attributable to system I. The torque component, i.e. the component of the totalizer travel of the counter Z, is proportional the product of and # 1 and the sine of the angle between the two flows. There but now the sum of vectors # 1 and 02 = o results in the sums of the counter information of the meter Z and the aid organization I3 the actual consumption.

Completely analogous conditions arise when the fuse I0 for the phase T fails, then the main measuring unit I remains undisturbed, and the main measuring unit II experiences the same malfunction as earlier the measuring mechanism I. The current relay 24 des Auxiliary measuring unit 15 is now its anchor free, and the auxiliary measuring unit 15 counts his counter shows the shortfall caused by incorrect measurement of the main measuring mechanism II.

If the fuse 10 of phase S fails, the situation is which are explained with reference to FIGS. 7 to 10. If the operation is undisturbed For the measuring mechanism I the same conditions as in FIG. h., the Voltage drive flow # 0 is perpendicular to voltage RS. The measuring unit II is on the tension TS, and its instinctual flow IE is perpendicular to it (see Fig. 7). In the event of failure After phase S, the circuit according to FIG. g changes to that of FIG. i.e., the voltage coils I and 3 of the two main measuring units are now only at half the voltage TR. The tension instinct flow of work I is now Aill, the tension instinct flow of the measuring mechanism M 022. But if phase S fails, the stop relay 23 gives the auxiliary measuring mechanism 14 free, the voltage drive flow of which is 014. The vector sum of 01l and 014 results in again the vector o (as in FIG. 7), the vector sum of and 014 the vector 03I. The sum of the load currents flows through the current coil I7 of the auxiliary measuring mechanism 14 Phases R and T, i.e. the load current of phase S, and consequently the counter measures of the aid organization I4 the deficit of the counter of the counter Z.

This process can be represented arithmetically as follows: Az is the information from the counter Z during undisturbed operation, A is the information in the event of phase S failure of the phase R and <pB is the phase lag of the current JR. The same applies to the other phases. In the trouble-free state, the counter Z measures according to known laws. The auxiliary measuring units H are stiU. If phase S fails, the counter measures the auxiliary measuring mechanism 14 Measure both together Az "+ Aws = da # 3s Js cos #S + I JR cos (30 - #R) + I JT cos (30 + #T) = JR cos (30 + #R) + JT cos (30 - #T).

The arrangement described can in the context of the invention in different Way to be modified.

So you can z. B. the voltage coils 19 through the relays 22 to 24 to 21 switch on and off and then does not need to stop the anchor. Further the main and the auxiliary measuring units can be connected to a common via differential gears Let the counter take effect and then save yourself the need to add up the counter information. In addition, the vectors of the voltage drive flows of the aid agencies need 13 to 15 not to have the sizes indicated in FIGS. 4 and 8, but can also be smaller or greater if, for example, the translation between armature and counter is chosen accordingly. One takes for the main and auxiliary measuring systems for same nominal power, but with the difference that it is an active power, the other time it is a reactive power, and you consider that then, for example in FIG. 4 the vector 02 is equal to # 0 in terms of its absolute value, then one gives the Auxiliary # 3 measuring units I3 to 15 a 2 corresponding translation between armature and Counter.

In order to save differential gears, the auxiliary measuring units 13 to 15 act on the same armature as the main measuring units 1 and II, must but then work with switching the voltage coils of the auxiliary measuring units on and off.

This version has the advantage over the previously described ones, that it can also be used with measuring units for delivery and purchase, there the armature of the device with any load and any cos pole always forward rotates as long as the current only comes from one direction.

As FIG. II shows, it is also possible to work with two aid organizations 130, 150 get by if you put the voltage coils I90 and 210 with the choke coil 40 in star and the current relay switches in delta.

This means that if one phase is faulty, the faulty measuring mechanism is exactly half Receives voltage, the symmetry must also be preserved in the current relay. These is achieved by the coil 230 connected to R T.

In the case of I-three-phase, three-wire reactive consumption metering, the main measuring units either an internal adjustment of I80 or 60 ". In the case of the meters with 1800 internal Adjustment must be carried out internally in order to correct the information von go "are therefore normal active consumption meters. Blind consumption meters with 60 ° internal adjustment can be done with auxiliary measuring units with I50 (internal adjustment correct. The number of auxiliary measuring units required is the same as for active consumption metering, so 3 or 2.

The one that comes into question for three-phase four-wire active consumption metering The circuit is shown in FIG. 2, which probably does not require any special explanation. She corresponds essentially the circuit of FIG. 1.

The counter Z has three main measuring units I to III, their voltage coils are connected in star via a voltage transformer set II. The circuits for the auxiliary measuring units I3 to Ig are the same as in Fig. I, only with the difference that the current coil 17 of the aid organization 14 is now directly connected to a third, in of the phase 5 lying current transformer 121 as well as the current coil 8 of the measuring mechanism II is connected.

When fuse 10 of phase R blows, the voltage drops for the main measuring unit I. So the entire tension instinct disappears.

The auxiliary measuring unit takes the place of the main measuring unit I at the voltage TS perpendicular to the voltage RO, but deviating by go °, so has 180 ° inner balance. It is again in relation to the meter measuring path so balanced with his tension instinct that this instinct is equal to that of the Main system I is in undisturbed operation. The same applies if the Phase S or T. You can also use this again if you switch on the voltage coils the auxiliary measuring works, all systems act on the same armature. So that the arrangement is also in the event of an interruption in a voltage coil of the main measuring mechanism works properly, the current relays 22 to 24 on secondary windings can in Fig. 2 the corresponding voltage coils of the main measuring units I to III must be connected.

Used for metering reactive consumption in a three-phase four-wire system Blind consumption meters with 1800 internal balancing are used, the auxiliary measuring units must 90 "have internal balancing, i.e. consist of normal active consumption measuring units. But if the main measuring units have go ° adjustment (artificial switching), the auxiliary measuring units must Have I80 ° adjustment and the current relays are connected to the delta voltages.

In the event of a fault, two or all three voltage transformer fuses burn through, you can keep a second set of voltage transformers in reserve, which through known means is automatically switched on in place of the first transducer set, as soon as more than one fuse blows on the first set of converters.

Of course, the method can also be used for bogus consumption counting to which the measuring paths of an active and reactive consumption measurement record are added geometrically or the apparent consumption is derived from these measurement paths in another known way, be applied.

Claims (6)

PATENT CLAIMS I. Apparatus for correct metering of electricity consumption with three-phase current meter sets in the event of faults in one of their voltage circuits by means of a Auxiliary measuring mechanism set, characterized by a device that responds in the event of a malfunction to make at least one of the auxiliary measuring units effective and by such an adjustment of the voltage drive flow acting on the auxiliary measuring mechanism in question, that, based on the counter path, the vector of this flow that for the disturbed main measuring mechanism remaining vector remainder of the voltage drive flow to that in the trouble-free operation existing vector of the voltage drive flow of this main measuring mechanism supplemented, whereby the current coil of the auxiliary measuring mechanism carries the load current that of the disturbed Phase of the voltage circuit. 2. Device for three-wire systems according to claim I, characterized in that that the voltage coils of the two main measuring units form a delta connection a throttle are added, such an adjustment that the throttle together with approximately auxiliary devices lying in parallel have the same impedance as a voltage coil. 3. Apparatus according to claim I and 2, characterized in that the internal adjustments of the two measuring mechanism sets differ by 900 from each other. 4. Apparatus according to claim I and 2, characterized in that the auxiliary measuring units and the main measuring units with a common counter in operative connection stand. 5. Apparatus according to claim I, 2 and 4, characterized in that that the auxiliary and main measuring units have a common anchor and the auxiliary measuring units can be made effective in the event of a fault by switching on the voltage coil. 6. Apparatus according to claim I and 2, characterized in that the devices for making the auxiliary measuring units effective on the secondary windings of the Voltage coils of the main measuring units are connected.