DE458977C - Control device for three-phase current meters in general and for meter units in high-voltage systems in particular - Google Patents

Description

Control device for three-phase electricity meters in general and for meter aggregates in high-voltage systems in particular. The invention primarily enables one Easily carried out control of the measuring elements of three-phase meters in low and high voltage systems without using any tools. Furthermore, with this facility in connection with the built-in counters, also without the use of measuring instruments, determine the power factor of the relevant engine system in a simple manner, prove the presence of leading or lagging electricity in replacement companies as well as the line connections in high-voltage measuring units for their correctness check.

The determination of these functions is carried out by checking One behind the other or switching the voltage coils of the affected person Counter and the changes in the armature revolutions resulting therefrom.

`It is therefore not a device for the calibration of Counters, for which control instruments or calibration counters are always required, but a control device to check the condition of the measuring elements, such as current and voltage coils of the counters themselves and the transducers, the measuring sensors together their connecting lines, and, as mentioned at the beginning, to a device with which certain current conditions can be determined or verified.

As is well known, three-phase meters maintain their measuring accuracy for many years, unless there are defects in their coils. On the other hand, have three-phase meters always two or more coil systems that work independently of each other, so that In the event of a one-sided coil defect, the meter unfortunately does not come to a standstill, whereby such errors remain hidden from the outside; for meter units in However, there are still sources of error in the accessories for high-voltage systems which of course can also cause a wrong count. Such defects on low-voltage meters one can discover by checking with measuring instruments which requires a relatively frequent and time-consuming test, yes this test fails on meters that only receive secondary current via transducers.

In your essay by F r e y e r in the electrical engineering magazine from t. and B. February 1923 this latter fact is rightly pointed out. What was said on page 97 in paragraph 3 of the introduction expresses that the many Practiced testing of the meter in the secondary circuit of the measuring unit is absolutely not flawless Control of the entire measuring arrangement gives, but that in the case of wrong connections between the converters and counters the comparison instruments are also the same Incorrect switching received like the meter to be tested. What about the wrong connections is said, of course also applies to any existing defects in the various Organs, such as electricity and Voltage coils of the transducers, measuring fuses including their connecting lines. Their influence extends as a false measurement as well on counters such as control instruments; this control is therefore misleading for existing ones Errors only a correctness of the counter.

The meter industry therefore endeavored to uncover certain Defects in the measuring elements due to so-called malfunction indicators or error reporting devices to achieve the costly re-calibration of the meter on the spot to a minimum.

However, the previously known devices of this type capture only one or the other organs, or they consist of comparatively complicated ones Elements such as relays, coils, even special transducers, so that their costs prevent the desired spread.

The present control device, however, consists of only simple ones Elements, so-called cable bridges and contactors. Their function extends on all measuring organs of the counters and counter aggregates with simultaneous influence the meter in question itself, which in turn has changed due to its behavior Provides information about the state of the organs controlled; as a further innovation is how to use this facility to make the above determinations of the power factor leading or lagging current etc. Latter So far, findings have also only been made through cumbersome interposition accomplished by measuring instruments. The present invention allows a safe Testing without disturbing the company in question and has because of its simplicity and value for money also have significant economic advantages.

In the drawing is the contact device for measuring units for high-voltage systems, in which all measuring organs are to be checked, illustrated. For this Purposes are the establishment of a. small box-like apparatus that locally can sit separately from the measuring instruments or counters, and over which only the three voltage phases are carried out. Fig. R shows the in the open state lockable apparatus a, in which three resilient bridge contacts b built are, Fig. z in longitudinal section with the inserted hand pen c.

The medium voltage line (in the sense of the two watt meter circuit) is over the middle bridge, the outer tension lines are over the outer bridges guided. Except for these three normally closed contacts. those introduced by pressing down by means of Hand pins c can be opened, the two outer bridges are still attached Kontaktd opposite, the connection with the opposite external voltage terminals have and by pressing the opened bridges deeper now in contact come. This means that the voltage coils of the two drive systems are switched over of the counter.

So that the respective state can be maintained in persistence, are the hand pins c are provided with notches, the rest point below the cover plate e Find. On the other hand, the lockable lid (which of course also seals can be) the removal of the hand pens or unauthorized intervention.

Fig.3 shows the circuit diagram of this apparatus a in connection with the Counter aggregate. The control options mentioned are explained in more detail here, A distinction must be made as to whether it is a low-voltage meter for luminous flux with any load, including those for motor current with the same phase load or high-voltage connections, mainly for drawing power.

In general, there are seldom errors in the counter's current coils before, so that with the counters for low voltage one can probably rely on a control of the current coils could do without; on the other hand, the low-voltage meter is also connected to the voltage coils, Especially in overland networks, very often interruptions due to overvoltages and lightning damage on. In high voltage measuring units, on the other hand, there is a control option of the current converter including the current coils in the meters and their connecting cables almost more important than checking the voltage circuits. Because is the test of the voltage converter including their measuring fuses by means of a voltmeter or test lamp proportionately easy to accomplish, unfortunately you have a similarly convenient test option for the Stromwandlerkreis.se not yet had, all the less so as one during during operation, do not open these circuits for any measurements allowed. - Should a test in high-voltage systems not remain incomplete, so it must be able to extend to all individual organs of the measuring device.

According to the importance, the control options are first of the described apparatus in measuring units for high-voltage systems with equal or almost equally loaded three-phase system. The ones in the evidence contained Expressions such as standstill, <and 50 0 '' "# <, are so zti understand that if the three phases are not completely identical, @ - libciastung of the three phases as well ,. almost to a standstill, <and: approximately 50 o t), read. can be.

i. In intact measuring elements which must open the medium-voltage bridge a down counter fief of revolutions to 5o 00 time and further the sequential ttrfnen the Aul) enspatinungsbrücken the sum of the initial revolutions in the same unit time yield. Any other result points to the defect of any organ, be it one of the voltage or current transformers, high or low voltage side, be it one of the current or voltage coils in the meter, a defective measuring fuse or line break, interruptions or bridging. conclude. It should also be mentioned that the control apparatus can also be used to isolate any errors and thus make it easier to find them. The actual purpose, however, is the detection of a defect that has occurred during the monthly reading of the meter by less trained personnel. _. Determination of the power factor of the system. For this one also uses the two; External voltage bridges. The two drive systems in the meter relate to each other for every y power factor just like the two wattmeters in Aron's circuit. With cos rp - i, o, both systems develop equally high torques, but with phase shift they are quite different. While the torque of one system steadily decreases with increasing phase shift, in order to become equal to zero at cos rp = 0.5 and increasingly negative below 0.5, the torque of the other initially increases slightly, reaching the original value at cos yo.5 , is then less than 0.5.

By alternately opening the outer bridges of the apparatus with simultaneous counting of the armature rotation - you can use the well-known formula: Immediately determine the respective power factor of the An-Jage (the revolutions are of course to be converted to the same seconds; time). With cos rp - 0.5, the "counter" would of course come to a standstill when one bridge was opened cos <p = 0.5, and if cos g is less than 0.5, the counter armature would run partly forwards and partly backwards during this test. Of course, the sign f -) must be taken into account for the last appearance. With cos fp = i, o, the same high armature revolutions can of course be determined.

;. Detection of leading or lagging current.

The handling and calculation is the same as under z, only must be operationally known which of the: the drive systems for inductive or capacitive load the smaller and larger torque or after opening the bridge gives rise to the lower and higher anchoring efforts. With inductive Power supply is namely one drive system the other in terms of torque predominate, but vice versa with capacitive power delivery.

Checking of executed counter circuits; gen .. As already mentioned at the beginning, If a few rules are observed, testing or switching is also possible, namely by interchanging the external voltage lines on a trial basis. For this purpose, the mating contacts are located under the external bridges in the control device intended. This one. Contacts with the opposite leads connection a switchover takes place by pressing down the bridges more strongly. Are the transducers properly connected to the high voltage, and one has makes sure that the meter's medium-voltage terminal has no voltage to earth leads, d. H. whose connection has also been carried out in accordance with regulations, one must be in operation existing meter, which is correctly connected in all parts, according to your trial Interchanging the external voltages, d. H. by pressing down the bridges at the same time, come to a standstill immediately. If a standstill does not occur, then there is something Switching error. One can take into account the deviating behavior of the counter also draw conclusions about the present error.

All the control measures discussed are also valid for the performance indicators and all other instructors following the Aron's Circuit are constructed under the same conditions. Also be special here noticed that these control measures did not suit me when using single-phase voltage wall-Iern can be carried out, but also when using three-phase converters, in those by the interlinking of the alternating fields, even on the high-voltage side Interruption of a phase, still in all three low voltage coils Tensions are developed.

For low-voltage meters, the design of the control apparatus can be as follows be carried out so that the main lines are routed through the apparatus and the voltage connections for meters in the device. Separate ones lead from the contact bridges thin cables to the voltage terminals of the meter, of which of course the connecting webs to the main connection terminals must be removed beforehand. However, there on low-voltage meters both switching errors and defects in the power coils hardly occur, the control So with these meters you only need to b, eschi, änken on the voltage coils, the control switch boxes described could be omitted entirely and bridge contacts instead to be provided on the cable connection terminals of the meter itself.

It is sufficient to check the voltage coils in three-wire meters a single bridge contact in the voltage branch of the middle power terminal must lie. If the meter is loaded, it does not matter whether it is induction-free or inductive, equal or unequal in the phases, each time the anchor is intact Voltage coils change the number of revolutions when the bridge is opened or if there is a defective one The voltage coil comes to a standstill immediately.

However, if the power factor is to be determined in motor systems (low voltage) these three-wire meters, except with the central conductor bridge, still have to be be provided with a second bridge on one of the outer conductor terminals.

With four-wire meters, all three voltage branches are via contact bridges and when checking the casting speed change of the anchor must be taken into account, as the defective individual coil does not stop the counter can occur.

Claims (1)

PATENT ANSPRUCII Control device for three-phase electricity meters in general and for meter units in high-voltage systems in particular to determine the The condition of the current and voltage coils, the measuring fuses and connecting lines, to determine the performance factors in motorized systems and to provide evidence of or lagging current in exchange operations from the changes in the anchor movements the loaded counters, which are checked by switching off, one after the other or switching over of the voltage coils, characterized in that instead of the at the terminals the meter otherwise-used rigid shunt bridges or in the voltage lines resilient bridge contacts are attached, which are safe during operation can be opened or toggled.