DE10231306A1 - Electro mechanical electricity meter for small consumers has two part phase and neutral coil giving correct combined magnetic field - Google Patents

Abstract

A meter has voltage (2) and current (3) coils with a two part coil comprising phase current coil (5a) and an additional coil (5b) fed with a neutral current (In) by a neutral conductor so as to give the correct resultant field for metering and has a counter (14) with one directional ratchet.

Description

The invention is in the field of meter technology assigned. It relates to a Ferrari counter with a circuit arrangement to protect against faulty or manipulated wiring according to the generic term of claim 1.

Technological background and state of the art

In known Ferraris counters with correct wiring and regular operation due to a electrical mains voltage and an electrical consumption current a rotor disc assembly driven, which drives a counter therein. Prerequisite for this are the correctly connected consumers, their total consumption current also determines the rotational speed of the rotor disk assembly.

Be fraudulent manipulation For example, consumers connected in such a way that the they flow consumer current only partially or not at all for the Drive the rotor disc assembly is effective. Other cases of fraud can even to the standstill of the counter used to lead.

Next to the Ferrari meters are Static or electronic meters are also widely used today. The further development the static electricity meter carries along Look at a greatly expanded functionality and improved economy even increasingly becoming a replacement the mechanical Ferrari counter.

Nevertheless, Ferrari meters are - at least in the medium term - the most economical and most reliable solution for energy measurement for small customers, so that a legitimate interest in one if possible there is fraud-proof energy measurement using Ferrari meters; because all honest Consumers want that other users also for their related share of electricity.

In connection with Ferrari meters are for the purpose Protection against misuse also known as unidirectional counters when used properly and even with fraudulent ones as well as unprofessional wiring the total energy consumed can add up; however, these unidirectional counters are also ineffective when the consumer current path bridges the measuring mechanism.

presentation the invention

It is therefore an object of the invention a Ferrari counter Continuing to be a fraudulent or unprofessional external wiring of himself to an easily recognizable, significant consumption variance does not lead to a serious one Errors in acquisition of related energy for the energy supplier.

According to the invention, this object is achieved by the features of claim 1. The essence of the invention is therein see that a Ferrari counter equipped with a circuit arrangement for detecting power theft is. This circuit arrangement primarily includes a current element a current core on which a coil arrangement is provided with which is both the current in the phase and the current in a neutral is detected, and both - the Phase current and the neutral current - on the drive of a rotor disc arrangement of the Ferrari counter Influence.

Of particular advantage of the circuit arrangement according to the invention is that a so-called crossing of the supply lines at the meter and connection from consumers to earth instead of neutral to one Standstill of a counter driven by a rotor arrangement of the counter to lead can. The deviation resulting from crossing the supply lines on the meter the amount of energy obtained is so serious that the recognition incorrect or fraudulent wiring easily possible is.

Advantageous embodiments of the Invention provide the coil for the phase current and the coil for the neutral conductor current with the same or different number of turns perform.

With identical number of turns and add in correct operation the magnetic fields of the phase current and the neutral current to a total magnetic field that correctly drives the rotor disc arrangement. However, is the coil for the phase current or that for incorrectly bridged the neutral current, so breaks the ad for wrongly using energy by half one with the same energy consumption.

at different Number of turns and correct operation compensated with advantage the magnetic field of the phase current coil or the neutral conductor current coil at least partially the magnetic field of the neutral conductor current coil or the phase current coil, with a resulting magnetic field correct drive of the rotor disc arrangement results. In case of an error or: case of fraud, namely when bridging the phase current coil or the neutral conductor current coil, the rotor disc arrangement around a lot faster forward driven or simply reverse; this Enable fraud results then also the simple detection of a manipulation.

The combined use is particularly advantageous of a unidirectional counter with an inventive Circuitry. This unidirectional counter is in any case in the Able to add up energy reference positively, even if fraudulent Intentional crossing of the supply lines on the meter has taken place. in the Extreme becomes the fraudulent Energy consumption even registered and displayed in multiples.

Further advantageous configurations are Subject of dependent claims 2 to 9.

Short presentation the drawing

In the drawing, an embodiment of the Invention shown simplified. It shows:

1 a three-dimensional representation of a rotor disk arrangement of a Ferrari counter with the circuit arrangement according to the invention;

2 a circuit diagram of the circuit arrangement, and

3 another representation of the circuit arrangement,

The invention is explained below of the drawing discussed in detail. It should be noted that the invention is in no way based on the representation is to be reduced in this drawing. In particular, it should be emphasized that the designation and arrangement of the terminals and the arrangement the turns on one or more legs, in separate or in common bobbins in no way deviates from the essence of the invention and thus any other Training is conceivable

detailed Description of the invention

1 shows a perspective view of a rotor disc assembly 11 of a Ferrari counter, not shown, wherein this rotor disc assembly 11 a counter 10 drives V depending on related energy units of an electrical consumer. The rotor disc assembly 11 itself is driven. by the magnetic action of a so-called tension element 2 in connection with a current element 3 , A brake magnet brakes in the usual way 6 the rotor disc assembly 11 ,

The tension element 2 includes a voltage core 7 with a voltage coil, and the current element 3 consists of a current core 4 with a current coil arrangement arranged on it 5 , This current coil arrangement 5 is made up of two windings, namely a well-known phase current coil 5a and an additional neutral conductor coil 5b ,

The phase current coil 5a is traversed by a phase current I _{L of} the phase conductor L. A neutral current I _N flows through the neutral current coil 5a and through the neutral conductor N. In normal operation, the phase current I _{L is} equal to the neutral conductor current I _N , namely when an electrical energy source G feeds the consumer v and the Ferrari counter is correctly connected for reference acquisition. The phase voltage U necessary for the operation of the Ferrari counter is present between the phase conductor L and the neutral conductor N. With 1 is in 1 The circuit arrangement according to the invention referred to below with a view to 2 and 3 Will be the subject of further discussion.

The 2 shows an inventive circuit arrangement 1 with the phase terminals K1, K3 and the neutral conductor terminals K4, K6. From an example in 1 Energy source G shown flows the phase current I _L via the phase clamp K1 to the coil arrangement 5 , creates the magnetic field here 8th of the phase current I _L and flows via the phase clamp K3 to the consumer V.

The previous phase current I _L then flows from this consumer V as the neutral conductor current I _N via the neutral conductor terminal K6 to the coil arrangement 5 , creates the magnetic field here 9 of the neutral conductor current I _N and flows off again via the neutral conductor terminal K4. The voltage measurement is carried out via the phase clamp K1. and the neutral conductor terminal K4.

The 3 also shows a circuit arrangement according to the invention 1 how they already work in 2 was shown; the only difference is the wiring for the voltage measurement, which takes place here via the phase terminal K1 and the neutral conductor terminal K6.

Based on three. different winding variants for the circuit arrangement 1 the mode of operation according to the invention is now discussed:
Circuit arrangement with winding variant A

In this embodiment variant, the phase current coil has 5a the same number of turns as the neutral conductor coil 5b and both coil windings complement each other in their magnetic effect on the rotor disk arrangement 11 ,

When shading is correct, the two magnetic fields complement each other 8th and 9 of the phase current I _L or the neutral current I _N and drive the rotor disk arrangement 11 correctly according to the consumption. In this case, the phase current I _L is the same as the neutral conductor current I _N.

Faulty shading would make a significant difference Have an impact on the energy supply, which is a direct reduction by about 50% and would therefore be easily recognizable. Such an incorrect connection could for example in bridging the two phase terminals K1, K3 or the two neutral conductor terminals K4, Represent K6. Another incorrect connection could provide the consumer V to operate against earth. In any case, the counter shows defective shading an energy consumption halved on average, which is thus identifiable.

Circuit arrangement with winding variant B In a winding variant B, for example, the phase current coil is provided 5a to be provided with twice the number of turns (+2) as the number of turns of the neutral conductor current coil 5b ; if then the winding sense of the two coils 5a and 5b to opposite magnetic field direction with respect to the rotor disc arrangement 11 leads to a turns ratio of +2 to -1.

If the meter and the consumer V are connected correctly, a simple sum magnetic field (+1) results from the magnetic field 8th (+2) of the phase current I _L and the magnetic field 9 (-1) of the neutral current I _N , since the phase current I _{L is the} same as the neutral current I _N.

However, if there is a faulty connection, for example when the consumer V is operating against earth or the neutral conductor terminals K4 and K6 are bridged, the neutral conductor coil will 5b not flowed through and the magnetic field 8th (+2} of the phase current I _L drives the rotor disk arrangement 11 with a roughly twice the size. Magnetic field on as usual. This manipulation is therefore easy to identify.

A manipulated circuit in which the. Phase terminals K1 and K3 would be bridged. In this case, only the magnetic field 9 (-1) of the neutral current I _N for driving the rotor disk arrangement 11 be concerned with what a bidirectional counter 10 would run backwards and show the manipulation. The use of a unidirectional counter 10 would advantageously add up the energy consumption and the manipulation would only result from the wrong direction of rotation of the rotor disk arrangement 11 reveal.

Circuit arrangement with winding variant C In a winding variant C it is provided that the neutral conductor coil 5b with twice the number of turns (+2) compared to the phase current coil 5a is provided. In addition, an opposite magnetic field direction is also provided here, in that the winding direction of the two coils Sa and 5b leads to the opposite magnetic field direction with respect to the rotor disk arrangement 11

leads; there is thus a turn ratio between the phase current coil 5a to neutral tram coil 5b from -1 to +2.

If the circuit is manipulated to operate the load against earth or the neutral terminals K4 and K6 are bridged, only the magnetic field drives 8th (-1) of the phase current I _L the rotor disk arrangement 11 just backwards on. Here too - as already explained in the case of winding arrangement B - a unidirectional counter helps 10 add up the energy reference, whereas the rotor disc arrangement 11 runs in the wrong reverse direction. Detecting this condition is therefore easy.

In the event of bridging the phase clamps K1 and K3, the Rator disc arrangement would 11 driven with a magnetic field about twice as large as usual. This manipulation is therefore also easily identifiable.

Without leaving the idea of the invention any conceivable winding variant for the circuit arrangement possible to any manipulation when connecting a Ferrari counter as simple as possible Let it be recognized. In this sense, the three winding variants shown are To understand A, B and C., who are professionally trained according to the requirements of the claims can be without being self-limiting act on the essence of the invention.

1

circuitry

2

voltage element

3

current element

4

Stromkern with current coil arrangement

5

Current coil arrangement

5a

Kitchen sink for phase current

5b

Kitchen sink for neutral current

6

brake magnet

7

voltage core with voltage coil

8th

magnetic field of the phase current

9

magnetic field of the neutral current

10

counter

11

rotor disc

K1, K3

phase terminals

K4, K6

current terminals neutral

U

phase voltage

V

electrical consumer

I _L

phase current

I _N

Neutral current

N

neutral

L

phase conductor

G

electrical energy

Claims (9)

Ferrari counter with a circuit arrangement ( 1 ) to protect against faulty or manipulated wiring, which has a voltage element as a single-phase counter ( 2 ) and a current element ( 3 ), the current element ( 3 ) a current core ( 4 ? and a coil arrangement arranged thereon ( 5 ) and wherein a first coil ( 5a ) this coil arrangement ( 5 ) is traversed by a phase current (I _L ) to be measured, characterized in that the coil arrangement ( 5 ) of the current element ( 3 ) in addition to the first coil ( 5a ) a second coil ( 5b ), which is traversed by a neutral current (I _N ) of a neutral (N). Ferrari counter according to claim 1, characterized in that in normal operation the neutral current (I _N ) is equal to the phase current (I _L ), both being coupled via an electrical load (V) to be measured. Ferrari counter according to claim 1 or 2 , characterized in that the first coil ( 5a ) and the second coil ( 5b ) have the same number of turns. Ferrari counter according to claim 1 or 2, characterized in that the first coil ( 5a ) and the second coil ( 5b ) have an unequal number of turns. Ferrari counter according to claim 4, characterized ge indicates that the first coil ( 5a ) for the phase current (I _L ) has twice the number of turns compared to the number of turns of the second coil ( 5b ) for the neutral current (I _N ). Ferrari counter according to claim 4, characterized in that the second coil ( 5b ) for the neutral conductor current (I _N ) has twice the number of turns compared to the number of turns of the first sink ( 5a ) for the phase current {I _L ). Ferrari counter according to one of the preceding claims, characterized in that the first coil ( 5a ) and the second coil ( 5b ) at the current core ( 4 ) are arranged so that the magnetic fields generated by the phase current (I _L ) and the neutral conductor current (I _N ) { 8th . 9 ) are aligned in parallel and complement each other. Ferrari counter according to one of Claims 1 to 6, characterized in that the first coil ( 5a ) and the second coil ( 5b ) at the current core ( 3 ) are arranged so that the magnetic fields generated by the phase current (I _L ) and the neutral conductor current (I _N ) ( 8th . 9 ) run antiparallel and decrease. Ferrari counter according to one of the preceding claims, characterized in that it has a counter ( 14 ) with unidirectional upward direction.