DE3712190A1 - Electrical transformer - Google Patents

Abstract

An electrical transformer for measuring current in systems for power distribution and power transmission, in which an electric conductor (12, 50) which is at high-voltage potential and possibly a metal encapsulation are provided, has a transformer (15, 52) as measurement value pickup followed by a measuring unit (14, 51). The measurement value pickup (15, 52) and the downstream measuring unit (14, 51) are at the same high-voltage potential as the electrical conductor and are spatially associated with the latter. The measurement value pickup is constructed in accordance with the transformer principle and has no high-voltage insulation. The measurement value pickup is preferably constructed as a flat tape in the form of a Rogowski coil which fits tightly around the outside of the conductor, the current of which is to be measured. The electrical transformer is used in high-voltage systems, particularly in high-voltage switch gear, and has the advantage that it only requires a small amount of space. <IMAGE>

Description

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

Current transformers for high voltage systems are used to current flowing at high voltage potential into one this amount-proportional and in-phase second to transform därstrom at low potential. The stream So in general, converter has the task of one measuring mains current into a measuring current for feeding Transform measuring and protective devices. For Air-insulated high-voltage systems become current transformers usually as a top current transformer or as a boiler current converter implemented (see BBC publication no. CH-A 0 60 412 D). When installed in gas-insulated switchgear Current transformers are transformers in a head current Always use converters of comparable design det.

Characteristic of the current transformers known today for High-voltage systems in the open-air version is a be particularly high effort for the isolation between the Secondary winding as well as the potential if the core sheet is at earth potential on the one hand and the primary winding, which is at high voltage potential on the other hand. Besides that for the space required for insulation is the size today  known current transformer also determined by the Cross section of the core, that of the required output performance of the converter must be adapted. With electricity transducers for outdoor systems is an essential construction Part also look at the hollow insulator, which in addition to the Voltage insulation to the outside has the task of one Part of the isolation of the secondary turn from high absorb voltage and mechanical load functions take over.

This takes place for converters in gas-insulated switchgear Insulation between the live conductor at high voltage potential on the one hand and that on earth potential located converter core and the secondary turn other on the one hand through the gas route in between. For space reasons, this gas route must be very high be used with the appropriate cone sequences regarding the manufacturing quality etc. In addition also require high secondary powers of the converter Correspondingly large core cross-sections and thus sizes with the corresponding cost consequences for the wall himself as well as the converter housing.

Based on this state of the art, it is a task the invention, a converter of the type mentioned to create, which is cheaper to manufacture, its construction is simpler, and its space requirement is lower.

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

Further advantageous embodiments of the invention are can be found in the subclaims.  

The advantage of the converter according to the invention is in particular to see that the need in known converters manoeuvrable expenses for electrical insulation omitted. The fact that the converter element guided transducers and the downstream measuring are arranged at high voltage potential, do not need insulation of these elements against high potential to occur. It is only with the Fiber optic lines that act as data lines and as utilities supply line, the potential difference between Isolate high voltage and earth. This insulation is with little effort and without technical difficulties constructively feasible. Are those from the measuring unit data supplied however directly on high voltage potential further processed, as for example in the older parallel application P 37 10 082.3 described this insulation is not necessary either.

As a result of the low dielectric stress on the Transducer element, this can advantageously be used as Fo lienband manufacture, in which inexpensive by Be vaporize films with conductive segments and ent speaking arrangement, a pick-up coil is formed around the high voltage conductor whose current is measured should be arranged concentrically. The sensitivity this pick-up coil can advantageously be simple way by inserting an iron strip into the Foil arrangement can be increased.

The reshaping and, if necessary, evaluation is advantageously performed of the signal supplied by the transducer element and the Conversion into optical data signals for the transmission of High voltage potential to earth potential within one  measuring unit arranged in the field-free space of the conductor, so that advantageous electromagnetic interference pulses Measurement result without or with only a few more Do not distort shielding measures. The fault The optical security also serves advantageously Data transmission over fiber optic cables in the field bean spoken and thus fault-sensitive room.

Can be advantageous to operate the on high chip Potential elements of the erfindungsge low energy either directly obtain from the transducer element or as a Lichtener from ground potential via a fiber optic cable Transport high voltage potential.

Since the performance of the pickup coil of the invention Converter is low, must be provided for Measuring and protection purposes generally required height A power amplifier is provided for the higher output power hen be advantageous in the be on earth potential sensitive evaluation unit is integrated. It leaves a circuit according to the older Pa Realize registration P 36 34 221.1, the one ko most economical construction of a converter of high accuracy and great performance. Can also be advantageous the evaluation unit located at earth potential is liable designed as a central unit for several converters will.

In outdoor current transformers can with the Invention modern execution advantageous a very inexpensive Realize construction in which the converter is practically in an existing conductor is integrated and only one lightweight insulation for outdoor insulation strand, the fiber optic cables for the measured value over carrying and the operating energy supply contains, as well  need an evaluation unit at earth potential be done. The insulation string can be advantageous because of its light weight at the high-voltage line ter can be appended, and it can be advantageous, for example be made of plastic, in one single manufacturing process integrates the glass fibers and the insulating caps are manufactured to extend the creepage distance will.

Using the drawings, in which exemplary embodiments of the invention are intended to be the invention as well as further advantageous refinements and improvements rations are explained and described in more detail.

It shows:

Fig. 1 is a gas-insulated high-voltage switchgear, partly in section, with in electrical transducer system untergebrach

Figs. 2 and 3, an embodiment of a coil in two un terschiedlichen processing arrangements,

Fig. 4 is a sectional view of a high potential electrical conductor with a coil arranged around it, and

Fig. 5 is a schematic representation of an outdoor switchgear with a further embodiment of the electrical converter.

An electrical high-voltage system 10 has a metal encapsulation 11 and a guided therein, at high voltage potential electrical conductor 12 which is encapsulated within the metal potential 11 at ground potential by means of a support insulator 13 and is electrically insulated therefrom. The conductor 12 (hereinafter referred to as the high-voltage conductor) is a waveguide, the inside diameter of which is selected so that an electrical measuring unit 14 can be accommodated therein. Around the high-voltage conductor 12 around a transducer 15 is arranged coaxially, which is designed in the form of a Rogow ski coil. The transducer 15 is connected via electrical supply lines 16 integrated with the MESSEIN 14 is connected, and the 14 th erzeug from the measuring unit, the signals corresponding data generated by the transducer 15 are an evaluation unit 17 fed by a fiber optic cable consisting of 18th The high-voltage conductor 12 has a through hole 9 through which the glass fiber 18 , hereinafter referred to as data line, and another glass fiber line 19 , hereinafter called ge supply line, are introduced into the interior of the conductor 12 . At a distance from the through hole 9 , the conductor 12 has a further through hole 20 through which the guide lines 16 are guided. The two lines 18 and 19 are in the interior of the disk isolator from high voltage potential to earth potential. The metal encapsulation 11 has a through hole 21 in which a bushing element 22 is housed, through which the data line 18 and the supply line 19 are passed; the bushing element 22 serves essentially for sealing the interior of the metal encapsulation 11 .

The supply line 19 is a glass fiber line, and light is fed via this to the measuring unit 14 , in which there is a light-sensitive cell, not shown, in which the light energy is converted into electrical energy for the measuring unit 14 .

Figs. 2 and 3 show a coil 15 in two difference current machining assemblies. On a film 23 are slightly inclined, parallel, parallel conductor segments 24 are evaporated, which are assigned to each other so that when the film 23 is folded along an axis LL, i.e. along its longitudinal center line, the ends of the individual NEN each adjacent conductor segments touch, whereby, as shown in Fig. 3, an electrical coil is formed.

The arrangement of a coil 23/24 constructed from folded film 23 around the conductor 12 is shown in FIG. 4 Darge. An insulating tubular film 25 , which surrounds an iron strip 26 , is inserted between the upper layer 23 ₁ and the lower layer 23 _{2 of} the folded film 23 . The unit from the iron strip 26 and the tubular film 25 is then inserted between the folds 23 ₁ and 23 ₂, whereby the inductance of the Spu le 23/24 is increased.

Fig. 5 shows a further embodiment of the inven tion, in particular the application of the invention in an outdoor switchgear. An electronic measuring unit 51 , which essentially corresponds to the measuring unit 14, is inserted in a tubular conductor 50 . A coil 52 is placed around the conductor 50 , which corresponds to the coil 23/24 of FIG. 4 and 15 of FIG. 1. The coil 52 is connected to the measuring unit 51 via a connecting line 53 . Via a data line 54 , which is formed from glass fiber and is carried out by an insulator 55 , the data generated by the measuring unit, the measuring signals of the coil 52 corresponding data are passed to a processing unit 56 , which in turn is formed via a supply line 57 formed as a glass fiber line light energy of the measuring unit 51 supplies that light energy inside the MESSEIN integral is converted into electric current 51st The Iso lator 55 has no mechanical support or Halteaufga ben, but should only ensure the electrical strength along the fiber optic cables 54 , 57 from high voltage potential to earth potential through the creep path extension achieved due to the cap shape. The free air insulator 55 can therefore advantageously be cast from plastic, for example silicone plastic, the glass fiber lines or the supply or data lines 57 and 54 being cast in during the manufacturing process. Due to the lack of mechanical requirements, the insulator 55 can be formed with a small diameter.

Claims (11)

1. Electrical converter for current measurement in systems for energy distribution and energy transmission, with an electrical conductor ( 12 , 50 ) at high voltage potential, with a converter element ( 15 , 52 ) as a measured value sensor and a measuring unit connected downstream ( 14 , 51 ), characterized in that that the measured value sensor and the measuring unit connected behind it are at the same high voltage potential as the electrical conductor and are spatially assigned to it, and that the measured value sensor is constructed according to the transformer principle and has no high-voltage insulation. 2. Electrical converter according to claim 1, characterized characterized in that the sensor is a flat ribbon-formed coil (Rogowski coil), the outside around the conductor whose current is measured should be arranged tightly around.   3. Electrical converter according to claim 2, characterized in that the coil formed as a flat band from a folded film ( 23 ) or from two superimposed film halves, the lengths of which are adapted to the circumference of the conductor, which are electrically isolating, and on which are obliquely vapor-deposited or placed on electrically conductive segments ( 24 ) are applied in such a way that an electrical coil is produced by folding the film or by placing the film halves on top of one another and inserting an insulating intermediate layer ( 25 ). 4. An electrical converter according to one of the preceding claims, characterized in that the insulating intermediate layer inserted between the upper and lower layers of the spool formed as a flat strip contains a flat iron strip ( 26 ). 5. Electrical converter according to one of the previous An sayings, characterized in that the measuring unit with Measured value converter and, if necessary, additional ones for the measured values version, the processing of measured values and the transfer of measured values necessary equipment also on high voltage potential in the interior of the hollow conductor are arranged spatially close to the transducer. 6. Electrical converter according to one of the previous An sayings, characterized in that the operation of the Energy required by the transducer always delivered itself. 7. Electrical converter according to one of the preceding claims, characterized in that the energy required to operate the converter is transmitted as light energy via an electrically insulating light guide section ( 19 , 57 ) (supply line) or directly (free light beam) from earth potential to high voltage potential and is delivered. 8. An electrical converter according to one of the preceding claims, characterized in that the transmission of the measurement data from the devices of the converter located at high voltage potential to earth potential takes place via an optical path designed as a light guide ( 18 , 54 ). 9. Electrical converter according to one of the preceding claims, characterized in that the light guide for the transmission of the measurement data and for the transmission of the energy required to operate the converter inside an insulator ( 13 , 55 ), which is between the high-voltage conductor and Earth potential is angeord net, are continuously passed. 10. An electrical converter according to one of the preceding claims, characterized in that the measurement data optically transmitted from high voltage potential to earth potential are further processed in a processing unit located at earth potential ( 17 , 56 ). 11. Electrical converter according to one of the previous Claims, characterized in that the on earth pots tial processing unit as a central unit the measurement data of several are at high voltage potential Licher transducer and downstream measurement value converter records and processed.