DE19712900A1 - Sensor system for measuring electric current and voltage esp. for medium voltage - Google Patents

Abstract

The ohmic voltage divider (5) and the capacitive voltage divider (6) for the voltage testing are arranged together in a combination unit (1) along with the prim. conductor (4) and the current sensor (3). The sensor, the prim. conductor and the two dividers are cast in a block of casting resin. The current sensor is designed as an inductive current sensor with a wire coil (7) arranged around the prim. conductor. The prim. conductor is designed U shaped in the combination unit, and both its ends are led through on the upper side of the combination unit.

Description

The invention relates to a sensor arrangement for Current and voltage measurement, especially for Medium voltage systems.

In known sensor arrangements of this type Current sensor and the voltage sensor as separate Devices arranged in different housings. This Housing are spatial Dimensions and in particular their connections to the Current conductor of a medium voltage system according to DIN 42 600 standardized so that they can be installed in the medium-voltage system can be installed. The disadvantage, however, is that for the electricity and Voltage measurement two devices mounted and must be connected.

DE 40 10 576 A1 describes a sensor arrangement a medium voltage current transformer known from one primary winding and one with an iron core provided secondary winding, which together with a capacitive divider in a cast resin housing is poured. The known arrangement has the Disadvantage that no voltage measurement with it can be carried out.

The object of the invention is a sensor arrangement for current and voltage measurement at which Installation and connection to a medium voltage system particularly simple and with little work can be carried out.

The object is achieved in that a current sensor for measuring a current in a primary conductor, an ohmic voltage divider for  the voltage measurement and a capacitive Voltage divider for voltage testing together in a combination device are arranged.

Due to the arrangement according to the invention one of two devices can be saved. The combination device is more compact than known device arrangements for power and Voltage measurement. The assembly effort is halved. At the same time sensor arrangement according to the invention the requirements of DIN 42 600 regarding the spatial dimensions and the arrangement of the electrical contacts observed. This has the advantage that the conventional Equipped high and low Medium voltage systems in a simple way with the sensor arrangement according to the invention can be retrofitted can by simply selecting the appropriate module is exchanged.

It is also advantageous that the invention Combination device a current sensor in connection with fixed built-in burden and a voltage divider. Both components deliver one of the at their output measured size proportional voltage. If on the other hand next to the voltage divider Current transformer would have been installed, so next to one Voltage measuring device additionally a current measuring device are provided, which increases the effort disadvantageously increased. Even with a downstream one Electronics it is beneficial if only voltages are available as measured variables, since these are from the Standard electronics can be processed directly while a current as a measurand only under additional Circuit effort can be converted into a voltage ought to.

An essential element of the invention is instead one from a voluminous winding and one  Iron core existing voltage converter one to use space-saving ohmic divider because that Combined device in terms of its spatial dimensions the standards specified for individual devices (DIN norm 42 600) and therefore much more compact than that Individual devices must be built.

In the compilation with an ohmic Voltage dividers for voltage measurement can do that Presence of a capacitive voltage divider for Use cases that are crucial are additional require a voltage test. The invention allows the user after the simple assembly of a single combination device, as required either a current measurement, a voltage measurement or a voltage test or a combination of Perform measurements.

In a preferred embodiment of the invention it is provided that the current sensor, the Primary conductor, the ohmic voltage divider and the capacitive voltage divider in one block Cast resin are poured. By this measure the electrical components are spatially fixed and electrically isolated at the same time, and also the device housing is still generated.

To a particularly high measuring accuracy and a low voltage level for current measurement too it is recommended that the current sensor be used as inductive current sensor with one around the primary conductor arranged around the wire coil is formed.

A simple embodiment provides that the Primary conductor in the combination device is U-shaped and that its two ends on the top of the Combi device with two connections are brought out. Due to the U-shaped shape of the primary conductor  the connection of the combination device to the Medium voltage system in accordance with DIN 42 600 advantageously simplified. The connections are with regard to their spatial arrangement, Dimensions and mechanical connection to the Medium voltage system adapted.

The invention can be further improved by that the combination device with threads on its top provided for screwing in fastening screws is. These threads that are used to assemble the arrangement according to the invention can be used in particular consist of threaded sleeves that also in the cast resin block of the device housing are cast in. This gives you a simple one Adaptation to the DIN 42 600 without complex Manufacturing measures would be required.

In an embodiment of the invention it is provided that the ohmic voltage divider from one Resistance strip exists and that the two ends the resistance strip of field control electrodes are surrounded. This embodiment is simple producible and is particularly suitable for Pouring in synthetic resin. The field control electrodes ensure an even field course of the electric field.

The voltage divider can be improved dielectric if the resistance strip with silicone rubber is encapsulated. This measure will Voltage divider before mechanical chemical and especially protected against electrical influences. The proves to be particularly advantageous Silicone coating when the voltage divider in one Cast resin housing is poured. In this case the silicone coating leads to the formation of a  electrically sealed noble joint, which Partial discharges on the voltage divider can be prevented.

In another embodiment of the invention provided that measuring lines from the current sensor, from the ohmic voltage divider and from the capacitive Voltage divider to a measured value display or Guide evaluation device on the underside of the Combined device connectable and laterally from the Combined device can be brought out. The Test leads advantageously combined and on one Place out of the combi case where they a large distance to the connections of the Have medium voltage leading conductor.

In a preferred embodiment, the sensor arrangement according to the invention for medium voltages designed in the order of up to 3 kV and it can be used particularly advantageously when the Current sensor for nominal currents from 40 to 640 A and 1250 or 2500 A is designed, with the secondary Rated voltage remains constant at 150 mV, and as highest continuous thermal current of 1250 A or 2500 A can be achieved.

When using the invention recommended that the ohmic voltage divider typically a divide ratio of 10,000 to 1 has, the resistance on the primary side between 50 Ω and 300 MΩ reached.

An embodiment of the invention will described below with reference to the drawings.

Show it:

Fig. 1 shows a section through the housing of a sensor arrangement according to the invention,

Fig. 2 is a side view of the same casing,

Fig. 3 is a plan view of the same housing.

In Fig. 1 you can see a cut combination device 1 , the housing 2 is made of cast resin. The combination device 1 contains a sensor arrangement for current and voltage measurement for medium-voltage systems, which is designed for voltages up to 36 kV. A current sensor 3 , a primary conductor 4 , an ohmic voltage divider 5 and a capacitive voltage divider 6 are cast together in the housing 2 .

The current sensor 3 provided for current measurement is designed as an inductive current sensor and consists of a wire coil 7 which is arranged around the primary conductor 4 . The primary conductor 4 consists of a Cu conductor which is designed for rated currents from 80 to 640 A or 1250 to 2500 A and for a maximum thermal continuous current of 1250 A or 2500 A. The primary conductor 4 is U-shaped, passes through the wire coil 7 and reaches with its two ends the top of the housing 2 , where at both ends a connection 8 is formed for electrical connection to the current conductors of the medium-voltage system.

Furthermore, the combination device 1 has on its upper side laterally arranged to the connections 8 threaded sleeves 9 , which are intended for screwing in fastening screws during assembly on the medium-voltage system. The threaded sleeves 9 are cast into the housing 2 . Dimensions, electrical connections 8 and threaded sleeves 9 of the combination device 1 are designed in accordance with DIN 42 600.

The ohmic voltage divider 5 consists of a resistance strip, which in turn is formed from a ceramic carrier, which is provided with a printed conductor, which preferably consists of a resistance paste. The ohmic voltage divider 5 has a primary-side divider resistance in the range from 50 MΩ to 300 MΩ. A division ratio of 10,000 to 1 is thus achieved. At both ends of the voltage divider 5 , two field control electrodes 10 are arranged, which ensure the most uniform possible transition of the electric field in the area of the ohmic voltage divider 5 .

The capacitive voltage divider 6 is essentially intended for monitoring purposes. It can be used to check whether the medium-voltage system is live or not. The precise measurement of the voltage is carried out via the ohmic voltage divider 5 .

Measuring lines 11 , 12 lead from the current sensor 3 , the ohmic voltage divider 5 and the capacitive voltage divider 6 to a measurement value display and evaluation device (not shown). The measuring lines 11 , 12 are connected to the underside of the housing 2 and lead out of the combination device 1 laterally.

Reference list

1 combination device
2 housings
3 current sensor
4 primary conductors
5 ohmic voltage divider
6 capacitive voltage divider
7 wire spool
8 connection
9 threaded sleeves
10 field control electrodes
11 measuring line
12 measuring line

Claims (10)

1. Sensor arrangement for current and voltage measurement, in particular for medium-voltage systems, characterized in that a current sensor ( 3 ) for measuring a current in a primary conductor ( 4 ), an ohmic voltage divider ( 5 ) for voltage measurement and a capacitive voltage divider ( 6 ) are arranged together in a combination device ( 1 ) for the voltage test. 2. Sensor arrangement according to claim 1, characterized in that the current sensor ( 3 ), the primary conductor ( 4 ), the ohmic voltage divider ( 5 ) and the capacitive voltage divider ( 6 ) are cast in a block of casting resin, preferably in its main dimensions DIN 42nd 600 corresponds. 3. Sensor arrangement according to claim 1 or 2, characterized in that the current sensor ( 3 ) is designed as an inductive current sensor with a wire coil ( 7 ) arranged around the primary conductor ( 4 ). 4. Sensor arrangement according to one of claims 1 to 3, characterized in that the primary conductor ( 4 ) in the combination device ( 1 ) is U-shaped and that its two ends on the top of the combination device ( 1 ) with two connections ( 8 ) are brought out. 5. Sensor arrangement according to one of claims 1 to 4, characterized in that the combination device ( 1 ) is provided on its upper side with threads ( 9 ) for screwing in fastening screws. 6. Sensor arrangement according to one of claims 1 to 5, characterized in that the ohmic voltage divider ( 5 ) consists of a resistance strip and that the two ends of the resistance strip are surrounded by, in particular cup-shaped, field control electrodes ( 10 ). 7. Sensor arrangement according to claim 6, characterized characterized in that the Resistor divider encased in silicone rubber is. 8. Sensor arrangement according to one of claims 1 to 7, characterized in that measuring lines ( 11 , 12 ) leading from the current sensor ( 3 ), from the ohmic voltage divider ( 5 ) and from the capacitive voltage divider ( 6 ) to a measured value display or evaluation device , can be connected to the underside of the combination device ( 1 ) and can be removed from the side of the combination device ( 1 ). 9. Sensor arrangement according to one of claims 1 to 8, characterized in that the current sensor ( 3 ) is designed for nominal currents from 80 to 640 A or 1250 to 2500 A, the secondary-side nominal voltage remains substantially constant at 150 mV, and that 1250 A or 2500 A can be achieved as the highest continuous thermal current. 10. Sensor arrangement according to one of claims 1 to 9, characterized in that the ohmic voltage divider ( 5 ) typically has a divider ratio of 10000 to 1, the primary-side high-voltage resistance in the range between 50 MΩ and 300 MΩ.