DE202017103181U1 - Device for thermal monitoring of cable connections - Google Patents

Abstract

Device for thermal monitoring of cable connections, wherein at least one temperature sensor (2) is provided, characterized in that a sensor holder (1) is arranged in a cable bundle of at least three cables (3) such that the temperature sensor (2) between the cables ( 3) is placed in the middle.

Description

The invention relates to a thermal monitoring of cable connections, for example of power cable connections and cable connections, in particular in wind turbines.

The mechanical energy generated in wind turbines by the rotation of the rotor is converted by a generator into electrical energy. Power cables carry the electrical energy from the generator through the tower to an electrical outlet on the wind turbine usually located in the base of the tower. Because of the large currents required by the high performance of modern wind turbines, numerous power cables often run side by side in the tower. When using three-phase alternating current usually three power cables are combined into a bundle. In addition to the connection points on the generator and in the area of the base of the tower, additional connecting points may be necessary due to the large height of the towers.

Faulty power cable connections and cable connections, due to faulty manufacture, assembly, installation or operation of the cable, can lead to an increase in temperature or even trigger fire in the parallel laid cables or their connection points, which can result in the loss of the wind turbine.

For many years bimetallic switches have been used, e.g. Monitor windings in motors and generators. Some utilities now use cables with integrated temperature monitoring sensors. Cable connections and cable connections are considered safe systems. In wind turbines, cable connections are often controlled by means of thermography during annual inspections.

The DE 102012218067 A1 relates to the monitoring of a multi-wire wiring harness in wind turbines. The temperature of all lines to be monitored is measured in the longitudinal direction of the strand at the same point by means of a temperature-dependent measuring resistor, in particular at a connection or measuring point in the tower head or in the tower base. For this purpose, all lines are combined on a clamping device and for each line is a temperature sensor, also on the clamping device arranged. The absolute temperature of at least two of the electrical lines is measured and the temperature difference of the lines relative to one another is determined by measurement. If two temperatures deviate from each other by more than a predetermined limit, an error is signaled.

Presentation of the invention

The object of the invention is to detect faulty cable connections and cable connections in good time and if necessary to switch off the electrical system in order to prevent a possible cable fire. The thermal monitoring of the cable connections should be simple, retrofittable and inexpensive.

The solution of the problem is carried out with a device according to the main claim. The embodiments are set forth in the subclaims.

Power cable connections and cable connections can be thermally monitored by externally mounting defined temperature sensors, such as bi-metal sensors. The sensors can be interconnected by series connection in any number and monitored by a fault message center. The fault message unit has a potential-free switching contact, which makes it easy to integrate the monitoring system into existing control systems. Depending on the type of sensor wiring and the available alarm inputs of a fault message center, individual cable connections or entire cable sections can be monitored and diagnosed in the event of a fault.

In a device for the thermal monitoring of cable connections, at least one temperature sensor is provided which is placed centrally between the cables by means of a sensor holder in a cable bundle of at least three cables. As a result, only one temperature sensor is necessary to monitor all side by side, in close proximity to each other connections of a cable bundle.

The sensor holder preferably consists of a triangular, elongated molding with an equilateral cross section.

More preferably, the sensor holder on its three longitudinal sides partially cylindrical recesses, in each of which a cable is inserted. As a result, the sensor holder is adapted to the usually circular-cylindrical shape of cables and receives a large contact surface with each individual cable of the bundle, whereby a good heat transfer is ensured. Furthermore, a centrally arranged to the cross section of the sensor holder opening is provided, which receives the temperature sensor.

Particularly preferably, the sensor holder consists of a material with good thermal conductivity. In particular, ceramics, metals or silicone come into question.

With this monitoring, cable connections such as cable lugs, connecting rails, etc. can also be thermally monitored. For this purpose, temperature sensors, such as bimetallic switches, with various connection options and required voltage breakdown proof insulation are available.

list of figures

• 1 eine schematische Anordnung eines Temperatursensors in einem Kabelbündel,
• 2 einen erfindungsgemäßen Sensorhalter,
• 3 eine Schaltungsanordnung zur Temperaturüberwachung.

The invention will be explained in more detail with reference to figures. Show this

• 1 a schematic arrangement of a temperature sensor in a cable bundle,
• 2 a sensor holder according to the invention,
• 3 a circuit arrangement for temperature monitoring.

For a thermal monitoring of cable connections an embodiment for an arrangement of a temperature sensor, in particular a bimetallic switch (OH relay) will be explained in more detail here.

The temperature monitoring according to the invention is at connection points of cables 3 performed, which are arranged in triplets. ( 1 ) In the cable bundle a single temperature sensor 2 is placed in the middle. The temperature sensor 2 has a trip temperature threshold of, for example, 90 ° C ± 5K. The temperature sensor 2 is through a sensor holder 1 protected in the form of a body made of a material with a high thermal conductivity. As a material, for example, ceramic, metal, silicone or the like can be used.

The sensor holder 1 which is in 2 is shown, is a triangular, elongated molding with an equilateral cross-section. On all three sides axially part-cylindrical recesses are incorporated, in each of which a cable 3 can be inserted. Center in the sensor holder 1 is an inner opening 4 for receiving the temperature sensor 2 intended. This will cause the temperature sensor 2 right in the middle between the cables 3 placed. The opening 4 is adapted to the outer shape of the temperature sensor 2, so does not have to be rectangular, but may also have a different shape, eg. B. round.

In 3 shows a circuit arrangement 10 for temperature monitoring. The arrangement has an evaluation unit 20 on, which acts as a fault message center and with the temperature sensors 2 are connected to the power cables via conductors. The evaluation unit 20 has a limited number of inputs, so there are several temperature sensors 2 a layer connected in series, so that in one plane all cable strands through a row 11 ... 15 of temperature sensors 2 are completely monitored. The triggering of a temperature sensor 2 in a row 11 ... 15 is caused by a permanent fault message 22 signaled to the operation control of the wind turbine. The operating control then triggers suitable measures, for example, a message to a monitoring center, reducing the performance of the system or shutdown of the system.

The fault message 22 can only be confirmed manually on site. To the position of the triggering temperature sensor 2 To determine, the relevant level or tower section is signaled by an LED on the fault message center. In the affected tower section is then the triggering temperature sensor 2 to investigate. This can be z. B. by means of retrofitted temperature measuring strips or thermography after renewed wind turbine operation. After the faulty power cable connection has been determined, measures are taken to switch it off (eg connector or cable replacement).

The number of cable connections to be monitored depends on the number of tower sections in which power cable connections have been made. In each triple bundle of power cable connections are the temperature sensors 2 mounted on the cable connections and connected in series. To achieve a complete temperature control, this must be done at each relevant cable connection point. For the wiring of the temperature sensors a silicone hose line is provided as a riser, from which, via a junction box a stub leads to the sensors. The fault message center is housed in a control cabinet.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102012218067 A1 [0005]

Claims (5)

Device for thermal monitoring of cable connections, wherein at least one temperature sensor (2) is provided, characterized in that a sensor holder (1) is arranged in a cable bundle of at least three cables (3) such that the temperature sensor (2) between the cables ( 3) is placed in the middle. Device after Claim 1 , characterized in that the sensor holder (1) consists of a triangular, elongated molding with an equilateral cross-section. Device after Claim 2 , characterized in that the sensor holder (1) on its three longitudinal sides axial partially cylindrical recesses, in each of which a cable (3) is inserted, and a cross-sectionally arranged centrally opening (4) for receiving the temperature sensor (2) Device according to one of the preceding claims, characterized in that the sensor holder (1) consists of a material having a high thermal conductivity. Device after Claim 4 characterized in that the sensor holder made of ceramic, metal or silicone.

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